ResInsight/ApplicationLibCode/ReservoirDataModel/RigEclipseCaseData.h

/////////////////////////////////////////////////////////////////////////////////
//
//  Copyright (C) 2011-     Statoil ASA
//  Copyright (C) 2013-     Ceetron Solutions AS
//  Copyright (C) 2011-2012 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.
//
/////////////////////////////////////////////////////////////////////////////////

#pragma once

#include "RifReaderInterface.h"

#include "RiaDefines.h"

#include "cvfArray.h"
#include "cvfAssert.h"
#include "cvfCollection.h"
#include "cvfObject.h"
#include "cvfStructGrid.h"
#include "cvfVector3.h"

#include <map>
#include <set>
#include <vector>

class RigCaseCellResultsData;
class RigFormationNames;
class RigMainGrid;
class RigGridBase;
class RigCaseCellResultsData;
class RigActiveCellInfo;
class RigSimWellData;
class RigCell;
class RigWellPath;
class RimEclipseCase;
class RigVirtualPerforationTransmissibilities;
class RigEquil;
class RigAllanDiagramData;

struct RigWellResultPoint;

//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
class RigEclipseCaseData : public cvf::Object
{
public:
    explicit RigEclipseCaseData( RimEclipseCase* ownerCase );
    ~RigEclipseCaseData() override;

    RimEclipseCase* ownerCase() const { return m_ownerCase; }

    RigMainGrid*       mainGrid();
    const RigMainGrid* mainGrid() const;
    void               setMainGrid( RigMainGrid* mainGrid );

    void               allGrids( std::vector<RigGridBase*>* grids ); // To be removed
    void               allGrids( std::vector<const RigGridBase*>* grids ) const; // To be removed
    const RigGridBase* grid( size_t index ) const;
    RigGridBase*       grid( size_t index );
    size_t             gridCount() const;
    const RigGridBase* grid( const QString& gridName ) const;

    RigCaseCellResultsData*       results( RiaDefines::PorosityModelType porosityModel );
    const RigCaseCellResultsData* results( RiaDefines::PorosityModelType porosityModel ) const;
    const std::vector<double>*    resultValues( RiaDefines::PorosityModelType porosityModel,
                                                RiaDefines::ResultCatType     type,
                                                const QString&                resultName,
                                                size_t                        timeStepIndex );

    RigActiveCellInfo*       activeCellInfo( RiaDefines::PorosityModelType porosityModel );
    const RigActiveCellInfo* activeCellInfo( RiaDefines::PorosityModelType porosityModel ) const;
    void                     setActiveCellInfo( RiaDefines::PorosityModelType porosityModel, RigActiveCellInfo* activeCellInfo );

    bool hasFractureResults() const;

    void                       setActiveFormationNames( RigFormationNames* activeFormationNames );
    const std::vector<QString> formationNames() const;
    RigAllanDiagramData*       allanDiagramData();

    void                                   setSimWellData( const cvf::Collection<RigSimWellData>& data );
    const cvf::Collection<RigSimWellData>& wellResults() const { return m_simWellData; }
    std::set<QString>                      findSortedWellNames() const;
    const RigSimWellData*                  findSimWellData( QString wellName ) const;

    const cvf::UByteArray* wellCellsInGrid( size_t gridIndex );
    const cvf::UIntArray*  gridCellToResultWellIndex( size_t gridIndex );

    const RigCell& cellFromWellResultCell( const RigWellResultPoint& wellResultPoint ) const;
    bool           findSharedSourceFace( cvf::StructGridInterface::FaceType& sharedSourceFace,
                                         const RigWellResultPoint&           sourceWellCellResult,
                                         const RigWellResultPoint&           otherWellCellResult ) const;

    void computeActiveCellBoundingBoxes( bool useOptimizedVersion );

    RiaDefines::EclipseUnitSystem unitsType() const { return m_unitsType; }
    void                          setUnitsType( RiaDefines::EclipseUnitSystem unitsType ) { m_unitsType = unitsType; }

    std::vector<QString> simulationWellNames() const;
    bool                 hasSimulationWell( const QString& simWellName ) const;

    std::vector<const RigWellPath*>
        simulationWellBranches( const QString& simWellName, bool includeAllCellCenters, bool useAutoDetectionOfBranches ) const;

    void setVirtualPerforationTransmissibilities( RigVirtualPerforationTransmissibilities* virtualPerforationTransmissibilities );
    const RigVirtualPerforationTransmissibilities* virtualPerforationTransmissibilities() const;

    void clearWellCellsInGridCache() { m_wellCellsInGrid.clear(); }

    void                  ensureDeckIsParsedForEquilData( const QString& dataDeckFile, const QString& includeFileAbsolutePathPrefix );
    std::vector<RigEquil> equilData() const;
    void                  setEquilData( const std::vector<RigEquil>& equilObjects );

private:
    void computeActiveCellIJKBBox();
    void computeWellCellsPrGrid();
    void computeActiveCellsGeometryBoundingBoxSlow();
    void computeActiveCellsGeometryBoundingBoxOptimized();

    const RigFormationNames* activeFormationNames() const;

private:
    cvf::ref<RigMainGrid> m_mainGrid;
    RimEclipseCase*       m_ownerCase;

    cvf::ref<RigActiveCellInfo> m_activeCellInfo;
    cvf::ref<RigActiveCellInfo> m_fractureActiveCellInfo;

    cvf::ref<RigCaseCellResultsData> m_matrixModelResults;
    cvf::ref<RigCaseCellResultsData> m_fractureModelResults;

    cvf::ref<RigVirtualPerforationTransmissibilities> m_virtualPerforationTransmissibilities;

    cvf::Collection<RigSimWellData>  m_simWellData; //< A WellResults object for each well in the reservoir
    cvf::Collection<cvf::UByteArray> m_wellCellsInGrid; //< A bool array pr grid with one bool pr cell telling whether
                                                        // the cell is a well cell or not
    cvf::Collection<cvf::UIntArray> m_gridCellToResultWellIndex; //< Array pr grid with index to well pr cell telling
                                                                 // which well a cell is in

    RiaDefines::EclipseUnitSystem m_unitsType;

    bool                  m_hasParsedDeckForEquilData;
    std::vector<RigEquil> m_equil;

    mutable std::map<std::tuple<QString, bool, bool>, cvf::Collection<RigWellPath>> m_simWellBranchCache;
};