opm-common/opm/parser/eclipse/EclipseState/Schedule/Group.hpp

/*
  Copyright 2013 Statoil ASA.

  This file is part of the Open Porous Media project (OPM).

  OPM 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.

  OPM 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 for more details.

  You should have received a copy of the GNU General Public License
  along with OPM.  If not, see <http://www.gnu.org/licenses/>.
*/


#ifndef GROUP_HPP_
#define GROUP_HPP_

#include <memory>
#include <set>
#include <string>

#include <opm/parser/eclipse/EclipseState/Schedule/ScheduleEnums.hpp>
#include <opm/parser/eclipse/EclipseState/Runspec.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/DynamicState.hpp>

namespace Opm {


    class TimeMap;
    class Well;

    namespace GroupInjection {
        struct InjectionData {
            explicit InjectionData( const TimeMap& );

            DynamicState< Phase > phase;
            DynamicState< GroupInjection::ControlEnum > controlMode;
            DynamicState< double > rate;
            DynamicState< double > surfaceFlowMaxRate;
            DynamicState< double > reservoirFlowMaxRate;
            DynamicState< double > targetReinjectFraction;
            DynamicState< double > targetVoidReplacementFraction;
        };
    }


    namespace GroupProduction {
        struct ProductionData {
            explicit ProductionData( const TimeMap& );

            DynamicState< GroupProduction::ControlEnum > controlMode;
            DynamicState< GroupProductionExceedLimit::ActionEnum > exceedAction;
            DynamicState< double > oilTarget;
            DynamicState< double > waterTarget;
            DynamicState< double > gasTarget;
            DynamicState< double > liquidTarget;
            DynamicState< double > reservoirVolumeTarget;
        };
    }

    class Group {
    public:
        Group(const std::string& name, const TimeMap& timeMap , size_t creationTimeStep);
        bool hasBeenDefined(size_t timeStep) const;
        const std::string& name() const;
        bool isProductionGroup(size_t timeStep) const;
        bool isInjectionGroup(size_t timeStep) const;
        void setProductionGroup(size_t timeStep, bool isProductionGroup);
        void setInjectionGroup(size_t timeStep, bool isInjectionGroup_);

        /******************************************************************/
        void             setInjectionPhase(size_t time_step, Phase);
        Phase            getInjectionPhase(size_t time_step) const;

        void                      setInjectionControlMode(size_t time_step , GroupInjection::ControlEnum ControlMode);
        GroupInjection::ControlEnum getInjectionControlMode( size_t time_step) const;

        void   setInjectionRate(size_t time_step , double rate);
        double getInjectionRate( size_t time_step) const;

        void   setSurfaceMaxRate( size_t time_step , double rate);
        double getSurfaceMaxRate( size_t time_step ) const;

        void   setReservoirMaxRate( size_t time_step , double rate);
        double getReservoirMaxRate( size_t time_step ) const;

        void   setTargetReinjectFraction( size_t time_step , double rate);
        double getTargetReinjectFraction( size_t time_step ) const;

        void   setTargetVoidReplacementFraction( size_t time_step , double rate);
        double getTargetVoidReplacementFraction( size_t time_step ) const;

        /******************************************************************/

        void   setProductionControlMode( size_t time_step , GroupProduction::ControlEnum controlMode);
        GroupProduction::ControlEnum getProductionControlMode( size_t time_step ) const;

        GroupProductionExceedLimit::ActionEnum getProductionExceedLimitAction(size_t time_step) const;
        void setProductionExceedLimitAction(size_t time_step , GroupProductionExceedLimit::ActionEnum action);

        void   setOilTargetRate(size_t time_step , double oilTargetRate);
        double getOilTargetRate(size_t time_step) const;
        void   setGasTargetRate(size_t time_step , double gasTargetRate);
        double getGasTargetRate(size_t time_step) const;
        void   setWaterTargetRate(size_t time_step , double waterTargetRate);
        double getWaterTargetRate(size_t time_step) const;
        void   setLiquidTargetRate(size_t time_step , double liquidTargetRate);
        double getLiquidTargetRate(size_t time_step) const;
        void   setReservoirVolumeTargetRate(size_t time_step , double reservoirVolumeTargetRate);
        double getReservoirVolumeTargetRate(size_t time_step) const;
        void   setGroupEfficiencyFactor(size_t time_step, double factor);
        double getGroupEfficiencyFactor(size_t time_step) const;
        void   setTransferGroupEfficiencyFactor(size_t time_step, bool transfer);
        bool   getTransferGroupEfficiencyFactor(size_t time_step) const;
        void   setGroupNetVFPTable(size_t time_step, int table);
        int    getGroupNetVFPTable(size_t time_step) const;
        static bool   groupNameInGroupNamePattern(const std::string& groupName, const std::string& groupNamePattern);

        /*****************************************************************/

        bool hasWell(const std::string& wellName , size_t time_step) const;
        const std::set< std::string >& getWells( size_t time_step ) const;
        size_t numWells(size_t time_step) const;
        void addWell(size_t time_step, const Well* well);
        void delWell(size_t time_step, const std::string& wellName );

    private:
        size_t m_creationTimeStep;
        std::string m_name;
        GroupInjection::InjectionData m_injection;
        GroupProduction::ProductionData m_production;
        DynamicState< std::set< std::string > > m_wells;
        DynamicState<int> m_isProductionGroup;
        DynamicState<int> m_isInjectionGroup;
        DynamicState<double> m_efficiencyFactor;
        DynamicState<int> m_transferEfficiencyFactor;
        DynamicState<int> m_groupNetVFPTable;
    };
}



#endif /* GROUP_HPP_ */