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ResInsight/ApplicationCode/ReservoirDataModel/RigCaseCellResultsData.h

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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.
//
/////////////////////////////////////////////////////////////////////////////////
#pragma once
#include "RimDefines.h"
#include <QDateTime>
#include <vector>
#include <cmath>
#include "RifReaderInterface.h"
class RifReaderInterface;
class RigMainGrid;
//==================================================================================================
/// Class containing the results for the complete number of active cells. Both main grid and LGR's
//==================================================================================================
class RigCaseCellResultsData : public cvf::Object
{
public:
RigCaseCellResultsData(RigMainGrid* ownerGrid);
void setMainGrid(RigMainGrid* ownerGrid);
// Max and min values of the results
void recalculateMinMax(size_t scalarResultIndex);
void minMaxCellScalarValues(size_t scalarResultIndex, double& min, double& max);
void minMaxCellScalarValues(size_t scalarResultIndex, size_t timeStepIndex, double& min, double& max);
void posNegClosestToZero(size_t scalarResultIndex, double& pos, double& neg);
void posNegClosestToZero(size_t scalarResultIndex, size_t timeStepIndex, double& pos, double& neg);
const std::vector<size_t>& cellScalarValuesHistogram(size_t scalarResultIndex);
void p10p90CellScalarValues(size_t scalarResultIndex, double& p10, double& p90);
void meanCellScalarValues(size_t scalarResultIndex, double& meanValue);
// Access meta-information about the results
size_t resultCount() const;
size_t timeStepCount(size_t scalarResultIndex) const;
size_t maxTimeStepCount(size_t* scalarResultIndex = NULL) const;
QStringList resultNames(RimDefines::ResultCatType type) const;
bool isUsingGlobalActiveIndex(size_t scalarResultIndex) const;
QDateTime timeStepDate(size_t scalarResultIndex, size_t timeStepIndex) const;
std::vector<QDateTime> timeStepDates(size_t scalarResultIndex) const;
void setTimeStepDates(size_t scalarResultIndex, const std::vector<QDateTime>& dates);
// Find or create a slot for the results
size_t findScalarResultIndex(RimDefines::ResultCatType type, const QString& resultName) const;
size_t findScalarResultIndex(const QString& resultName) const;
size_t addEmptyScalarResult(RimDefines::ResultCatType type, const QString& resultName, bool needsToBeStored);
QString makeResultNameUnique(const QString& resultNameProposal) const;
void createCombinedTransmissibilityResult();
void removeResult(const QString& resultName);
void clearAllResults();
void freeAllocatedResultsData();
// Access the results data
const std::vector< std::vector<double> > & cellScalarResults(size_t scalarResultIndex) const;
std::vector< std::vector<double> > & cellScalarResults(size_t scalarResultIndex);
std::vector<double>& cellScalarResults(size_t scalarResultIndex, size_t timeStepIndex);
double cellScalarResult(size_t scalarResultIndex, size_t timeStepIndex, size_t resultValueIndex);
static RifReaderInterface::PorosityModelResultType convertFromProjectModelPorosityModel(RimDefines::PorosityModelType porosityModel);
public:
class ResultInfo
{
public:
ResultInfo(RimDefines::ResultCatType resultType, bool needsToBeStored, bool mustBeCalculated, QString resultName, size_t gridScalarResultIndex)
: m_resultType(resultType), m_needsToBeStored(needsToBeStored), m_resultName(resultName), m_gridScalarResultIndex(gridScalarResultIndex), m_mustBeCalculated(mustBeCalculated) { }
public:
RimDefines::ResultCatType m_resultType;
bool m_needsToBeStored;
bool m_mustBeCalculated;
QString m_resultName;
size_t m_gridScalarResultIndex;
std::vector<QDateTime> m_timeStepDates;
};
const std::vector<ResultInfo>& infoForEachResultIndex() { return m_resultInfos;}
bool mustBeCalculated(size_t scalarResultIndex) const;
void setMustBeCalculated(size_t scalarResultIndex);
public:
size_t addStaticScalarResult(RimDefines::ResultCatType type,
const QString& resultName,
bool needsToBeStored,
size_t resultValueCount);
bool findTransmissibilityResults(size_t& tranX, size_t& tranY, size_t& tranZ) const;
private:
std::vector< std::vector< std::vector<double> > > m_cellScalarResults; ///< Scalar results on the complete reservoir for each Result index (ResultVariable) and timestep
std::vector< std::pair<double, double> > m_maxMinValues; ///< Max min values for each Result index
std::vector< std::pair<double, double> > m_posNegClosestToZero;
std::vector< std::vector<size_t> > m_histograms; ///< Histogram for each Result Index
std::vector< std::pair<double, double> > m_p10p90; ///< P10 and p90 values for each Result Index
std::vector< double > m_meanValues; ///< Mean value for each Result Index
std::vector< std::vector< std::pair<double, double> > > m_maxMinValuesPrTs; ///< Max min values for each Result index and timestep
std::vector< std::vector< std::pair<double, double> > > m_posNegClosestToZeroPrTs;
size_t m_combinedTransmissibilityResultIndex;
private:
std::vector<ResultInfo> m_resultInfos;
RigMainGrid* m_ownerMainGrid;
};
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