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4c1f7776b9
ResInsight/ApplicationCode/FileInterface/RifEclipseExportTools.cpp
astridkbjorke 4c1f7776b9 pre-proto - Sorting includes
2017-01-31 15:58:13 +01:00

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/////////////////////////////////////////////////////////////////////////////////
//
// 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.
//
/////////////////////////////////////////////////////////////////////////////////
#include "RifEclipseExportTools.h"
#include "RiaApplication.h"
#include "RigFracture.h"
#include "RigFracture.h"
#include "RigMainGrid.h"
#include "RimEclipseResultDefinition.h"
#include "RimEclipseView.h"
#include "RimEclipseWell.h"
#include "RimEllipseFractureTemplate.h"
#include "RimFracture.h"
#include "RimWellPath.h"
#include "cafProgressInfo.h"
#include <QFile>
#include <QString>
#include <QTextStream>
//--------------------------------------------------------------------------------------------------
/// Constructor
//--------------------------------------------------------------------------------------------------
RifEclipseExportTools::RifEclipseExportTools()
{
}
//--------------------------------------------------------------------------------------------------
/// Destructor
//--------------------------------------------------------------------------------------------------
RifEclipseExportTools::~RifEclipseExportTools()
{
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
bool RifEclipseExportTools::writeFracturesToTextFile(const QString& fileName, const std::vector< RimFracture*>& fractures)
{
RiaApplication* app = RiaApplication::instance();
RimView* activeView = RiaApplication::instance()->activeReservoirView();
if (!activeView) return false;
RimEclipseView* activeRiv = dynamic_cast<RimEclipseView*>(activeView);
if (!activeRiv) return false;
const RigMainGrid* mainGrid = activeRiv->mainGrid();
if (!mainGrid) return false;
QFile file(fileName);
if (!file.open(QIODevice::WriteOnly | QIODevice::Text))
{
return false;
}
caf::ProgressInfo pi(fractures.size(), QString("Writing data to file %1").arg(fileName));
RimEclipseWell* simWell = nullptr;
RimWellPath* wellPath = nullptr;
size_t progress =0;
std::vector<size_t> ijk;
QTextStream out(&file);
out << "\n";
out << "-- Exported from ResInsight" << "\n\n";
printBackgroundDataHeaderLine(out);
for (RimFracture* fracture : fractures)
{
fracture->computeTransmissibility();
std::vector<RigFractureData> fracDataVector = fracture->attachedRigFracture()->fractureData();
for (RigFractureData fracData : fracDataVector)
{
printBackgroundData(out, wellPath, simWell, fracture, mainGrid, fracData);
}
}
out << "\n";
out << "COMPDAT" << "\n" << right << qSetFieldWidth(8);
for (RimFracture* fracture : fractures)
{
fracture->computeTransmissibility();
std::vector<RigFractureData> fracDataVector = fracture->attachedRigFracture()->fractureData();
for (RigFractureData fracData : fracDataVector)
{
if (fracData.transmissibility > 0)
{
printCOMPDATvalues(out, fracData, fracture, wellPath, simWell, mainGrid);
}
}
//TODO: If same cell is used for multiple fractures, the sum of contributions should be added to table.
progress++;
pi.setProgress(progress);
}
return true;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RifEclipseExportTools::printCOMPDATvalues(QTextStream & out, RigFractureData &fracData, RimFracture* fracture, RimWellPath* wellPath, RimEclipseWell* simWell, const RigMainGrid* mainGrid)
{
out << qSetFieldWidth(8);
if (fracData.transmissibility == cvf::UNDEFINED_DOUBLE || !(fracture->attachedFractureDefinition())) out << "--"; //Commenting out line in output file
wellPath, simWell = nullptr;
fracture->firstAncestorOrThisOfType(simWell);
if (simWell) out << simWell->name; // 1. Well name
fracture->firstAncestorOrThisOfType(wellPath);
if (wellPath) out << wellPath->name; // 1. Well name
out << qSetFieldWidth(5);
size_t i, j, k;
mainGrid->ijkFromCellIndex(fracData.reservoirCellIndex, &i, &j, &k);
out << i + 1; // 2. I location grid block, adding 1 to go to eclipse 1-based grid definition
out << j + 1; // 3. J location grid block, adding 1 to go to eclipse 1-based grid definition
out << k + 1; // 4. K location of upper connecting grid block, adding 1 to go to eclipse 1-based grid definition
out << k + 1; // 5. K location of lower connecting grid block, adding 1 to go to eclipse 1-based grid definition
out << "2* "; // Default value for
//6. Open / Shut flag of connection
// 7. Saturation table number for connection rel perm. Default value
out << qSetFieldWidth(12);
// 8. Transmissibility
if (fracData.transmissibility != cvf::UNDEFINED_DOUBLE) out << QString::number(fracData.transmissibility, 'g', 6);
else out << "UNDEF";
out << qSetFieldWidth(4);
out << "2* "; // Default value for
// 9. Well bore diameter. Set to default
// 10. Effective Kh (perm times width)
if (fracture->attachedFractureDefinition())
{
out << fracture->attachedFractureDefinition()->skinFactor; // 11. Skin factor
}
else //If no attached fracture definition these parameters are set to UNDEF
{
out << "UNDEF";
}
out << "/";
out << " " << fracture->name(); //Fracture name as comment
out << "\n"; // Terminating entry
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RifEclipseExportTools::printBackgroundDataHeaderLine(QTextStream & out)
{
out << "-- Background data for calculation" << "\n\n";
//Write header line
out << qSetFieldWidth(4);
out << "--";
out << qSetFieldWidth(12);
out << "Well ";
out << qSetFieldWidth(16);
out << "Fracture ";
out << qSetFieldWidth(5);
out << "i";
out << "j";
out << "k";
out << qSetFieldWidth(12);
out << "Ax";
out << "Ay";
out << "Az";
out << "TotArea";
out << "skinfac";
out << "FracLen";
out << qSetFieldWidth(10);
out << "DX";
out << "DY";
out << "DZ";
out << "PermX";
out << "PermY";
out << "PermZ";
out << "NTG";
out << qSetFieldWidth(12);
out << "T_x";
out << "T_y";
out << "T_z";
out << qSetFieldWidth(15);
out << "Transm";
out << "\n";
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RifEclipseExportTools::printBackgroundData(QTextStream & out, RimWellPath* wellPath, RimEclipseWell* simWell, RimFracture* fracture, const RigMainGrid* mainGrid, RigFractureData &fracData)
{
if (!fracData.cellIsActive)
{
out << qSetFieldWidth(20);
out << "-- INACTIVE CELL ";
}
else if (fracData.cellIsActive && fracData.transmissibility > 0)
{
out << qSetFieldWidth(4);
out << "--";
}
else
{
out << qSetFieldWidth(20);
out << "-- INVALID DATA ";
}
out << qSetFieldWidth(12);
wellPath, simWell = nullptr;
fracture->firstAncestorOrThisOfType(simWell);
if (simWell) out << simWell->name + " " ; // 1. Well name
fracture->firstAncestorOrThisOfType(wellPath);
if (wellPath) out << wellPath->name + " "; // 1. Well name
out << qSetFieldWidth(16);
out << fracture->name().left(15) + " ";
out << qSetFieldWidth(5);
size_t i, j, k;
mainGrid->ijkFromCellIndex(fracData.reservoirCellIndex, &i, &j, &k);
out << i + 1; // 2. I location grid block, adding 1 to go to eclipse 1-based grid definition
out << j + 1; // 3. J location grid block, adding 1 to go to eclipse 1-based grid definition
out << k + 1; // 4. K location of upper connecting grid block, adding 1 to go to eclipse 1-based grid definition
out << qSetFieldWidth(12);
//Use f for float, e for exponent float and g for best choice of these two.
out << QString::number(fracData.projectedAreas.x(), 'g', 4);
out << QString::number(fracData.projectedAreas.y(), 'g', 4);
out << QString::number(fracData.projectedAreas.z(), 'g', 4);
out << QString::number(fracData.totalArea, 'g', 4);
out << QString::number(fracData.skinFactor, 'f', 2);
out << QString::number(fracData.fractureLenght, 'g', 3);
out << qSetFieldWidth(10);
out << QString::number(fracData.cellSizes.x(), 'f', 2);
out << QString::number(fracData.cellSizes.y(), 'f', 2);
out << QString::number(fracData.cellSizes.z(), 'f', 2);
out << QString::number(fracData.permeabilities.x(), 'f', 4);
out << QString::number(fracData.permeabilities.y(), 'f', 4);
out << QString::number(fracData.permeabilities.z(), 'f', 4);
out << QString::number(fracData.NTG, 'f', 2);
out << qSetFieldWidth(12);
out << QString::number(fracData.transmissibilities.x(), 'e', 3);
out << QString::number(fracData.transmissibilities.y(), 'e', 3);
out << QString::number(fracData.transmissibilities.z(), 'e', 3);
out << qSetFieldWidth(15);
out << QString::number(fracData.transmissibility, 'f', 3);
out << "\n";
}
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