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ResInsight/ApplicationLibCode/FileInterface/RifFaultReactivationModelExporter.cpp
jonjenssen 52259a69f3
Update grid part naming (#10879) 
* Rename parts
* Make sure well extraction goes along model, not fault
* Match part naming with parts
2023-11-28 02:26:09 +01:00

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/////////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2023- Equinor 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 "RifFaultReactivationModelExporter.h"
#include "RigFaultReactivationModel.h"
#include "RigGriddedPart3d.h"
#include "RiaApplication.h"
#include "RiaBaseDefs.h"
#include "RiaEclipseUnitTools.h"
#include "RiaVersionInfo.h"
#include "RifInpExportTools.h"
#include "RimFaultReactivationDataAccess.h"
#include "RimFaultReactivationEnums.h"
#include "RimFaultReactivationModel.h"
#include <filesystem>
#include <fstream>
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string> RifFaultReactivationModelExporter::exportToStream( std::ostream& stream,
const std::string& exportDirectory,
const RimFaultReactivationModel& rimModel )
{
std::string applicationNameAndVersion = std::string( RI_APPLICATION_NAME ) + " " + std::string( STRPRODUCTVER );
using PartBorderSurface = RimFaultReactivation::BorderSurface;
std::vector<std::pair<PartBorderSurface, std::string>> borders = { { PartBorderSurface::UpperSurface, "TOP" },
{ PartBorderSurface::FaultSurface, "FAULT" },
{ PartBorderSurface::LowerSurface, "BASE" } };
// The two parts are "mirrored", so face number 4 of the two parts should face eachother.
using FaultGridPart = RimFaultReactivation::GridPart;
std::map<std::pair<FaultGridPart, PartBorderSurface>, int> faces = { { { FaultGridPart::FW, PartBorderSurface::FaultSurface }, 4 },
{ { FaultGridPart::FW, PartBorderSurface::UpperSurface }, 4 },
{ { FaultGridPart::FW, PartBorderSurface::LowerSurface }, 4 },
{ { FaultGridPart::HW, PartBorderSurface::FaultSurface }, 4 },
{ { FaultGridPart::HW, PartBorderSurface::UpperSurface }, 4 },
{ { FaultGridPart::HW, PartBorderSurface::LowerSurface }, 4 } };
std::map<FaultGridPart, std::string> partNames = {
{ FaultGridPart::FW, "FW" },
{ FaultGridPart::HW, "HW" },
};
std::map<RimFaultReactivation::Boundary, std::string> boundaries = {
{ RimFaultReactivation::Boundary::Bottom, "BOTTOM" },
{ RimFaultReactivation::Boundary::FarSide, "FARSIDE" },
};
std::map<RimFaultReactivation::ElementSets, std::string> materialNames = {
{ RimFaultReactivation::ElementSets::OverBurden, "OVERBURDEN" },
{ RimFaultReactivation::ElementSets::IntraReservoir, "INTRA_RESERVOIR" },
{ RimFaultReactivation::ElementSets::Reservoir, "RESERVOIR" },
{ RimFaultReactivation::ElementSets::UnderBurden, "UNDERBURDEN" },
};
double faultFriction = 0.0;
bool useGridVoidRatio = rimModel.useGridVoidRatio();
bool useGridPorePressure = rimModel.useGridPorePressure();
bool useGridTemperature = rimModel.useGridTemperature();
bool useGridDensity = rimModel.useGridDensity();
bool useGridElasticProperties = rimModel.useGridElasticProperties();
bool useGridStress = rimModel.useGridStress();
auto dataAccess = rimModel.dataAccess();
auto model = rimModel.model();
CAF_ASSERT( !model.isNull() );
std::vector<std::function<std::pair<bool, std::string>()>> methods = {
[&]() { return printHeading( stream, applicationNameAndVersion ); },
[&]() { return printParts( stream, *model, partNames, borders, faces, boundaries, materialNames ); },
[&]() { return printAssembly( stream, *model, partNames, model->modelLocalNormalsXY() ); },
[&]()
{
return printMaterials( stream, rimModel, materialNames, *dataAccess, exportDirectory, partNames, useGridDensity, useGridElasticProperties );
},
[&]() { return printInteractionProperties( stream, faultFriction ); },
[&]() { return printBoundaryConditions( stream, *model, partNames, boundaries ); },
[&]() { return printPredefinedFields( stream, *model, *dataAccess, exportDirectory, partNames, useGridVoidRatio, useGridStress ); },
[&]() { return printInteractions( stream, partNames, borders ); },
[&]()
{
return printSteps( stream, *model, *dataAccess, partNames, rimModel.selectedTimeSteps(), exportDirectory, useGridPorePressure, useGridTemperature );
},
};
for ( auto method : methods )
{
auto [isOk, errorMessage] = method();
if ( !isOk ) return { false, errorMessage };
}
return { true, "" };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string> RifFaultReactivationModelExporter::exportToFile( const std::string& filePath,
const RimFaultReactivationModel& model )
{
std::filesystem::path p( filePath );
std::string exportDirectory = p.parent_path().generic_string();
std::ofstream stream( filePath );
return exportToStream( stream, exportDirectory, model );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string> RifFaultReactivationModelExporter::printHeading( std::ostream& stream, const std::string& applicationNameAndVersion )
{
if ( RifInpExportTools::printHeading( stream, "Heading" ) &&
RifInpExportTools::printComment( stream, std::string( "Generated by: " ).append( applicationNameAndVersion ) ) &&
RifInpExportTools::printHeading( stream, "Preprint, echo=NO, model=NO, history=NO, contact=NO" ) )
{
return { true, "" };
}
return { false, "Failed to write header to fault reactivation INP." };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string> RifFaultReactivationModelExporter::printParts(
std::ostream& stream,
const RigFaultReactivationModel& model,
const std::map<RimFaultReactivation::GridPart, std::string>& partNames,
const std::vector<std::pair<RimFaultReactivation::BorderSurface, std::string>>& borders,
const std::map<std::pair<RimFaultReactivation::GridPart, RimFaultReactivation::BorderSurface>, int>& faces,
const std::map<RimFaultReactivation::Boundary, std::string>& boundaries,
const std::map<RimFaultReactivation::ElementSets, std::string>& materialNames )
{
RifInpExportTools::printSectionComment( stream, "PARTS" );
auto parts = model.allGridParts();
for ( const auto& part : parts )
{
auto partNameIt = partNames.find( part );
CAF_ASSERT( partNameIt != partNames.end() );
std::string partName = partNameIt->second;
RifInpExportTools::printHeading( stream, "Part, name=" + partName );
auto grid = model.grid( part );
const std::vector<cvf::Vec3d>& nodes = grid->nodes();
RifInpExportTools::printNodes( stream, nodes );
const std::vector<std::vector<unsigned int>>& elements = grid->elementIndices();
RifInpExportTools::printElements( stream, elements );
RifInpExportTools::printNodeSet( stream, "ALL", 1, nodes.size(), false );
RifInpExportTools::printElementSet( stream, "ALL", 1, elements.size() );
RifInpExportTools::printNodeSet( stream, "PORE_PRESSURE", 1, nodes.size(), true );
const std::map<RimFaultReactivation::BorderSurface, std::vector<unsigned int>>& borderSurfaceElements = grid->borderSurfaceElements();
for ( auto [boundary, boundaryName] : boundaries )
{
// Create boundary condition sets for each side of the parts (except top).
auto boundaryNodes = grid->boundaryNodes();
auto boundaryElements = grid->boundaryElements();
const std::vector<unsigned int>& nodes = boundaryNodes[boundary];
RifInpExportTools::printNodeSet( stream, boundaryName, false, nodes );
const std::vector<unsigned int>& elements = boundaryElements[boundary];
RifInpExportTools::printElementSet( stream, boundaryName, false, elements );
}
for ( auto [border, borderName] : borders )
{
auto elementIt = faces.find( { part, border } );
CAF_ASSERT( elementIt != faces.end() );
int elementSide = elementIt->second;
std::string sideName = "S" + std::to_string( elementSide );
auto surfaceElements = borderSurfaceElements.find( border );
if ( surfaceElements != borderSurfaceElements.end() )
{
std::string borderElementName = "_" + borderName + "_" + sideName;
RifInpExportTools::printElementSet( stream, borderElementName, true, surfaceElements->second );
RifInpExportTools::printSurface( stream, borderName, borderElementName, sideName );
}
}
std::map<RimFaultReactivation::ElementSets, std::vector<unsigned int>> elementSets = grid->elementSets();
for ( auto [setType, elements] : elementSets )
{
auto materialNameIt = materialNames.find( setType );
CAF_ASSERT( materialNameIt != materialNames.end() );
std::string materialName = materialNameIt->second;
std::string materialSetName = materialName;
if ( elements.empty() )
{
RifInpExportTools::printComment( stream, "Section: " + materialName + " (skipped: no elements)" );
}
else
{
RifInpExportTools::printComment( stream, "Section: " + materialName );
RifInpExportTools::printElementSet( stream, materialSetName, true, elements );
RifInpExportTools::printHeading( stream, "Solid Section, elset=" + materialSetName + ", material=" + materialName );
}
}
RifInpExportTools::printLine( stream, "," );
RifInpExportTools::printHeading( stream, "End Part" );
if ( !stream.good() ) return { false, "Failed to write part " + partName + " to fault reactivation INP." };
}
return { true, "" };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string>
RifFaultReactivationModelExporter::printAssembly( std::ostream& stream,
const RigFaultReactivationModel& model,
const std::map<RimFaultReactivation::GridPart, std::string>& partNames,
const std::pair<cvf::Vec3d, cvf::Vec3d>& transform )
{
// ASSEMBLY part
RifInpExportTools::printSectionComment( stream, "ASSEMBLY" );
RifInpExportTools::printHeading( stream, "Assembly, name=Assembly" );
auto parts = model.allGridParts();
for ( const auto& part : parts )
{
auto partNameIt = partNames.find( part );
CAF_ASSERT( partNameIt != partNames.end() );
std::string partName = partNameIt->second;
std::string instanceName = partName;
RifInpExportTools::printHeading( stream, "Instance, name=" + instanceName + ", part=" + partName );
RifInpExportTools::printHeading( stream, "End Instance" );
}
for ( const auto& part : parts )
{
auto partNameIt = partNames.find( part );
CAF_ASSERT( partNameIt != partNames.end() );
std::string partName = partNameIt->second;
RifInpExportTools::printHeading( stream, "Transform, nset=" + partName + ".ALL" );
auto [dir1, dir2] = transform;
RifInpExportTools::printNumbers( stream, { dir1.x(), dir1.y(), dir1.z(), dir2.x(), dir2.y(), dir2.z() } );
}
RifInpExportTools::printHeading( stream, "End Assembly" );
return { true, "" };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string>
RifFaultReactivationModelExporter::printMaterials( std::ostream& stream,
const RimFaultReactivationModel& rimModel,
const std::map<RimFaultReactivation::ElementSets, std::string>& materialNames,
const RimFaultReactivationDataAccess& dataAccess,
const std::string& exportDirectory,
const std::map<RimFaultReactivation::GridPart, std::string>& partNames,
bool densityFromGrid,
bool elasticPropertiesFromGrid )
{
// MATERIALS PART
struct Material
{
std::string name;
double density;
double youngsModulus;
double poissonNumber;
double permeability1;
double permeability2;
};
RifInpExportTools::printSectionComment( stream, "MATERIALS" );
std::vector<Material> materials;
for ( auto [element, materialName] : materialNames )
{
std::array<double, 3> parameters = rimModel.materialParameters( element );
// Incoming unit for Young's Modulus is GPa: convert to Pa.
double youngsModulus = RiaEclipseUnitTools::gigaPascalToPascal( parameters[0] );
// Poisson Number has no unit.
double poissonNumber = parameters[1];
// Unit is already kg/m^3
double density = parameters[2];
materials.push_back( Material{ .name = materialName,
.density = density,
.youngsModulus = youngsModulus,
.poissonNumber = poissonNumber,
.permeability1 = 1e-09,
.permeability2 = 0.3 } );
}
for ( Material mat : materials )
{
RifInpExportTools::printHeading( stream, "Material, name=" + mat.name );
RifInpExportTools::printHeading( stream, "Density" );
if ( densityFromGrid )
{
RifInpExportTools::printLine( stream, "DENSITY" );
}
else
{
RifInpExportTools::printNumber( stream, mat.density );
}
RifInpExportTools::printHeading( stream, "Elastic" );
if ( elasticPropertiesFromGrid )
{
RifInpExportTools::printLine( stream, "ELASTICS" );
}
else
{
RifInpExportTools::printNumbers( stream, { mat.youngsModulus, mat.poissonNumber } );
}
RifInpExportTools::printHeading( stream, "Permeability, specific=1." );
RifInpExportTools::printNumbers( stream, { mat.permeability1, mat.permeability2 } );
}
if ( densityFromGrid )
{
// Export the density to a separate inp file
std::string tableName = "DENSITY";
std::string fileName = tableName + ".inp";
std::string filePath = createFilePath( exportDirectory, fileName );
auto model = rimModel.model();
bool isOk = writePropertiesToFile( *model,
dataAccess,
{ RimFaultReactivation::Property::Density },
{ "DENSITY" },
0,
filePath,
partNames,
tableName,
", 1." );
if ( !isOk ) return { false, "Failed to create density file." };
RifInpExportTools::printHeading( stream, "INCLUDE, input=" + fileName );
}
if ( elasticPropertiesFromGrid )
{
// Export the elastic properties to a separate inp file
std::string tableName = "ELASTICS";
std::string fileName = tableName + ".inp";
std::string filePath = createFilePath( exportDirectory, fileName );
auto model = rimModel.model();
bool isOk = writePropertiesToFile( *model,
dataAccess,
{ RimFaultReactivation::Property::YoungsModulus, RimFaultReactivation::Property::PoissonsRatio },
{ "MODULUS", "RATIO" },
0,
filePath,
partNames,
tableName,
", 2." );
if ( !isOk ) return { false, "Failed to create elastic properties file." };
RifInpExportTools::printHeading( stream, "INCLUDE, input=" + fileName );
}
return { true, "" };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string> RifFaultReactivationModelExporter::printInteractionProperties( std::ostream& stream, double faultFriction )
{
RifInpExportTools::printSectionComment( stream, "INTERACTION PROPERTIES" );
// Fault interaction
RifInpExportTools::printHeading( stream, "Surface Interaction, name=FAULT" );
RifInpExportTools::printNumber( stream, 1.0 );
RifInpExportTools::printHeading( stream, "Friction, slip tolerance=0.005" );
RifInpExportTools::printNumber( stream, faultFriction );
RifInpExportTools::printHeading( stream, "Surface Behavior, no separation, pressure-overclosure=HARD" );
// Non-fault interaction
RifInpExportTools::printHeading( stream, "Surface Interaction, name=NON-FAULT" );
RifInpExportTools::printNumber( stream, 1.0 );
RifInpExportTools::printHeading( stream, "Cohesive Behavior" );
return { true, "" };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string>
RifFaultReactivationModelExporter::printBoundaryConditions( std::ostream& stream,
const RigFaultReactivationModel& model,
const std::map<RimFaultReactivation::GridPart, std::string>& partNames,
const std::map<RimFaultReactivation::Boundary, std::string>& boundaries )
{
auto printBoundaryCondition = []( std::ostream& stream, const std::string& boundarySetName, const std::string& symmetryType )
{
RifInpExportTools::printHeading( stream, "Boundary" );
RifInpExportTools::printLine( stream, boundarySetName + ", " + symmetryType );
};
std::map<RimFaultReactivation::Boundary, std::string> symmetryTypes = {
{ RimFaultReactivation::Boundary::Bottom, "ZSYMM" },
{ RimFaultReactivation::Boundary::FarSide, "XSYMM" },
};
RifInpExportTools::printSectionComment( stream, "BOUNDARY CONDITIONS" );
auto parts = model.allGridParts();
for ( const auto& part : parts )
{
auto partNameIt = partNames.find( part );
CAF_ASSERT( partNameIt != partNames.end() );
std::string partName = partNameIt->second;
for ( auto [boundary, boundaryName] : boundaries )
{
std::string boundarySetName = partName + "." + boundaryName;
std::string symmetryType = symmetryTypes[boundary];
printBoundaryCondition( stream, boundarySetName, symmetryType );
}
}
std::string partSymmetry = "YSYMM";
for ( const auto& part : parts )
{
auto partNameIt = partNames.find( part );
CAF_ASSERT( partNameIt != partNames.end() );
std::string partName = partNameIt->second;
printBoundaryCondition( stream, partName + ".ALL", partSymmetry );
}
return { true, "" };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string>
RifFaultReactivationModelExporter::printPredefinedFields( std::ostream& stream,
const RigFaultReactivationModel& model,
const RimFaultReactivationDataAccess& dataAccess,
const std::string& exportDirectory,
const std::map<RimFaultReactivation::GridPart, std::string>& partNames,
bool voidRatioFromEclipse,
bool stressFromGrid )
{
// PREDEFINED FIELDS
struct PredefinedField
{
std::string initialConditionType;
std::string partName;
double value;
};
std::vector<PredefinedField> fields;
for ( auto [part, partName] : partNames )
{
std::string name = partName + ".ALL";
if ( !voidRatioFromEclipse )
{
fields.push_back( PredefinedField{ .initialConditionType = "RATIO", .partName = name, .value = 0.3 } );
}
fields.push_back( PredefinedField{ .initialConditionType = "PORE PRESSURE", .partName = name, .value = 0.0 } );
}
RifInpExportTools::printSectionComment( stream, "PREDEFINED FIELDS" );
for ( auto field : fields )
{
RifInpExportTools::printHeading( stream, "Initial Conditions, TYPE=" + field.initialConditionType );
RifInpExportTools::printLine( stream, field.partName + ", " + std::to_string( field.value ) );
}
if ( voidRatioFromEclipse )
{
std::string ratioName = "RATIO";
// Export the ratio to a separate inp file for each step
std::string fileName = ratioName + ".inp";
std::string filePath = createFilePath( exportDirectory, fileName );
// Use void ratio from first time step
size_t timeStep = 0;
bool isOk = writePropertyToFile( model, dataAccess, RimFaultReactivation::Property::VoidRatio, timeStep, filePath, partNames, "" );
if ( !isOk ) return { false, "Failed to create " + ratioName + " file." };
RifInpExportTools::printHeading( stream, "Initial Conditions, TYPE=" + ratioName );
RifInpExportTools::printHeading( stream, "INCLUDE, input=" + fileName );
}
if ( stressFromGrid )
{
std::string stressName = "STRESS";
// Export the stress to a separate inp file
std::string fileName = stressName + ".inp";
std::string filePath = createFilePath( exportDirectory, fileName );
// Use stress from first time step
size_t timeStep = 0;
bool isOk = writePropertiesToFile( model,
dataAccess,
{ RimFaultReactivation::Property::StressTop,
RimFaultReactivation::Property::DepthTop,
RimFaultReactivation::Property::StressBottom,
RimFaultReactivation::Property::DepthBottom,
RimFaultReactivation::Property::LateralStressComponentX,
RimFaultReactivation::Property::LateralStressComponentY },
{},
timeStep,
filePath,
partNames,
"",
"" );
if ( !isOk ) return { false, "Failed to create " + stressName + " file." };
RifInpExportTools::printHeading( stream, "Initial Conditions, TYPE=" + stressName );
RifInpExportTools::printHeading( stream, "INCLUDE, input=" + fileName );
}
return { true, "" };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string> RifFaultReactivationModelExporter::printSteps( std::ostream& stream,
const RigFaultReactivationModel& model,
const RimFaultReactivationDataAccess& dataAccess,
const std::map<RimFaultReactivation::GridPart, std::string>& partNames,
const std::vector<QDateTime>& timeSteps,
const std::string& exportDirectory,
bool useGridPorePressure,
bool useGridTemperature )
{
// First time step has to be selected in order to export currently
if ( timeSteps.size() < 2 ) return { false, "Failed to export fault reactivation INP: needs at least two time steps." };
for ( int i = 0; i < static_cast<int>( timeSteps.size() ); i++ )
{
std::string stepNum = std::to_string( i + 1 );
std::string stepName = timeSteps[i].toString( "yyyy-MM-dd" ).toStdString();
RifInpExportTools::printComment( stream, "----------------------------------------------------------------" );
RifInpExportTools::printSectionComment( stream, "STEP: " + stepName );
RifInpExportTools::printHeading( stream, "Step, name=" + stepName + ", nlgeom=NO" );
std::string stepType = i == 0 ? "Geostatic, utol" : "Soils, utol=1.0";
RifInpExportTools::printHeading( stream, stepType );
RifInpExportTools::printNumbers( stream, { 1.0, 1.0, 1e-05, 1.0 } );
if ( useGridPorePressure )
{
RifInpExportTools::printSectionComment( stream, "BOUNDARY CONDITIONS" );
// Export the pore pressure to a separate inp file for each step
std::string fileName = createFileName( "PORE_PRESSURE", stepName );
std::string filePath = createFilePath( exportDirectory, fileName );
bool isOk =
writePropertyToFile( model, dataAccess, RimFaultReactivation::Property::PorePressure, i, filePath, partNames, "8, 8, " );
if ( !isOk ) return { false, "Failed to create pore pressure file." };
RifInpExportTools::printHeading( stream, "Boundary, type=displacement" );
RifInpExportTools::printHeading( stream, "INCLUDE, input=" + fileName );
}
if ( useGridTemperature )
{
RifInpExportTools::printSectionComment( stream, "TEMPERATURE" );
// Export the temperature to a separate inp file for each step
std::string fileName = createFileName( "TEMPERATURE", stepName );
std::string filePath = createFilePath( exportDirectory, fileName );
bool isOk = writePropertyToFile( model, dataAccess, RimFaultReactivation::Property::Temperature, i, filePath, partNames, "" );
if ( !isOk ) return { false, "Failed to create temperature file." };
RifInpExportTools::printHeading( stream, "Temperature" );
RifInpExportTools::printHeading( stream, "INCLUDE, input=" + fileName );
}
RifInpExportTools::printSectionComment( stream, "OUTPUT REQUESTS" );
RifInpExportTools::printHeading( stream, "Restart, write, frequency=0" );
RifInpExportTools::printSectionComment( stream, "FIELD OUTPUT: F-Output-" + stepNum );
RifInpExportTools::printHeading( stream, "Output, field, variable=PRESELECT" );
RifInpExportTools::printSectionComment( stream, "HISTORY OUTPUT: H-Output-" + stepNum );
RifInpExportTools::printHeading( stream, "Output, history, variable=PRESELECT" );
RifInpExportTools::printHeading( stream, "End Step" );
}
return { true, "" };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
bool RifFaultReactivationModelExporter::writePropertyToFile( const RigFaultReactivationModel& model,
const RimFaultReactivationDataAccess& dataAccess,
RimFaultReactivation::Property property,
size_t outputTimeStep,
const std::string& filePath,
const std::map<RimFaultReactivation::GridPart, std::string>& partNames,
const std::string& additionalData )
{
std::ofstream stream( filePath );
if ( !stream.good() ) return false;
for ( auto [part, partName] : partNames )
{
auto grid = model.grid( part );
const std::vector<cvf::Vec3d>& nodes = grid->globalNodes();
const std::vector<double> values = dataAccess.propertyValues( part, property, outputTimeStep );
if ( values.size() != nodes.size() ) return false;
for ( size_t i = 0; i < nodes.size(); i++ )
{
std::string line = partName + ".ALL." + std::to_string( i + 1 ) + ", " + additionalData + std::to_string( values[i] );
RifInpExportTools::printLine( stream, line );
}
}
return true;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
bool RifFaultReactivationModelExporter::writePropertiesToFile( const RigFaultReactivationModel& model,
const RimFaultReactivationDataAccess& dataAccess,
const std::vector<RimFaultReactivation::Property>& properties,
const std::vector<std::string>& propertyNames,
size_t outputTimeStep,
const std::string& filePath,
const std::map<RimFaultReactivation::GridPart, std::string>& partNames,
const std::string& tableName,
const std::string& heading )
{
std::ofstream stream( filePath );
if ( !stream.good() ) return false;
bool includeHeader = !propertyNames.empty();
if ( includeHeader )
{
RifInpExportTools::printHeading( stream, "Distribution Table, name=" + tableName + "_Table" );
std::string propertyNamesLine;
for ( size_t i = 0; i < propertyNames.size(); i++ )
{
propertyNamesLine += propertyNames[i];
if ( i != propertyNames.size() - 1 ) propertyNamesLine += ", ";
}
RifInpExportTools::printLine( stream, propertyNamesLine );
RifInpExportTools::printHeading( stream, "Distribution, name=" + tableName + ", location=ELEMENT, Table=" + tableName + "_Table" );
RifInpExportTools::printLine( stream, heading );
}
for ( auto [part, partName] : partNames )
{
auto grid = model.grid( part );
const std::vector<std::vector<unsigned int>>& elementIndices = grid->elementIndices();
for ( size_t i = 0; i < elementIndices.size(); i++ )
{
std::string line = partName + ".ALL." + std::to_string( i + 1 );
for ( auto property : properties )
{
const std::vector<double> values = dataAccess.propertyValues( part, property, outputTimeStep );
if ( values.size() != elementIndices.size() ) return false;
line += ", " + std::to_string( values[i] );
}
RifInpExportTools::printLine( stream, line );
}
}
return true;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::pair<bool, std::string>
RifFaultReactivationModelExporter::printInteractions( std::ostream& stream,
const std::map<RimFaultReactivation::GridPart, std::string>& partNames,
const std::vector<std::pair<RimFaultReactivation::BorderSurface, std::string>>& borders )
{
RifInpExportTools::printSectionComment( stream, "INTERACTIONS" );
for ( const auto& [border, borderName] : borders )
{
RifInpExportTools::printComment( stream, "Interaction: " + borderName );
std::string interactionName = "NON-FAULT";
std::string extra;
if ( border == RimFaultReactivation::BorderSurface::FaultSurface )
{
interactionName = "FAULT";
extra = ", adjust=0.0";
}
RifInpExportTools::printHeading( stream,
"Contact Pair, interaction=" + interactionName + ", small sliding, type=SURFACE TO SURFACE" + extra );
std::string part1Name = partNames.find( RimFaultReactivation::GridPart::FW )->second;
std::string part2Name = partNames.find( RimFaultReactivation::GridPart::HW )->second;
RifInpExportTools::printLine( stream, part1Name + "." + borderName + ", " + part2Name + "." + borderName );
}
return { true, "" };
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::string RifFaultReactivationModelExporter::createFileName( const std::string& title, const std::string& stepName )
{
return QString( "%1_%2.inp" ).arg( QString::fromStdString( title ) ).arg( QString::fromStdString( stepName ) ).toStdString();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::string RifFaultReactivationModelExporter::createFilePath( const std::string& dir, const std::string& fileName )
{
return dir + "/" + fileName;
};
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