///////////////////////////////////////////////////////////////////////////////// // // Copyright (C) 2020- 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 // for more details. // ///////////////////////////////////////////////////////////////////////////////// #include "RimElasticPropertiesCurve.h" #include "RigEclipseCaseData.h" #include "RigEclipseWellLogExtractor.h" #include "RigElasticProperties.h" #include "RigResultAccessorFactory.h" #include "RigWellLogCurveData.h" #include "RigWellPath.h" #include "RimCase.h" #include "RimColorLegend.h" #include "RimColorLegendCollection.h" #include "RimColorLegendItem.h" #include "RimEclipseCase.h" #include "RimEclipseResultDefinition.h" #include "RimElasticProperties.h" #include "RimFractureModel.h" #include "RimFractureModelPlot.h" #include "RimModeledWellPath.h" #include "RimProject.h" #include "RimTools.h" #include "RimWellLogFile.h" #include "RimWellLogPlot.h" #include "RimWellLogTrack.h" #include "RimWellPath.h" #include "RimWellPathCollection.h" #include "RimWellPlotTools.h" #include "RiuQwtPlotCurve.h" #include "RiuQwtPlotWidget.h" #include "RiaApplication.h" #include "RiaLogging.h" #include "RiaPreferences.h" #include "cafPdmUiTreeOrdering.h" #include #include CAF_PDM_SOURCE_INIT( RimElasticPropertiesCurve, "ElasticPropertiesCurve" ); namespace caf { template <> void AppEnum::setUp() { addItem( RimElasticPropertiesCurve::PropertyType::YOUNGS_MODULUS, "YOUNGS_MODULUS", "Young's Modulus" ); addItem( RimElasticPropertiesCurve::PropertyType::POISSONS_RATIO, "POISSONS_RATIO", "Poisson's Ratio" ); addItem( RimElasticPropertiesCurve::PropertyType::K_IC, "K_IC", "K-Ic" ); addItem( RimElasticPropertiesCurve::PropertyType::PROPPANT_EMBEDMENT, "PROPPANT_EMBEDMENT", "Proppant Embedment" ); setDefault( RimElasticPropertiesCurve::PropertyType::YOUNGS_MODULUS ); } }; // namespace caf //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimElasticPropertiesCurve::RimElasticPropertiesCurve() { CAF_PDM_InitObject( "Fracture Model Curve", "", "", "" ); CAF_PDM_InitFieldNoDefault( &m_fractureModel, "FractureModel", "Fracture Model", "", "", "" ); m_fractureModel.uiCapability()->setUiTreeChildrenHidden( true ); m_fractureModel.uiCapability()->setUiHidden( true ); CAF_PDM_InitFieldNoDefault( &m_propertyType, "PropertyType", "Property Type", "", "", "" ); m_wellPath = nullptr; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimElasticPropertiesCurve::~RimElasticPropertiesCurve() { } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimElasticPropertiesCurve::setFractureModel( RimFractureModel* fractureModel ) { m_fractureModel = fractureModel; m_wellPath = fractureModel->thicknessDirectionWellPath(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimElasticPropertiesCurve::setEclipseResultCategory( RiaDefines::ResultCatType catType ) { m_eclipseResultDefinition->setResultType( catType ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimElasticPropertiesCurve::setPropertyType( PropertyType propertyType ) { m_propertyType = propertyType; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimElasticPropertiesCurve::performDataExtraction( bool* isUsingPseudoLength ) { std::vector values; std::vector measuredDepthValues; std::vector tvDepthValues; double rkbDiff = 0.0; RiaDefines::DepthUnitType depthUnit = RiaDefines::DepthUnitType::UNIT_METER; QString xUnits = RiaWellLogUnitTools::noUnitString(); *isUsingPseudoLength = false; RimEclipseCase* eclipseCase = dynamic_cast( m_case.value() ); if ( eclipseCase ) { RigEclipseWellLogExtractor eclExtractor( eclipseCase->eclipseCaseData(), m_fractureModel->thicknessDirectionWellPath()->wellPathGeometry(), "fracture model" ); measuredDepthValues = eclExtractor.cellIntersectionMDs(); tvDepthValues = eclExtractor.cellIntersectionTVDs(); rkbDiff = eclExtractor.wellPathData()->rkbDiff(); // Extract formation data cvf::ref formationResultAccessor = RigResultAccessorFactory:: createFromResultAddress( eclipseCase->eclipseCaseData(), 0, RiaDefines::PorosityModelType::MATRIX_MODEL, 0, RigEclipseResultAddress( RiaDefines::ResultCatType::FORMATION_NAMES, RiaDefines::activeFormationNamesResultName() ) ); if ( !formationResultAccessor.notNull() ) { RiaLogging::error( QString( "No formation result found." ) ); return; } CurveSamplingPointData curveData = RimWellLogTrack::curveSamplingPointData( &eclExtractor, formationResultAccessor.p() ); std::vector> yValues; std::vector formationNamesVector = RimWellLogTrack::formationNamesVector( eclipseCase ); std::vector formationNamesToPlot; RimWellLogTrack::findRegionNamesToPlot( curveData, formationNamesVector, RiaDefines::DepthTypeEnum::TRUE_VERTICAL_DEPTH, &formationNamesToPlot, &yValues ); // Extract facies data m_eclipseResultDefinition->setResultVariable( "OPERNUM_1" ); m_eclipseResultDefinition->setResultType( RiaDefines::ResultCatType::INPUT_PROPERTY ); m_eclipseResultDefinition->setEclipseCase( eclipseCase ); m_eclipseResultDefinition->loadResult(); cvf::ref faciesResultAccessor = RigResultAccessorFactory::createFromResultDefinition( eclipseCase->eclipseCaseData(), 0, m_timeStep, m_eclipseResultDefinition ); if ( !faciesResultAccessor.notNull() ) { RiaLogging::error( QString( "No facies result found." ) ); return; } std::vector faciesValues; eclExtractor.curveData( faciesResultAccessor.p(), &faciesValues ); // Extract porosity data: get the porosity values from parent RimFractureModelPlot* fractureModelPlot; firstAncestorOrThisOfType( fractureModelPlot ); if ( !fractureModelPlot ) { RiaLogging::error( QString( "No porosity data found when extracting elastic properties." ) ); return; } std::vector poroValues; fractureModelPlot->getPorosityValues( poroValues ); // TODO: make this settable?? QString colorLegendName = "Facies colors"; RimColorLegend* colorLegend = RimProject::current()->colorLegendCollection()->findByName( colorLegendName ); if ( !colorLegend ) { RiaLogging::error( QString( "No color legend found when extracting elastic properties. Looked for '%1'" ).arg( colorLegendName ) ); return; } RimElasticProperties* elasticProperties = m_fractureModel->elasticProperties(); if ( !elasticProperties ) { RiaLogging::error( QString( "No elastic properties found" ) ); return; } for ( size_t i = 0; i < tvDepthValues.size(); i++ ) { // TODO: get from somewhere?? QString fieldName = "Norne"; QString faciesName = findFaciesName( *colorLegend, faciesValues[i] ); QString formationName = findFormationNameForDepth( formationNamesToPlot, yValues, tvDepthValues[i] ); double porosity = poroValues[i]; FaciesKey faciesKey = std::make_tuple( fieldName, formationName, faciesName ); if ( elasticProperties->hasPropertiesForFacies( faciesKey ) ) { const RigElasticProperties& rigElasticProperties = elasticProperties->propertiesForFacies( faciesKey ); if ( m_propertyType() == PropertyType::YOUNGS_MODULUS ) { double val = rigElasticProperties.getYoungsModulus( porosity ); values.push_back( val ); } else if ( m_propertyType() == PropertyType::POISSONS_RATIO ) { double val = rigElasticProperties.getPoissonsRatio( porosity ); values.push_back( val ); } else if ( m_propertyType() == PropertyType::K_IC ) { double val = rigElasticProperties.getK_Ic( porosity ); values.push_back( val ); } else if ( m_propertyType() == PropertyType::PROPPANT_EMBEDMENT ) { double val = rigElasticProperties.getProppantEmbedment( porosity ); values.push_back( val ); } } else { RiaLogging::error( QString( "Missing elastic properties. Field='%1', formation='%2', facies='%3'" ) .arg( fieldName ) .arg( formationName ) .arg( faciesName ) ); return; } } RiaEclipseUnitTools::UnitSystem eclipseUnitsType = eclipseCase->eclipseCaseData()->unitsType(); if ( eclipseUnitsType == RiaEclipseUnitTools::UnitSystem::UNITS_FIELD ) { // See https://github.com/OPM/ResInsight/issues/538 depthUnit = RiaDefines::DepthUnitType::UNIT_FEET; } } bool performDataSmoothing = false; if ( !values.empty() && !measuredDepthValues.empty() ) { if ( tvDepthValues.empty() ) { this->setValuesAndDepths( values, measuredDepthValues, RiaDefines::DepthTypeEnum::MEASURED_DEPTH, 0.0, depthUnit, !performDataSmoothing, xUnits ); } else { this->setValuesWithMdAndTVD( values, measuredDepthValues, tvDepthValues, rkbDiff, depthUnit, !performDataSmoothing, xUnits ); } } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimElasticPropertiesCurve::findFaciesName( const RimColorLegend& colorLegend, double value ) { for ( auto item : colorLegend.colorLegendItems() ) { if ( item->categoryValue() == static_cast( value ) ) return item->categoryName(); } return "not found"; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimElasticPropertiesCurve::findFormationNameForDepth( const std::vector& formationNames, const std::vector>& depthRanges, double depth ) { // assert(formationNames.size() == depthRanges.size()); for ( size_t i = 0; i < formationNames.size(); i++ ) { double high = depthRanges[i].second; double low = depthRanges[i].first; if ( depth >= low && depth <= high ) { return formationNames[i]; } } return "not found"; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimElasticPropertiesCurve::createCurveAutoName() { return caf::AppEnum::uiText( m_propertyType() ); }