///////////////////////////////////////////////////////////////////////////////// // // Copyright (C) 2015- Statoil ASA // Copyright (C) 2015- Ceetron Solutions 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 // for more details. // ///////////////////////////////////////////////////////////////////////////////// #include "RimWellLogExtractionCurve.h" #include "RiaApplication.h" #include "RigCaseCellResultsData.h" #include "RigEclipseCaseData.h" #include "RigEclipseWellLogExtractor.h" #include "RigFemPartResultsCollection.h" #include "RigGeoMechCaseData.h" #include "RigGeoMechWellLogExtractor.h" #include "RigResultAccessorFactory.h" #include "RigSimulationWellCenterLineCalculator.h" #include "RigSimulationWellCoordsAndMD.h" #include "RigSingleWellResultsData.h" #include "RigWellLogCurveData.h" #include "RigWellPath.h" #include "RimEclipseCase.h" #include "RimEclipseCellColors.h" #include "RimEclipseResultDefinition.h" #include "RimEclipseView.h" #include "RimGeoMechCase.h" #include "RimGeoMechResultDefinition.h" #include "RimGeoMechView.h" #include "RimMainPlotCollection.h" #include "RimOilField.h" #include "RimProject.h" #include "RimTools.h" #include "RimWellLogCurve.h" #include "RimWellLogPlot.h" #include "RimWellLogPlotCollection.h" #include "RimWellLogTrack.h" #include "RimWellPath.h" #include "RimWellPathCollection.h" #include "RiuLineSegmentQwtPlotCurve.h" #include "RiuWellLogTrack.h" #include "cafPdmUiTreeOrdering.h" #include "cafUtils.h" #include //================================================================================================== /// /// //================================================================================================== CAF_PDM_SOURCE_INIT(RimWellLogExtractionCurve, "RimWellLogExtractionCurve"); namespace caf { template<> void AppEnum< RimWellLogExtractionCurve::TrajectoryType >::setUp() { addItem(RimWellLogExtractionCurve::WELL_PATH, "WELL_PATH", "Well Path"); addItem(RimWellLogExtractionCurve::SIMULATION_WELL, "SIMULATION_WELL", "Simulation Well"); setDefault(RimWellLogExtractionCurve::WELL_PATH); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimWellLogExtractionCurve::RimWellLogExtractionCurve() { CAF_PDM_InitObject("Well Log Curve", "", "", ""); CAF_PDM_InitFieldNoDefault(&m_trajectoryType, "TrajectoryType", "Trajectory", "", "", ""); CAF_PDM_InitFieldNoDefault(&m_wellPath, "CurveWellPath", " ", "", "", ""); m_wellPath.uiCapability()->setUiTreeChildrenHidden(true); CAF_PDM_InitField(&m_simWellName, "SimulationWellName", QString("None"), " ", "", "", ""); CAF_PDM_InitField(&m_branchIndex, "Branch", 0, " ", "", "", ""); CAF_PDM_InitFieldNoDefault(&m_case, "CurveCase", "Case", "", "", ""); m_case.uiCapability()->setUiTreeChildrenHidden(true); CAF_PDM_InitFieldNoDefault(&m_eclipseResultDefinition, "CurveEclipseResult", "", "", "", ""); m_eclipseResultDefinition.uiCapability()->setUiHidden(true); m_eclipseResultDefinition.uiCapability()->setUiTreeChildrenHidden(true); m_eclipseResultDefinition = new RimEclipseResultDefinition; m_eclipseResultDefinition->findField("MResultType")->uiCapability()->setUiName("Result Type"); CAF_PDM_InitFieldNoDefault(&m_geomResultDefinition, "CurveGeomechResult", "", "", "", ""); m_geomResultDefinition.uiCapability()->setUiHidden(true); m_geomResultDefinition.uiCapability()->setUiTreeChildrenHidden(true); m_geomResultDefinition = new RimGeoMechResultDefinition; CAF_PDM_InitField(&m_timeStep, "CurveTimeStep", 0,"Time Step", "", "", ""); // Add some space before name to indicate these belong to the Auto Name field CAF_PDM_InitField(&m_addCaseNameToCurveName, "AddCaseNameToCurveName", true, " Case Name", "", "", ""); CAF_PDM_InitField(&m_addPropertyToCurveName, "AddPropertyToCurveName", true, " Property", "", "", ""); CAF_PDM_InitField(&m_addWellNameToCurveName, "AddWellNameToCurveName", true, " Well Name", "", "", ""); CAF_PDM_InitField(&m_addTimestepToCurveName, "AddTimestepToCurveName", false, " Timestep", "", "", ""); CAF_PDM_InitField(&m_addDateToCurveName, "AddDateToCurveName", true, " Date", "", "", ""); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimWellLogExtractionCurve::~RimWellLogExtractionCurve() { clearGeneratedSimWellPaths(); delete m_geomResultDefinition; delete m_eclipseResultDefinition; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::setWellPath(RimWellPath* wellPath) { m_wellPath = wellPath; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimWellPath* RimWellLogExtractionCurve::wellPath() const { return m_wellPath; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::setFromSimulationWellName(const QString& simWellName, int branchIndex) { m_trajectoryType = SIMULATION_WELL; m_simWellName = simWellName; m_branchIndex = branchIndex; clearGeneratedSimWellPaths(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::setCase(RimCase* rimCase) { m_case = rimCase; clearGeneratedSimWellPaths(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimCase* RimWellLogExtractionCurve::rimCase() const { return m_case; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::setPropertiesFromView(RimView* view) { m_case = view ? view->ownerCase() : NULL; RimGeoMechCase* geomCase = dynamic_cast(m_case.value()); RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); m_eclipseResultDefinition->setEclipseCase(eclipseCase); m_geomResultDefinition->setGeoMechCase(geomCase); RimEclipseView* eclipseView = dynamic_cast(view); if (eclipseView) { m_eclipseResultDefinition->simpleCopy(eclipseView->cellResult()); m_timeStep = eclipseView->currentTimeStep(); } RimGeoMechView* geoMechView = dynamic_cast(view); if (geoMechView) { m_geomResultDefinition->setResultAddress(geoMechView->cellResultResultDefinition()->resultAddress()); m_timeStep = geoMechView->currentTimeStep(); } clearGeneratedSimWellPaths(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::clampTimestep() { if (m_case) { if (m_timeStep > m_case->timeStepStrings().size() - 1) { m_timeStep = m_case->timeStepStrings().size() - 1; } } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::clampBranchIndex() { int branchCount = static_cast(m_generatedSimulationWellPathBranches.size()); if ( branchCount > 0 ) { if ( m_branchIndex >= branchCount ) m_branchIndex = branchCount - 1; else if ( m_branchIndex < 0 ) m_branchIndex = 0; } else { m_branchIndex = -1; } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::fieldChangedByUi(const caf::PdmFieldHandle* changedField, const QVariant& oldValue, const QVariant& newValue) { RimWellLogCurve::fieldChangedByUi(changedField, oldValue, newValue); if (changedField == &m_case) { clampTimestep(); auto wellNameSet = findSortedWellNames(); if (!wellNameSet.count(m_simWellName())) m_simWellName = "None"; clearGeneratedSimWellPaths(); this->loadDataAndUpdate(true); } else if (changedField == &m_wellPath) { this->loadDataAndUpdate(true); } else if (changedField == &m_simWellName) { clearGeneratedSimWellPaths(); this->loadDataAndUpdate(true); } else if (changedField == &m_trajectoryType || changedField == &m_branchIndex) { this->loadDataAndUpdate(true); } else if (changedField == &m_timeStep) { this->loadDataAndUpdate(true); } if (changedField == &m_addCaseNameToCurveName || changedField == &m_addPropertyToCurveName || changedField == &m_addWellNameToCurveName || changedField == &m_addTimestepToCurveName || changedField == &m_addDateToCurveName) { this->uiCapability()->updateConnectedEditors(); updateCurveNameAndUpdatePlotLegend(); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::onLoadDataAndUpdate(bool updateParentPlot) { RimWellLogCurve::updateCurvePresentation(); if (isCurveVisible()) { // Make sure we have set correct case data into the result definitions. RimGeoMechCase* geomCase = dynamic_cast(m_case.value()); RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); m_eclipseResultDefinition->setEclipseCase(eclipseCase); m_geomResultDefinition->setGeoMechCase(geomCase); updateGeneratedSimulationWellpath(); clampBranchIndex(); RimMainPlotCollection* mainPlotCollection; this->firstAncestorOrThisOfTypeAsserted(mainPlotCollection); RimWellLogPlotCollection* wellLogCollection = mainPlotCollection->wellLogPlotCollection(); cvf::ref eclExtractor; if ( m_trajectoryType == WELL_PATH ) { eclExtractor = wellLogCollection->findOrCreateExtractor(m_wellPath, eclipseCase); } else { if (m_branchIndex >= 0 && m_branchIndex < static_cast(m_generatedSimulationWellPathBranches.size()) ) { eclExtractor = wellLogCollection->findOrCreateSimWellExtractor(m_simWellName, eclipseCase->caseUserDescription(), m_generatedSimulationWellPathBranches[m_branchIndex].p(), eclipseCase->eclipseCaseData()); } } cvf::ref geomExtractor = wellLogCollection->findOrCreateExtractor(m_wellPath, geomCase); std::vector values; std::vector measuredDepthValues; std::vector tvDepthValues; RiaDefines::DepthUnitType depthUnit = RiaDefines::UNIT_METER; if (eclExtractor.notNull()) { measuredDepthValues = eclExtractor->measuredDepth(); tvDepthValues = eclExtractor->trueVerticalDepth(); m_eclipseResultDefinition->loadResult(); cvf::ref resAcc = RigResultAccessorFactory::createFromResultDefinition(eclipseCase->eclipseCaseData(), 0, m_timeStep, m_eclipseResultDefinition); if (resAcc.notNull()) { eclExtractor->curveData(resAcc.p(), &values); } RiaEclipseUnitTools::UnitSystem eclipseUnitsType = eclipseCase->eclipseCaseData()->unitsType(); if (eclipseUnitsType == RiaEclipseUnitTools::UNITS_FIELD) { // See https://github.com/OPM/ResInsight/issues/538 depthUnit = RiaDefines::UNIT_FEET; } } else if (geomExtractor.notNull()) // geomExtractor { measuredDepthValues = geomExtractor->measuredDepth(); tvDepthValues = geomExtractor->trueVerticalDepth(); m_geomResultDefinition->loadResult(); geomExtractor->curveData(m_geomResultDefinition->resultAddress(), m_timeStep, &values); } m_curveData = new RigWellLogCurveData; if (values.size() && measuredDepthValues.size()) { if (!tvDepthValues.size()) { m_curveData->setValuesAndMD(values, measuredDepthValues, depthUnit, true); } else { m_curveData->setValuesWithTVD(values, measuredDepthValues, tvDepthValues, depthUnit, true); } } RiaDefines::DepthUnitType displayUnit = RiaDefines::UNIT_METER; RimWellLogPlot* wellLogPlot; firstAncestorOrThisOfType(wellLogPlot); CVF_ASSERT(wellLogPlot); if (!wellLogPlot) return; displayUnit = wellLogPlot->depthUnit(); if(wellLogPlot->depthType() == RimWellLogPlot::TRUE_VERTICAL_DEPTH) { m_qwtPlotCurve->setSamples(m_curveData->xPlotValues().data(), m_curveData->trueDepthPlotValues(displayUnit).data(), static_cast(m_curveData->xPlotValues().size())); } else if (wellLogPlot->depthType() == RimWellLogPlot::MEASURED_DEPTH) { m_qwtPlotCurve->setSamples(m_curveData->xPlotValues().data(), m_curveData->measuredDepthPlotValues(displayUnit).data(), static_cast(m_curveData->xPlotValues().size())); } m_qwtPlotCurve->setLineSegmentStartStopIndices(m_curveData->polylineStartStopIndices()); updateZoomInParentPlot(); setLogScaleFromSelectedResult(); if (m_parentQwtPlot) m_parentQwtPlot->replot(); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- std::set RimWellLogExtractionCurve::findSortedWellNames() { std::set sortedWellNames; RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); if ( eclipseCase && eclipseCase->eclipseCaseData() ) { const cvf::Collection& wellRes = eclipseCase->eclipseCaseData()->wellResults(); for ( size_t wIdx = 0; wIdx < wellRes.size(); ++wIdx ) { sortedWellNames.insert(wellRes[wIdx]->m_wellName); } } return sortedWellNames; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::updateGeneratedSimulationWellpath() { if (m_generatedSimulationWellPathBranches.size()) return; // Already created. Nothing to do RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); if (!(!m_simWellName().isEmpty() && m_simWellName() != "None" && eclipseCase && eclipseCase->eclipseCaseData())) { return ; } RigEclipseCaseData* eclCaseData = eclipseCase->eclipseCaseData(); const RigSingleWellResultsData* wellResults = eclCaseData->findWellResult(m_simWellName()); if (!wellResults) return; std::vector< std::vector > pipeBranchesCLCoords; std::vector< std::vector > pipeBranchesCellIds; RigSimulationWellCenterLineCalculator::calculateWellPipeCenterlineFromWellFrame(eclCaseData, wellResults, -1, true, true, pipeBranchesCLCoords, pipeBranchesCellIds); for ( size_t brIdx = 0; brIdx < pipeBranchesCLCoords.size(); ++brIdx ) { auto wellMdCalculator = RigSimulationWellCoordsAndMD(pipeBranchesCLCoords[brIdx]); // Todo, branch index cvf::ref newWellPath = new RigWellPath(); newWellPath->m_measuredDepths = wellMdCalculator.measuredDepths(); newWellPath->m_wellPathPoints = wellMdCalculator.wellPathPoints(); m_generatedSimulationWellPathBranches.push_back(newWellPath.p() ); } } //-------------------------------------------------------------------------------------------------- /// Clean up existing generated well paths //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::clearGeneratedSimWellPaths() { RimWellLogPlotCollection* wellLogCollection = nullptr; // Need to use this approach, and not firstAnchestor because the curve might not be inside the hierarchy when deleted. RimProject * proj = RiaApplication::instance()->project(); if (proj && proj->mainPlotCollection() ) wellLogCollection = proj->mainPlotCollection()->wellLogPlotCollection(); if (!wellLogCollection) return; for ( size_t wpIdx = 0; wpIdx < m_generatedSimulationWellPathBranches.size(); ++wpIdx ) { wellLogCollection->removeExtractors(m_generatedSimulationWellPathBranches[wpIdx].p()); } m_generatedSimulationWellPathBranches.clear(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QList RimWellLogExtractionCurve::calculateValueOptions(const caf::PdmFieldHandle* fieldNeedingOptions, bool * useOptionsOnly) { QList options; options = RimWellLogCurve::calculateValueOptions(fieldNeedingOptions, useOptionsOnly); if (options.size() > 0) return options; if (fieldNeedingOptions == &m_wellPath) { RimTools::wellPathOptionItems(&options); options.push_front(caf::PdmOptionItemInfo("None", nullptr)); } else if (fieldNeedingOptions == &m_case) { RimTools::caseOptionItems(&options); options.push_front(caf::PdmOptionItemInfo("None", nullptr)); } else if (fieldNeedingOptions == &m_timeStep) { QStringList timeStepNames; if (m_case) { timeStepNames = m_case->timeStepStrings(); } for (int i = 0; i < timeStepNames.size(); i++) { options.push_back(caf::PdmOptionItemInfo(timeStepNames[i], i)); } } else if (fieldNeedingOptions == &m_simWellName) { std::set sortedWellNames = this->findSortedWellNames(); QIcon simWellIcon(":/Well.png"); for ( const QString& wname: sortedWellNames ) { options.push_back(caf::PdmOptionItemInfo(wname, wname, false, simWellIcon)); } if ( options.size() == 0 ) { options.push_front(caf::PdmOptionItemInfo("None", "None")); } } else if (fieldNeedingOptions == &m_branchIndex) { updateGeneratedSimulationWellpath(); size_t branchCount = m_generatedSimulationWellPathBranches.size(); for ( int bIdx = 0; bIdx < static_cast(branchCount); ++bIdx) { options.push_back(caf::PdmOptionItemInfo("Branch " + QString::number(bIdx + 1), QVariant::fromValue(bIdx) )); } if (options.size() == 0) { options.push_front(caf::PdmOptionItemInfo("None", -1)); } } return options; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::defineUiOrdering(QString uiConfigName, caf::PdmUiOrdering& uiOrdering) { RimPlotCurve::updateOptionSensitivity(); caf::PdmUiGroup* curveDataGroup = uiOrdering.addNewGroup("Curve Data"); curveDataGroup->add(&m_case); RimGeoMechCase* geomCase = dynamic_cast(m_case.value()); RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); curveDataGroup->add(&m_trajectoryType); if (m_trajectoryType() == WELL_PATH) { curveDataGroup->add(&m_wellPath); } else { curveDataGroup->add(&m_simWellName); if ( m_generatedSimulationWellPathBranches.size() > 1 ) { curveDataGroup->add(&m_branchIndex); } } if (eclipseCase) { m_eclipseResultDefinition->uiOrdering(uiConfigName, *curveDataGroup); } else if (geomCase) { m_geomResultDefinition->uiOrdering(uiConfigName, *curveDataGroup); } if ( (eclipseCase && m_eclipseResultDefinition->hasDynamicResult()) || geomCase) { curveDataGroup->add(&m_timeStep); } caf::PdmUiGroup* appearanceGroup = uiOrdering.addNewGroup("Appearance"); RimPlotCurve::appearanceUiOrdering(*appearanceGroup); caf::PdmUiGroup* nameGroup = uiOrdering.addNewGroup("Curve Name"); nameGroup->setCollapsedByDefault(true); nameGroup->add(&m_showLegend); RimPlotCurve::curveNameUiOrdering(*nameGroup); if (m_isUsingAutoName) { nameGroup->add(&m_addWellNameToCurveName); nameGroup->add(&m_addCaseNameToCurveName); nameGroup->add(&m_addPropertyToCurveName); nameGroup->add(&m_addDateToCurveName); nameGroup->add(&m_addTimestepToCurveName); } uiOrdering.skipRemainingFields(true); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::initAfterRead() { RimWellLogCurve::initAfterRead(); RimGeoMechCase* geomCase = dynamic_cast(m_case.value()); RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); m_eclipseResultDefinition->setEclipseCase(eclipseCase); m_geomResultDefinition->setGeoMechCase(geomCase); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::defineUiTreeOrdering(caf::PdmUiTreeOrdering& uiTreeOrdering, QString uiConfigName /*= ""*/) { uiTreeOrdering.skipRemainingChildren(true); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::setLogScaleFromSelectedResult() { QString resVar = m_eclipseResultDefinition->resultVariable(); if (resVar.toUpper().contains("PERM")) { RimWellLogTrack* track = NULL; this->firstAncestorOrThisOfType(track); if (track) { if (track->curveCount() == 1) { track->setLogarithmicScale(true); } } } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimWellLogExtractionCurve::createCurveAutoName() { RimGeoMechCase* geomCase = dynamic_cast(m_case.value()); RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); QString generatedCurveName; if (m_addWellNameToCurveName ) { generatedCurveName += wellName(); if (m_trajectoryType == SIMULATION_WELL && m_generatedSimulationWellPathBranches.size() > 1) { generatedCurveName += " Br" + QString::number(m_branchIndex + 1); } } if (m_addCaseNameToCurveName && m_case()) { if (!generatedCurveName.isEmpty()) { generatedCurveName += ", "; } generatedCurveName += m_case->caseUserDescription(); } if (m_addPropertyToCurveName) { if (!generatedCurveName.isEmpty()) { generatedCurveName += ","; } generatedCurveName += wellLogChannelName(); } if (m_addTimestepToCurveName || m_addDateToCurveName) { size_t maxTimeStep = 0; if (eclipseCase) { if (eclipseCase->eclipseCaseData()) { maxTimeStep = eclipseCase->eclipseCaseData()->results(m_eclipseResultDefinition->porosityModel())->maxTimeStepCount(); } } else if (geomCase) { if (geomCase->geoMechData()) { maxTimeStep = geomCase->geoMechData()->femPartResults()->frameCount(); } } if (m_addDateToCurveName) { QString dateString = wellDate(); if (!dateString.isEmpty()) { if (!generatedCurveName.isEmpty()) { generatedCurveName += ", "; } generatedCurveName += dateString; } } if (m_addTimestepToCurveName) { if (!generatedCurveName.isEmpty()) { generatedCurveName += ", "; } generatedCurveName += QString("[%1/%2]").arg(m_timeStep()).arg(maxTimeStep); } } return generatedCurveName; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimWellLogExtractionCurve::wellLogChannelName() const { RimGeoMechCase* geoMechCase = dynamic_cast(m_case.value()); RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); QString name; if (eclipseCase) { name = caf::Utils::makeValidFileBasename( m_eclipseResultDefinition->resultVariableUiName()); } else if (geoMechCase) { QString resCompName = m_geomResultDefinition->resultComponentUiName(); if (resCompName.isEmpty()) { name = m_geomResultDefinition->resultFieldUiName(); } else { name = m_geomResultDefinition->resultFieldUiName() + "." + resCompName; } } return name; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimWellLogExtractionCurve::wellName() const { if ( m_trajectoryType() == WELL_PATH ) { if ( m_wellPath ) { return m_wellPath->name(); } else { return QString(); } } else { return m_simWellName; } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimWellLogExtractionCurve::wellDate() const { RimGeoMechCase* geomCase = dynamic_cast(m_case.value()); RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); QStringList timeStepNames; if (eclipseCase) { if (eclipseCase->eclipseCaseData()) { timeStepNames = eclipseCase->timeStepStrings(); } } else if (geomCase) { if (geomCase->geoMechData()) { timeStepNames = geomCase->timeStepStrings(); } } return (m_timeStep < timeStepNames.size()) ? timeStepNames[m_timeStep] : ""; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- bool RimWellLogExtractionCurve::isEclipseCurve() const { RimEclipseCase* eclipseCase = dynamic_cast(m_case.value()); if (eclipseCase) { return true; } return false; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimWellLogExtractionCurve::caseName() const { if (m_case) { return m_case->caseUserDescription(); } return QString(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- double RimWellLogExtractionCurve::rkbDiff() const { if (m_wellPath && m_wellPath->wellPathGeometry()) { RigWellPath* geo = m_wellPath->wellPathGeometry(); if (geo->hasDatumElevation()) { return geo->datumElevation(); } // If measured depth is zero, use the z-value of the well path points if (geo->m_wellPathPoints.size() > 0 && geo->m_measuredDepths.size() > 0) { double epsilon = 1e-3; if (cvf::Math::abs(geo->m_measuredDepths[0]) < epsilon) { double diff = geo->m_measuredDepths[0] - (-geo->m_wellPathPoints[0].z()); return diff; } } } return HUGE_VAL; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- int RimWellLogExtractionCurve::currentTimeStep() const { return m_timeStep(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::setCurrentTimeStep(int timeStep) { m_timeStep = timeStep; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellLogExtractionCurve::setEclipseResultDefinition(const RimEclipseResultDefinition* def) { m_eclipseResultDefinition->simpleCopy(def); }