///////////////////////////////////////////////////////////////////////////////// // // Copyright (C) 2016-2018 Statoil ASA // Copyright (C) 2018- 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 "RimWellPathFracture.h" #include "RigWellPath.h" #include "RimEllipseFractureTemplate.h" #include "RimProject.h" #include "RimWellPath.h" #include "RimWellPathFractureCollection.h" #include "cafPdmUiDoubleSliderEditor.h" CAF_PDM_SOURCE_INIT( RimWellPathFracture, "WellPathFracture" ); //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimWellPathFracture::RimWellPathFracture( void ) { CAF_PDM_InitObject( "Fracture", ":/FractureSymbol16x16.png", "", "" ); CAF_PDM_InitField( &m_measuredDepth, "MeasuredDepth", 0.0f, "Measured Depth Location", "", "", "" ); m_measuredDepth.uiCapability()->setUiEditorTypeName( caf::PdmUiDoubleSliderEditor::uiEditorTypeName() ); setDeletable( true ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimWellPathFracture::~RimWellPathFracture() { } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- double RimWellPathFracture::fractureMD() const { return m_measuredDepth; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellPathFracture::setMeasuredDepth( double mdValue ) { m_measuredDepth = mdValue; updatePositionFromMeasuredDepth(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellPathFracture::fieldChangedByUi( const caf::PdmFieldHandle* changedField, const QVariant& oldValue, const QVariant& newValue ) { RimFracture::fieldChangedByUi( changedField, oldValue, newValue ); if ( changedField == &m_measuredDepth ) { updatePositionFromMeasuredDepth(); updateAzimuthBasedOnWellAzimuthAngle(); RimProject* proj = nullptr; this->firstAncestorOrThisOfType( proj ); if ( proj ) proj->reloadCompletionTypeResultsInAllViews(); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellPathFracture::updateAzimuthBasedOnWellAzimuthAngle() { if ( !fractureTemplate() ) return; if ( fractureTemplate()->orientationType() == RimFractureTemplate::ALONG_WELL_PATH || fractureTemplate()->orientationType() == RimFractureTemplate::TRANSVERSE_WELL_PATH ) { double wellPathAzimuth = wellAzimuthAtFracturePosition(); if ( fractureTemplate()->orientationType() == RimFractureTemplate::ALONG_WELL_PATH ) { m_azimuth = wellPathAzimuth; } if ( fractureTemplate()->orientationType() == RimFractureTemplate::TRANSVERSE_WELL_PATH ) { if ( wellPathAzimuth + 90 < 360 ) m_azimuth = wellPathAzimuth + 90; else m_azimuth = wellPathAzimuth - 90; } } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- double RimWellPathFracture::wellAzimuthAtFracturePosition() const { RimWellPath* wellPath = nullptr; this->firstAncestorOrThisOfType( wellPath ); if ( !wellPath ) return cvf::UNDEFINED_DOUBLE; double wellPathAzimuth = 0.0; RigWellPath* wellPathGeometry = wellPath->wellPathGeometry(); if ( wellPathGeometry ) { wellPathAzimuth = wellPathGeometry->wellPathAzimuthAngle( fracturePosition() ); } if ( wellPathAzimuth < 0 ) wellPathAzimuth += 360; return wellPathAzimuth; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellPathFracture::loadDataAndUpdate() { updatePositionFromMeasuredDepth(); updateAzimuthBasedOnWellAzimuthAngle(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- std::vector RimWellPathFracture::perforationLengthCenterLineCoords() const { std::vector wellPathCoords; RimWellPath* wellPath = nullptr; this->firstAncestorOrThisOfType( wellPath ); if ( wellPath && wellPath->wellPathGeometry() ) { double startMd = m_measuredDepth - perforationLength() / 2.0; double endMd = m_measuredDepth + perforationLength() / 2.0; auto coordsAndMd = wellPath->wellPathGeometry()->clippedPointSubset( startMd, endMd ); wellPathCoords = coordsAndMd.first; } return wellPathCoords; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- bool RimWellPathFracture::compareByWellPathNameAndMD( const RimWellPathFracture* lhs, const RimWellPathFracture* rhs ) { CVF_TIGHT_ASSERT( lhs && rhs ); RimWellPath* lhsWellPath = nullptr; lhs->firstAncestorOrThisOfType( lhsWellPath ); RimWellPath* rhsWellPath = nullptr; rhs->firstAncestorOrThisOfType( rhsWellPath ); if ( lhsWellPath && rhsWellPath ) { if ( lhsWellPath->name() != rhsWellPath->name() ) { return lhsWellPath->name() < rhsWellPath->name(); } } return lhs->fractureMD() < rhs->fractureMD(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- bool RimWellPathFracture::isEnabled() const { RimWellPathFractureCollection* fractureCollection = nullptr; this->firstAncestorOrThisOfTypeAsserted( fractureCollection ); return fractureCollection->isChecked() && isChecked(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellPathFracture::updatePositionFromMeasuredDepth() { cvf::Vec3d positionAlongWellpath = cvf::Vec3d::ZERO; caf::PdmObjectHandle* objHandle = dynamic_cast( this ); if ( !objHandle ) return; RimWellPath* wellPath = nullptr; objHandle->firstAncestorOrThisOfType( wellPath ); if ( !wellPath ) return; RigWellPath* wellPathGeometry = wellPath->wellPathGeometry(); if ( wellPathGeometry ) { positionAlongWellpath = wellPathGeometry->interpolatedPointAlongWellPath( m_measuredDepth() ); } this->setAnchorPosition( positionAlongWellpath ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellPathFracture::defineUiOrdering( QString uiConfigName, caf::PdmUiOrdering& uiOrdering ) { RimFracture::defineUiOrdering( uiConfigName, uiOrdering ); if ( m_fractureTemplate() ) { uiOrdering.add( nameField(), caf::PdmUiOrdering::LayoutOptions( true, 3, 1 ) ); uiOrdering.add( &m_fractureTemplate, {true, 2, 1} ); uiOrdering.add( &m_editFractureTemplate, {false, 1, 0} ); } else { uiOrdering.add( nameField() ); { RimProject* project = nullptr; this->firstAncestorOrThisOfTypeAsserted( project ); if ( project->allFractureTemplates().empty() ) { uiOrdering.add( &m_createEllipseFractureTemplate ); uiOrdering.add( &m_createStimPlanFractureTemplate, false ); } else { uiOrdering.add( &m_fractureTemplate ); } } } caf::PdmUiGroup* locationGroup = uiOrdering.addNewGroup( "Location / Orientation" ); locationGroup->add( &m_measuredDepth ); locationGroup->add( &m_azimuth ); locationGroup->add( &m_uiWellPathAzimuth ); locationGroup->add( &m_uiWellFractureAzimuthDiff ); locationGroup->add( &m_wellFractureAzimuthAngleWarning ); locationGroup->add( &m_dip ); locationGroup->add( &m_tilt ); caf::PdmUiGroup* propertyGroup = uiOrdering.addNewGroup( "Properties" ); propertyGroup->add( &m_fractureUnit ); propertyGroup->add( &m_stimPlanTimeIndexToPlot ); propertyGroup->add( &m_perforationLength ); propertyGroup->add( &m_perforationEfficiency ); propertyGroup->add( &m_wellDiameter ); caf::PdmUiGroup* fractureCenterGroup = uiOrdering.addNewGroup( "Fracture Center Info" ); fractureCenterGroup->add( &m_uiAnchorPosition ); uiOrdering.skipRemainingFields( true ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimWellPathFracture::defineEditorAttribute( const caf::PdmFieldHandle* field, QString uiConfigName, caf::PdmUiEditorAttribute* attribute ) { RimFracture::defineEditorAttribute( field, uiConfigName, attribute ); if ( field == &m_measuredDepth ) { caf::PdmUiDoubleSliderEditorAttribute* myAttr = dynamic_cast( attribute ); if ( myAttr ) { RimWellPath* rimWellPath = nullptr; this->firstAncestorOrThisOfType( rimWellPath ); if ( !rimWellPath ) return; RigWellPath* wellPathGeo = rimWellPath->wellPathGeometry(); if ( !wellPathGeo ) return; if ( wellPathGeo->m_measuredDepths.size() > 1 ) { myAttr->m_minimum = wellPathGeo->m_measuredDepths.front(); myAttr->m_maximum = wellPathGeo->m_measuredDepths.back(); } } } }