///////////////////////////////////////////////////////////////////////////////// // // 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 "RicCreateWellTargetsPickEventHandler.h" #include "RiaGuiApplication.h" #include "RiaOffshoreSphericalCoords.h" #include "RigFemPart.h" #include "RigFemPartCollection.h" #include "RigFemPartGrid.h" #include "RigHexIntersectionTools.h" #include "RigMainGrid.h" #include "RigWellPath.h" #include "RigWellPathGeometryTools.h" #include "Rim3dView.h" #include "RimEclipseView.h" #include "RimGeoMechView.h" #include "RimModeledWellPath.h" #include "RimWellPath.h" #include "RimWellPathGeometryDef.h" #include "RimWellPathTarget.h" #include "RiuViewerCommands.h" #include "RivFemPartGeometryGenerator.h" #include "RivFemPickSourceInfo.h" #include "RivSourceInfo.h" #include "RivWellPathSourceInfo.h" #include "cafDisplayCoordTransform.h" #include "cafSelectionManager.h" #include "cvfStructGridGeometryGenerator.h" #include #include //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RicCreateWellTargetsPickEventHandler::RicCreateWellTargetsPickEventHandler( gsl::not_null wellGeometryDef ) : m_geometryToAddTargetsTo( wellGeometryDef ) { } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RicCreateWellTargetsPickEventHandler::~RicCreateWellTargetsPickEventHandler() { } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RicCreateWellTargetsPickEventHandler::registerAsPickEventHandler() { RiaGuiApplication::instance()->setOverrideCursor( Qt::CrossCursor ); Ric3dViewPickEventHandler::registerAsPickEventHandler(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RicCreateWellTargetsPickEventHandler::notifyUnregistered() { RiaGuiApplication::instance()->restoreOverrideCursor(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- bool RicCreateWellTargetsPickEventHandler::handle3dPickEvent( const Ric3dPickEvent& eventObject ) { if ( m_geometryToAddTargetsTo ) { Rim3dView* rimView = eventObject.m_view; cvf::Vec3d targetPointInDomain = cvf::Vec3d::ZERO; // If clicked on an other well path, snap target point to well path center line auto firstPickItem = eventObject.m_pickItemInfos.front(); auto wellPathSourceInfo = dynamic_cast( firstPickItem.sourceInfo() ); auto intersectionPointInDomain = rimView->displayCoordTransform()->transformToDomainCoord( firstPickItem.globalPickedPoint() ); bool doSetAzimuthAndInclination = false; double azimuth = 0.0; double inclination = 0.0; if ( wellPathSourceInfo && wellPathSourceInfo->wellPath() && wellPathSourceInfo->wellPath()->wellPathGeometry() ) { auto wellPathGeometry = wellPathSourceInfo->wellPath()->wellPathGeometry(); targetPointInDomain = wellPathSourceInfo->closestPointOnCenterLine( firstPickItem.faceIdx(), intersectionPointInDomain ); double md = wellPathSourceInfo->measuredDepth( firstPickItem.faceIdx(), intersectionPointInDomain ); { const auto [az, inc] = RigWellPathGeometryTools::calculateAzimuthAndInclinationAtMd( md, wellPathGeometry ); azimuth = az; inclination = inc; doSetAzimuthAndInclination = true; } double rkbDiff = wellPathGeometry->rkbDiff(); if ( m_geometryToAddTargetsTo->airGap() == 0.0 && rkbDiff != std::numeric_limits::infinity() ) { m_geometryToAddTargetsTo->setAirGap( rkbDiff ); } } else if ( isGridSourceObject( firstPickItem.sourceInfo() ) ) { targetPointInDomain = intersectionPointInDomain; doSetAzimuthAndInclination = false; cvf::Vec3d domainRayOrigin = rimView->displayCoordTransform()->transformToDomainCoord( firstPickItem.globalRayOrigin() ); cvf::Vec3d domainRayEnd = targetPointInDomain + ( targetPointInDomain - domainRayOrigin ); cvf::Vec3d hexElementIntersection = findHexElementIntersection( rimView, firstPickItem, domainRayOrigin, domainRayEnd ); CVF_TIGHT_ASSERT( !hexElementIntersection.isUndefined() ); if ( !hexElementIntersection.isUndefined() ) { targetPointInDomain = hexElementIntersection; } } else { targetPointInDomain = intersectionPointInDomain; doSetAzimuthAndInclination = false; } if ( !m_geometryToAddTargetsTo->firstActiveTarget() ) { m_geometryToAddTargetsTo->setReferencePointXyz( targetPointInDomain ); if ( wellPathSourceInfo ) { double mdAtFirstTarget = wellPathSourceInfo->measuredDepth( firstPickItem.faceIdx(), intersectionPointInDomain ); RimModeledWellPath* modeledWellPath = dynamic_cast( wellPathSourceInfo->wellPath() ); if ( modeledWellPath ) { mdAtFirstTarget += modeledWellPath->geometryDefinition()->mdAtFirstTarget(); } m_geometryToAddTargetsTo->setMdAtFirstTarget( mdAtFirstTarget ); } } cvf::Vec3d referencePoint = m_geometryToAddTargetsTo->anchorPointXyz(); cvf::Vec3d relativeTagetPoint = targetPointInDomain - referencePoint; RimWellPathTarget* newTarget = new RimWellPathTarget; if ( doSetAzimuthAndInclination ) { newTarget->setAsPointXYZAndTangentTarget( cvf::Vec3d( relativeTagetPoint.x(), relativeTagetPoint.y(), relativeTagetPoint.z() ), azimuth, inclination ); } else { newTarget->setAsPointTargetXYD( cvf::Vec3d( relativeTagetPoint.x(), relativeTagetPoint.y(), -relativeTagetPoint.z() ) ); } m_geometryToAddTargetsTo->insertTarget( nullptr, newTarget ); m_geometryToAddTargetsTo->updateConnectedEditors(); m_geometryToAddTargetsTo->updateWellPathVisualization( true ); return true; // Todo: See if we really should eat the event instead } return false; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- bool RicCreateWellTargetsPickEventHandler::isGridSourceObject( const cvf::Object* object ) { auto sourceInfo = dynamic_cast( object ); auto femSourceInfo = dynamic_cast( object ); return sourceInfo || femSourceInfo; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- cvf::Vec3d RicCreateWellTargetsPickEventHandler::findHexElementIntersection( gsl::not_null view, const RiuPickItemInfo& pickItem, const cvf::Vec3d& domainRayOrigin, const cvf::Vec3d& domainRayEnd ) { auto sourceInfo = dynamic_cast( pickItem.sourceInfo() ); auto femSourceInfo = dynamic_cast( pickItem.sourceInfo() ); size_t cellIndex = cvf::UNDEFINED_SIZE_T; std::array cornerVertices; if ( sourceInfo ) { size_t gridIndex = sourceInfo->gridIndex(); if ( sourceInfo->hasCellFaceMapping() ) { cellIndex = sourceInfo->m_cellFaceFromTriangleMapper->cellIndex( pickItem.faceIdx() ); RimEclipseView* eclipseView = dynamic_cast( view.get() ); if ( eclipseView && eclipseView->mainGrid() ) { RigGridBase* hitGrid = eclipseView->mainGrid()->gridByIndex( gridIndex ); hitGrid->cellCornerVertices( cellIndex, cornerVertices.data() ); } } } else if ( femSourceInfo ) { size_t femPartIndex = femSourceInfo->femPartIndex(); if ( femSourceInfo->triangleToElmMapper() ) { size_t elementIndex = femSourceInfo->triangleToElmMapper()->elementIndex( pickItem.faceIdx() ); RimGeoMechView* geoMechView = dynamic_cast( view.get() ); if ( geoMechView && geoMechView->femParts() ) { RigFemPart* femPart = geoMechView->femParts()->part( femPartIndex ); RigElementType elType = femPart->elementType( elementIndex ); if ( elType == HEX8 || elType == HEX8P ) { cellIndex = elementIndex; const RigFemPartGrid* femGrid = femPart->getOrCreateStructGrid(); femGrid->cellCornerVertices( cellIndex, cornerVertices.data() ); } } } } if ( cellIndex ) { std::vector intersectionInfo; RigHexIntersectionTools::lineHexCellIntersection( domainRayOrigin, domainRayEnd, cornerVertices.data(), cellIndex, &intersectionInfo ); if ( !intersectionInfo.empty() ) { // Sort intersection on distance to ray origin CVF_ASSERT( intersectionInfo.size() > 1 ); std::sort( intersectionInfo.begin(), intersectionInfo.end(), [&domainRayOrigin]( const HexIntersectionInfo& lhs, const HexIntersectionInfo& rhs ) { return ( lhs.m_intersectionPoint - domainRayOrigin ).lengthSquared() < ( rhs.m_intersectionPoint - domainRayOrigin ).lengthSquared(); } ); const double eps = 1.0e-2; cvf::Vec3d intersectionRay = intersectionInfo.back().m_intersectionPoint - intersectionInfo.front().m_intersectionPoint; cvf::Vec3d newPoint = intersectionInfo.front().m_intersectionPoint + intersectionRay * eps; CVF_ASSERT( RigHexIntersectionTools::isPointInCell( newPoint, cornerVertices.data() ) ); return newPoint; } } return cvf::Vec3d::UNDEFINED; }