///////////////////////////////////////////////////////////////////////////////// // // 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 "RigFemPartResultCalculatorStressGradients.h" #include "RigFemPart.h" #include "RigFemPartCollection.h" #include "RigFemPartResultsCollection.h" #include "RigFemResultAddress.h" #include "RigFemScalarResultFrames.h" #include "RigHexGradientTools.h" #include "cafProgressInfo.h" #include //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RigFemPartResultCalculatorStressGradients::RigFemPartResultCalculatorStressGradients( RigFemPartResultsCollection& collection ) : RigFemPartResultCalculator( collection ) { } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RigFemPartResultCalculatorStressGradients::~RigFemPartResultCalculatorStressGradients() { } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- bool RigFemPartResultCalculatorStressGradients::isMatching( const RigFemResultAddress& resVarAddr ) const { if ( resVarAddr.fieldName == "ST" || resVarAddr.fieldName == "SE" ) { const std::vector allowedComponentNames = RigFemPartResultsCollection::getStressGradientComponentNames(); for ( auto& allowedComponentName : allowedComponentNames ) { if ( resVarAddr.componentName == allowedComponentName ) { return true; } } } return false; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RigFemScalarResultFrames* RigFemPartResultCalculatorStressGradients::calculate( int partIndex, const RigFemResultAddress& resVarAddr ) { CVF_ASSERT( resVarAddr.fieldName == "ST" || resVarAddr.fieldName == "SE" ); caf::ProgressInfo stepCountProgress( m_resultCollection->timeStepCount() * 2, "" ); stepCountProgress.setProgressDescription( "Calculating gradient: " + QString::fromStdString( resVarAddr.fieldName + ": " + resVarAddr.componentName ) ); stepCountProgress.setNextProgressIncrement( m_resultCollection->timeStepCount() ); QString origFieldName = QString::fromStdString( resVarAddr.fieldName ); QString origComponentName = QString::fromStdString( resVarAddr.componentName ); // Split out the direction of the component name: SE-X => SE QString componentName = origComponentName.left( origComponentName.lastIndexOf( QChar( '-' ) ) ); RigFemScalarResultFrames* inputResultFrames = m_resultCollection->findOrLoadScalarResult( partIndex, RigFemResultAddress( resVarAddr.resultPosType, resVarAddr.fieldName, componentName.toStdString() ) ); RigFemScalarResultFrames* dataFramesX = m_resultCollection->createScalarResult( partIndex, RigFemResultAddress( resVarAddr.resultPosType, resVarAddr.fieldName, componentName.toStdString() + "-X" ) ); RigFemScalarResultFrames* dataFramesY = m_resultCollection->createScalarResult( partIndex, RigFemResultAddress( resVarAddr.resultPosType, resVarAddr.fieldName, componentName.toStdString() + "-Y" ) ); RigFemScalarResultFrames* dataFramesZ = m_resultCollection->createScalarResult( partIndex, RigFemResultAddress( resVarAddr.resultPosType, resVarAddr.fieldName, componentName.toStdString() + "-Z" ) ); stepCountProgress.incrementProgress(); const RigFemPart* femPart = m_resultCollection->parts()->part( partIndex ); int elementCount = femPart->elementCount(); const std::vector& nodeCoords = femPart->nodes().coordinates; const int timeSteps = inputResultFrames->timeStepCount(); for ( int stepIdx = 0; stepIdx < timeSteps; stepIdx++ ) { const int frameCount = inputResultFrames->frameCount( stepIdx ); for ( int fIdx = 0; fIdx < frameCount; fIdx++ ) { const std::vector& inputData = inputResultFrames->frameData( stepIdx, fIdx ); std::vector& dstFrameDataX = dataFramesX->frameData( stepIdx, fIdx ); std::vector& dstFrameDataY = dataFramesY->frameData( stepIdx, fIdx ); std::vector& dstFrameDataZ = dataFramesZ->frameData( stepIdx, fIdx ); size_t valCount = inputData.size(); if ( valCount == 0 ) continue; dstFrameDataX.resize( valCount ); dstFrameDataY.resize( valCount ); dstFrameDataZ.resize( valCount ); #pragma omp parallel for schedule( dynamic ) for ( int elmIdx = 0; elmIdx < elementCount; ++elmIdx ) { const int* cornerIndices = femPart->connectivities( elmIdx ); RigElementType elmType = femPart->elementType( elmIdx ); if ( elmType != HEX8P && elmType != HEX8 ) continue; // Find the corner coordinates for element std::array hexCorners; for ( int i = 0; i < 8; i++ ) { hexCorners[i] = cvf::Vec3d( nodeCoords[cornerIndices[i]] ); } // Find the corresponding corner values for the element std::array cornerValues; int elmNodeCount = RigFemTypes::elementNodeCount( elmType ); for ( int elmNodIdx = 0; elmNodIdx < elmNodeCount; ++elmNodIdx ) { size_t elmNodResIdx = femPart->elementNodeResultIdx( elmIdx, elmNodIdx ); cornerValues[elmNodIdx] = inputData[elmNodResIdx]; } std::array gradients = RigHexGradientTools::gradients( hexCorners, cornerValues ); for ( int elmNodIdx = 0; elmNodIdx < elmNodeCount; ++elmNodIdx ) { size_t elmNodResIdx = femPart->elementNodeResultIdx( elmIdx, elmNodIdx ); dstFrameDataX[elmNodResIdx] = gradients[elmNodIdx].x(); dstFrameDataY[elmNodResIdx] = gradients[elmNodIdx].y(); dstFrameDataZ[elmNodResIdx] = gradients[elmNodIdx].z(); } } } stepCountProgress.incrementProgress(); } RigFemScalarResultFrames* requestedStress = m_resultCollection->findOrLoadScalarResult( partIndex, resVarAddr ); CVF_ASSERT( requestedStress ); return requestedStress; }