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ResInsight/ApplicationCode/GeoMech/GeoMechDataModel/RigFemPartResultCalculatorPrincipalStrain.cpp
Kristian Bendiksen b84e868564 Split fem part results collection 5785 (#5871) 
* #5785 Extract RigFemClosestResultIndexCalculator class to separate file.

* #5785 Move method implementation of RigFemClosestResutIndexCalculator to cpp file.

Also improve const correctness.

* #5785 Extract method for calculating normal SE, ie. SE:11/22/33.

* #5785 Extract method for calculating shear SE, ie. SE:12/13/23.

* #5785 Create a list of result calculators.

* #5785 Extract method for calculating timelapse, normalized, and gamma results.

* #5785 Extract method for calculating normal ST, ie. ST:11/22/33.

* #5785 Extract method for calculating shear ST, ie. ST:12/13/23.

* #5785 Extract method for calculating surface angles and aligned stress.

* #5785 Extract method for calculating principal strain and stress.

* #5785 Extract method for calculating FOS, SFI and DSM for SE.

* #5785 Extract method for calculating NE.EV, NE.ED, ST.Q and ST.STM.

* #5785 Extract method for calculating compaction.

* #5785 Extract method for calculating stress gradients.

* #5785 Extract method for calculating SE.SEM.

* #5785 Extract method for calculating NE.

* #5785 Extract method for calculating formation indices.

* #5785 Extract method for calculating nodal graidents, bar conversions, and EnIpPorBar.

* #5785 Use std::unique_ptr to calculators.

* Use std::vector<unique_ptr>

Co-authored-by: Magne Sjaastad <magne.sjaastad@ceetronsolutions.com>
2020-05-09 08:57:07 +02:00

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/////////////////////////////////////////////////////////////////////////////////
//
// 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 <http://www.gnu.org/licenses/gpl.html>
// for more details.
//
/////////////////////////////////////////////////////////////////////////////////
#include "RigFemPartResultCalculatorPrincipalStrain.h"
#include "RigFemPart.h"
#include "RigFemPartCollection.h"
#include "RigFemPartResultsCollection.h"
#include "RigFemResultAddress.h"
#include "RigFemScalarResultFrames.h"
#include "cafProgressInfo.h"
#include <QString>
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RigFemPartResultCalculatorPrincipalStrain::RigFemPartResultCalculatorPrincipalStrain( RigFemPartResultsCollection& collection )
: RigFemPartResultCalculator( collection )
{
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RigFemPartResultCalculatorPrincipalStrain::~RigFemPartResultCalculatorPrincipalStrain()
{
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
bool RigFemPartResultCalculatorPrincipalStrain::isMatching( const RigFemResultAddress& resVarAddr ) const
{
return ( ( resVarAddr.fieldName == "NE" ) && ( resVarAddr.componentName == "E1" || resVarAddr.componentName == "E2" ||
resVarAddr.componentName == "E3" ) );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RigFemScalarResultFrames* RigFemPartResultCalculatorPrincipalStrain::calculate( int partIndex,
const RigFemResultAddress& resVarAddr )
{
CVF_ASSERT( resVarAddr.componentName == "E1" || resVarAddr.componentName == "E2" || resVarAddr.componentName == "E3" );
caf::ProgressInfo frameCountProgress( m_resultCollection->frameCount() * 7, "" );
frameCountProgress.setProgressDescription(
"Calculating " + QString::fromStdString( resVarAddr.fieldName + ": " + resVarAddr.componentName ) );
frameCountProgress.setNextProgressIncrement( m_resultCollection->frameCount() );
RigFemScalarResultFrames* s11Frames =
m_resultCollection->findOrLoadScalarResult( partIndex,
RigFemResultAddress( resVarAddr.resultPosType,
resVarAddr.fieldName,
"E11" ) );
frameCountProgress.incrementProgress();
frameCountProgress.setNextProgressIncrement( m_resultCollection->frameCount() );
RigFemScalarResultFrames* s22Frames =
m_resultCollection->findOrLoadScalarResult( partIndex,
RigFemResultAddress( resVarAddr.resultPosType,
resVarAddr.fieldName,
"E22" ) );
frameCountProgress.incrementProgress();
frameCountProgress.setNextProgressIncrement( m_resultCollection->frameCount() );
RigFemScalarResultFrames* s33Frames =
m_resultCollection->findOrLoadScalarResult( partIndex,
RigFemResultAddress( resVarAddr.resultPosType,
resVarAddr.fieldName,
"E33" ) );
frameCountProgress.incrementProgress();
frameCountProgress.setNextProgressIncrement( m_resultCollection->frameCount() );
RigFemScalarResultFrames* s12Frames =
m_resultCollection->findOrLoadScalarResult( partIndex,
RigFemResultAddress( resVarAddr.resultPosType,
resVarAddr.fieldName,
"E12" ) );
frameCountProgress.incrementProgress();
frameCountProgress.setNextProgressIncrement( m_resultCollection->frameCount() );
RigFemScalarResultFrames* s13Frames =
m_resultCollection->findOrLoadScalarResult( partIndex,
RigFemResultAddress( resVarAddr.resultPosType,
resVarAddr.fieldName,
"E13" ) );
frameCountProgress.incrementProgress();
frameCountProgress.setNextProgressIncrement( m_resultCollection->frameCount() );
RigFemScalarResultFrames* s23Frames =
m_resultCollection->findOrLoadScalarResult( partIndex,
RigFemResultAddress( resVarAddr.resultPosType,
resVarAddr.fieldName,
"E23" ) );
RigFemScalarResultFrames* s1Frames =
m_resultCollection->createScalarResult( partIndex,
RigFemResultAddress( resVarAddr.resultPosType, resVarAddr.fieldName, "E1" ) );
RigFemScalarResultFrames* s2Frames =
m_resultCollection->createScalarResult( partIndex,
RigFemResultAddress( resVarAddr.resultPosType, resVarAddr.fieldName, "E2" ) );
RigFemScalarResultFrames* s3Frames =
m_resultCollection->createScalarResult( partIndex,
RigFemResultAddress( resVarAddr.resultPosType, resVarAddr.fieldName, "E3" ) );
frameCountProgress.incrementProgress();
int frameCount = s11Frames->frameCount();
for ( int fIdx = 0; fIdx < frameCount; ++fIdx )
{
const std::vector<float>& s11 = s11Frames->frameData( fIdx );
const std::vector<float>& s22 = s22Frames->frameData( fIdx );
const std::vector<float>& s33 = s33Frames->frameData( fIdx );
const std::vector<float>& s12 = s12Frames->frameData( fIdx );
const std::vector<float>& s13 = s13Frames->frameData( fIdx );
const std::vector<float>& s23 = s23Frames->frameData( fIdx );
std::vector<float>& s1 = s1Frames->frameData( fIdx );
std::vector<float>& s2 = s2Frames->frameData( fIdx );
std::vector<float>& s3 = s3Frames->frameData( fIdx );
size_t valCount = s11.size();
s1.resize( valCount );
s2.resize( valCount );
s3.resize( valCount );
#pragma omp parallel for
for ( long vIdx = 0; vIdx < static_cast<long>( valCount ); ++vIdx )
{
caf::Ten3f T( s11[vIdx], s22[vIdx], s33[vIdx], s12[vIdx], s23[vIdx], s13[vIdx] );
cvf::Vec3f principalDirs[3];
cvf::Vec3f principals = T.calculatePrincipals( principalDirs );
s1[vIdx] = principals[0];
s2[vIdx] = principals[1];
s3[vIdx] = principals[2];
}
frameCountProgress.incrementProgress();
}
RigFemScalarResultFrames* requestedPrincipal = m_resultCollection->findOrLoadScalarResult( partIndex, resVarAddr );
return requestedPrincipal;
}
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