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ResInsight/ApplicationLibCode/ProjectDataModel/RimEclipseContourMapProjection.cpp
jonjenssen a7775214c8
Rewrite of cell filters. Added new polyline filter and user defined filter types. (#7191) 
Make 3d view picker more generic to enable picking cell filter polygon

Give cell filters a new, generic interface for updating included/excluded cells from collection

Remove old range filter collection and replace with new filter collection that supports both range filters, polyline filters and user defined filters.

Update existing range filter code for the new collection and interface

Add user defined cell filter type

Add polyline cell filter type

Implement both Z and K index depth for polyline filters
Allow interactive editing of polyline filter node positions.
Support both geomech and eclipse views
Support view linking with both eclipse and geomech views and the new filter types

Support loading old project files with range filter collections into the new collection type

Adjust to new world order.
2021-01-11 18:47:09 +01:00

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/////////////////////////////////////////////////////////////////////////////////
//
// 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 <http://www.gnu.org/licenses/gpl.html>
// for more details.
//
/////////////////////////////////////////////////////////////////////////////////
#include "RimEclipseContourMapProjection.h"
#include "RiaWeightedGeometricMeanCalculator.h"
#include "RiaWeightedHarmonicMeanCalculator.h"
#include "RiaWeightedMeanCalculator.h"
#include "RigActiveCellInfo.h"
#include "RigCaseCellResultsData.h"
#include "RigCell.h"
#include "RigCellGeometryTools.h"
#include "RigEclipseCaseData.h"
#include "RigHexIntersectionTools.h"
#include "RigMainGrid.h"
#include "RimEclipseCase.h"
#include "RimEclipseCellColors.h"
#include "RimEclipseContourMapView.h"
#include "RimEclipseResultDefinition.h"
#include "RimEclipseView.h"
#include "RimProject.h"
#include "RimRegularLegendConfig.h"
#include "RimTextAnnotation.h"
#include "cafContourLines.h"
#include "cafPdmUiDoubleSliderEditor.h"
#include "cafPdmUiTreeOrdering.h"
#include "cvfArray.h"
#include "cvfCellRange.h"
#include "cvfGeometryTools.h"
#include "cvfGeometryUtils.h"
#include "cvfScalarMapper.h"
#include "cvfStructGridGeometryGenerator.h"
#include <algorithm>
CAF_PDM_SOURCE_INIT( RimEclipseContourMapProjection, "RimEclipseContourMapProjection" );
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RimEclipseContourMapProjection::RimEclipseContourMapProjection()
: RimContourMapProjection()
, m_kLayers( 0u )
{
CAF_PDM_InitObject( "RimEclipseContourMapProjection", ":/2DMapProjection16x16.png", "", "" );
CAF_PDM_InitField( &m_weightByParameter, "WeightByParameter", false, "Weight by Result Parameter", "", "", "" );
CAF_PDM_InitFieldNoDefault( &m_weightingResult, "WeightingResult", "", "", "", "" );
m_weightingResult.uiCapability()->setUiHidden( true );
m_weightingResult.uiCapability()->setUiTreeChildrenHidden( true );
m_weightingResult = new RimEclipseResultDefinition;
m_weightingResult->findField( "MResultType" )->uiCapability()->setUiName( "Result Type" );
setName( "Map Projection" );
nameField()->uiCapability()->setUiReadOnly( true );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RimEclipseContourMapProjection::~RimEclipseContourMapProjection()
{
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
QString RimEclipseContourMapProjection::resultDescriptionText() const
{
QString resultText = resultAggregationText();
if ( !isColumnResult() )
{
resultText += QString( ", %1" ).arg( view()->cellResult()->resultVariable() );
}
return resultText;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
QString RimEclipseContourMapProjection::weightingParameter() const
{
QString parameter = "None";
if ( m_weightByParameter() && !m_weightingResult->isTernarySaturationSelected() )
{
parameter = m_weightingResult->resultVariableUiShortName();
}
return parameter;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RimRegularLegendConfig* RimEclipseContourMapProjection::legendConfig() const
{
return view()->cellResult()->legendConfig();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEclipseContourMapProjection::updateLegend()
{
RimEclipseCellColors* cellColors = view()->cellResult();
double minVal = minValue( m_aggregatedResults );
double maxVal = maxValue( m_aggregatedResults );
auto [minValAllTimeSteps, maxValAllTimeSteps] = minmaxValuesAllTimeSteps();
legendConfig()->setAutomaticRanges( minValAllTimeSteps, maxValAllTimeSteps, minVal, maxVal );
if ( m_resultAggregation() == RESULTS_OIL_COLUMN || m_resultAggregation() == RESULTS_GAS_COLUMN ||
m_resultAggregation() == RESULTS_HC_COLUMN )
{
legendConfig()->setTitle( QString( "Map Projection\n%1" ).arg( m_resultAggregation().uiText() ) );
}
else
{
QString projectionLegendText = QString( "Map Projection\n%1" ).arg( m_resultAggregation().uiText() );
if ( weightingParameter() != "None" )
{
projectionLegendText += QString( "(W: %1)" ).arg( weightingParameter() );
}
projectionLegendText += QString( "\nResult: %1" ).arg( cellColors->resultVariableUiShortName() );
legendConfig()->setTitle( projectionLegendText );
}
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RimEclipseContourMapProjection::sampleSpacing() const
{
if ( m_mainGrid.notNull() )
{
return m_relativeSampleSpacing * m_mainGrid->characteristicIJCellSize();
}
return 0.0;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEclipseContourMapProjection::updatedWeightingResult()
{
this->clearGridMapping();
this->updateConnectedEditors();
this->generateResultsIfNecessary( view()->currentTimeStep() );
this->updateLegend();
RimProject* proj;
this->firstAncestorOrThisOfTypeAsserted( proj );
proj->scheduleCreateDisplayModelAndRedrawAllViews();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::vector<double> RimEclipseContourMapProjection::generateResults( int timeStep )
{
m_weightingResult->loadResult();
size_t nCells = numberOfCells();
std::vector<double> aggregatedResults = std::vector<double>( nCells, std::numeric_limits<double>::infinity() );
RimEclipseCellColors* cellColors = view()->cellResult();
RimEclipseCase* eclipseCase = this->eclipseCase();
{
if ( !cellColors->isTernarySaturationSelected() )
{
RigCaseCellResultsData* resultData = eclipseCase->results( RiaDefines::PorosityModelType::MATRIX_MODEL );
std::vector<double> gridResultValues;
if ( isColumnResult() )
{
m_currentResultName = "";
resultData->ensureKnownResultLoaded(
RigEclipseResultAddress( RiaDefines::ResultCatType::STATIC_NATIVE, "PORO" ) );
resultData->ensureKnownResultLoaded(
RigEclipseResultAddress( RiaDefines::ResultCatType::STATIC_NATIVE, "NTG" ) );
resultData->ensureKnownResultLoaded(
RigEclipseResultAddress( RiaDefines::ResultCatType::STATIC_NATIVE, "DZ" ) );
if ( m_resultAggregation == RESULTS_OIL_COLUMN || m_resultAggregation == RESULTS_HC_COLUMN )
{
resultData->ensureKnownResultLoadedForTimeStep( RigEclipseResultAddress( RiaDefines::ResultCatType::DYNAMIC_NATIVE,
"SOIL" ),
timeStep );
}
if ( m_resultAggregation == RESULTS_GAS_COLUMN || m_resultAggregation == RESULTS_HC_COLUMN )
{
resultData->ensureKnownResultLoadedForTimeStep( RigEclipseResultAddress( RiaDefines::ResultCatType::DYNAMIC_NATIVE,
"SGAS" ),
timeStep );
}
gridResultValues = calculateColumnResult( m_resultAggregation() );
}
else if ( !( cellColors->hasStaticResult() && timeStep > 0 ) )
{
m_currentResultName = cellColors->resultVariable();
RigEclipseResultAddress resAddr( cellColors->resultType(),
cellColors->resultVariable(),
cellColors->timeLapseBaseTimeStep(),
cellColors->caseDiffIndex() );
if ( resAddr.isValid() && resultData->hasResultEntry( resAddr ) )
{
gridResultValues = resultData->cellScalarResults( resAddr, timeStep );
}
}
if ( !gridResultValues.empty() )
{
#pragma omp parallel for
for ( int index = 0; index < static_cast<int>( nCells ); ++index )
{
cvf::Vec2ui ij = ijFromCellIndex( index );
aggregatedResults[index] = calculateValueInMapCell( ij.x(), ij.y(), gridResultValues );
}
}
}
}
return aggregatedResults;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
bool RimEclipseContourMapProjection::resultVariableChanged() const
{
if ( !m_currentResultName.isEmpty() )
{
RimEclipseCellColors* cellColors = view()->cellResult();
if ( cellColors->resultVariable() != m_currentResultName )
{
return true;
}
}
return false;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEclipseContourMapProjection::clearResultVariable()
{
m_currentResultName = "";
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::vector<double> RimEclipseContourMapProjection::calculateColumnResult( ResultAggregation resultAggregation ) const
{
const RigCaseCellResultsData* resultData = eclipseCase()->results( RiaDefines::PorosityModelType::MATRIX_MODEL );
bool hasPoroResult =
resultData->hasResultEntry( RigEclipseResultAddress( RiaDefines::ResultCatType::STATIC_NATIVE, "PORO" ) );
bool hasNtgResult =
resultData->hasResultEntry( RigEclipseResultAddress( RiaDefines::ResultCatType::STATIC_NATIVE, "NTG" ) );
bool hasDzResult =
resultData->hasResultEntry( RigEclipseResultAddress( RiaDefines::ResultCatType::STATIC_NATIVE, "DZ" ) );
if ( !( hasPoroResult && hasNtgResult && hasDzResult ) )
{
return std::vector<double>();
}
const std::vector<double>& poroResults =
resultData->cellScalarResults( RigEclipseResultAddress( RiaDefines::ResultCatType::STATIC_NATIVE, "PORO" ), 0 );
const std::vector<double>& ntgResults =
resultData->cellScalarResults( RigEclipseResultAddress( RiaDefines::ResultCatType::STATIC_NATIVE, "NTG" ), 0 );
const std::vector<double>& dzResults =
resultData->cellScalarResults( RigEclipseResultAddress( RiaDefines::ResultCatType::STATIC_NATIVE, "DZ" ), 0 );
CVF_ASSERT( poroResults.size() == ntgResults.size() && ntgResults.size() == dzResults.size() );
int timeStep = view()->currentTimeStep();
std::vector<double> resultValues( poroResults.size(), 0.0 );
if ( resultAggregation == RESULTS_OIL_COLUMN || resultAggregation == RESULTS_HC_COLUMN )
{
const std::vector<double>& soilResults =
resultData->cellScalarResults( RigEclipseResultAddress( RiaDefines::ResultCatType::DYNAMIC_NATIVE, "SOIL" ),
timeStep );
for ( size_t cellResultIdx = 0; cellResultIdx < resultValues.size(); ++cellResultIdx )
{
resultValues[cellResultIdx] = soilResults[cellResultIdx];
}
}
if ( resultAggregation == RESULTS_GAS_COLUMN || resultAggregation == RESULTS_HC_COLUMN )
{
bool hasGasResult =
resultData->hasResultEntry( RigEclipseResultAddress( RiaDefines::ResultCatType::DYNAMIC_NATIVE, "SGAS" ) );
if ( hasGasResult )
{
const std::vector<double>& sgasResults =
resultData->cellScalarResults( RigEclipseResultAddress( RiaDefines::ResultCatType::DYNAMIC_NATIVE, "SGAS" ),
timeStep );
for ( size_t cellResultIdx = 0; cellResultIdx < resultValues.size(); ++cellResultIdx )
{
resultValues[cellResultIdx] += sgasResults[cellResultIdx];
}
}
}
for ( size_t cellResultIdx = 0; cellResultIdx < resultValues.size(); ++cellResultIdx )
{
resultValues[cellResultIdx] *= poroResults[cellResultIdx] * ntgResults[cellResultIdx] * dzResults[cellResultIdx];
}
return resultValues;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEclipseContourMapProjection::updateGridInformation()
{
auto eclipseCase = this->eclipseCase();
m_mainGrid = eclipseCase->eclipseCaseData()->mainGrid();
m_activeCellInfo = eclipseCase->eclipseCaseData()->activeCellInfo( RiaDefines::PorosityModelType::MATRIX_MODEL );
m_kLayers = m_mainGrid->cellCountK();
m_gridBoundingBox = eclipseCase->activeCellsBoundingBox();
cvf::Vec3d minExpandedPoint = m_gridBoundingBox.min() - cvf::Vec3d( gridEdgeOffset(), gridEdgeOffset(), 0.0 );
cvf::Vec3d maxExpandedPoint = m_gridBoundingBox.max() + cvf::Vec3d( gridEdgeOffset(), gridEdgeOffset(), 0.0 );
m_expandedBoundingBox = cvf::BoundingBox( minExpandedPoint, maxExpandedPoint );
m_mapSize = calculateMapSize();
// Re-jig max point to be an exact multiple of cell size
cvf::Vec3d minPoint = m_expandedBoundingBox.min();
cvf::Vec3d maxPoint = m_expandedBoundingBox.max();
maxPoint.x() = minPoint.x() + m_mapSize.x() * sampleSpacing();
maxPoint.y() = minPoint.y() + m_mapSize.y() * sampleSpacing();
m_expandedBoundingBox = cvf::BoundingBox( minPoint, maxPoint );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::vector<double> RimEclipseContourMapProjection::retrieveParameterWeights()
{
std::vector<double> weights;
if ( m_weightByParameter() )
{
RigEclipseResultAddress gridScalarResultIdx = m_weightingResult->eclipseResultAddress();
if ( gridScalarResultIdx.isValid() )
{
m_weightingResult->loadResult();
int timeStep = 0;
if ( m_weightingResult->hasDynamicResult() )
{
timeStep = view()->currentTimeStep();
}
weights = m_weightingResult->currentGridCellResults()->cellScalarResults( gridScalarResultIdx, timeStep );
}
}
return weights;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RimEclipseCase* RimEclipseContourMapProjection::eclipseCase() const
{
RimEclipseCase* eclipseCase = nullptr;
firstAncestorOrThisOfType( eclipseCase );
return eclipseCase;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RimGridView* RimEclipseContourMapProjection::baseView() const
{
return view();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::vector<size_t> RimEclipseContourMapProjection::findIntersectingCells( const cvf::BoundingBox& bbox ) const
{
std::vector<size_t> allCellIndices;
m_mainGrid->findIntersectingCells( bbox, &allCellIndices );
return allCellIndices;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
size_t RimEclipseContourMapProjection::kLayer( size_t globalCellIdx ) const
{
const RigCell& cell = m_mainGrid->globalCellArray()[globalCellIdx];
size_t mainGridCellIdx = cell.mainGridCellIndex();
size_t i, j, k;
m_mainGrid->ijkFromCellIndex( mainGridCellIdx, &i, &j, &k );
return k;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
size_t RimEclipseContourMapProjection::kLayers() const
{
return m_kLayers;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RimEclipseContourMapProjection::calculateOverlapVolume( size_t globalCellIdx, const cvf::BoundingBox& bbox ) const
{
std::array<cvf::Vec3d, 8> hexCorners;
const RigCell& cell = m_mainGrid->globalCellArray()[globalCellIdx];
size_t localCellIdx = cell.gridLocalCellIndex();
RigGridBase* localGrid = cell.hostGrid();
localGrid->cellCornerVertices( localCellIdx, hexCorners.data() );
cvf::BoundingBox overlapBBox;
std::array<cvf::Vec3d, 8> overlapCorners;
if ( RigCellGeometryTools::estimateHexOverlapWithBoundingBox( hexCorners, bbox, &overlapCorners, &overlapBBox ) )
{
double overlapVolume = RigCellGeometryTools::calculateCellVolume( overlapCorners );
return overlapVolume;
}
return 0.0;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RimEclipseContourMapProjection::calculateRayLengthInCell( size_t globalCellIdx,
const cvf::Vec3d& highestPoint,
const cvf::Vec3d& lowestPoint ) const
{
std::array<cvf::Vec3d, 8> hexCorners;
RigCell cell = m_mainGrid->globalCellArray()[globalCellIdx];
size_t localCellIdx = cell.gridLocalCellIndex();
RigGridBase* localGrid = cell.hostGrid();
localGrid->cellCornerVertices( localCellIdx, hexCorners.data() );
std::vector<HexIntersectionInfo> intersections;
if ( RigHexIntersectionTools::lineHexCellIntersection( highestPoint, lowestPoint, hexCorners.data(), 0, &intersections ) )
{
double lengthInCell =
( intersections.back().m_intersectionPoint - intersections.front().m_intersectionPoint ).length();
return lengthInCell;
}
return 0.0;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RimEclipseContourMapProjection::getParameterWeightForCell( size_t cellResultIdx,
const std::vector<double>& cellWeights ) const
{
if ( cellWeights.empty() ) return 1.0;
double result = std::max( cellWeights[cellResultIdx], 0.0 );
if ( result < 1.0e-6 )
{
result = 0.0;
}
return result;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
size_t RimEclipseContourMapProjection::gridResultIndex( size_t globalCellIdx ) const
{
return m_activeCellInfo->cellResultIndex( globalCellIdx );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RimEclipseContourMapView* RimEclipseContourMapProjection::view() const
{
RimEclipseContourMapView* view = nullptr;
firstAncestorOrThisOfTypeAsserted( view );
return view;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEclipseContourMapProjection::updateAfterResultGeneration( int timeStep )
{
m_currentResultTimestep = timeStep;
RimEclipseCellColors* cellColors = view()->cellResult();
m_currentResultName = cellColors->resultVariable();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEclipseContourMapProjection::fieldChangedByUi( const caf::PdmFieldHandle* changedField,
const QVariant& oldValue,
const QVariant& newValue )
{
RimContourMapProjection::fieldChangedByUi( changedField, oldValue, newValue );
if ( changedField == &m_weightByParameter || changedField == &m_weightingResult )
{
clearGridMapping();
}
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEclipseContourMapProjection::defineUiOrdering( QString uiConfigName, caf::PdmUiOrdering& uiOrdering )
{
RimContourMapProjection::defineUiOrdering( uiConfigName, uiOrdering );
caf::PdmUiGroup* weightingGroup = uiOrdering.addNewGroup( "Mean Weighting Options" );
weightingGroup->add( &m_weightByParameter );
weightingGroup->setCollapsedByDefault( true );
m_weightByParameter.uiCapability()->setUiReadOnly( !isMeanResult() );
if ( !isMeanResult() )
{
m_weightByParameter = false;
}
if ( m_weightByParameter() )
{
m_weightingResult->uiOrdering( uiConfigName, *weightingGroup );
}
uiOrdering.skipRemainingFields( true );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEclipseContourMapProjection::initAfterRead()
{
RimContourMapProjection::initAfterRead();
if ( eclipseCase() )
{
m_weightingResult->setEclipseCase( eclipseCase() );
}
}
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