Exemplo n.º 1
0
//--------------------------------------------------------------------------------------------------
/// 
//--------------------------------------------------------------------------------------------------
void RimEclipseCase::removeResult(const QString& resultName)
{
    size_t i;
    for (i = 0; i < reservoirViews().size(); i++)
    {
        RimEclipseView* reservoirView = reservoirViews()[i];
        CVF_ASSERT(reservoirView);

        RimEclipseCellColors* result = reservoirView->cellResult;
        CVF_ASSERT(result);

        bool rebuildDisplayModel = false;

        // Set cell result variable to none if displaying 
        if (result->resultVariable() == resultName)
        {
            result->setResultVariable(RimDefines::undefinedResultName());
            result->loadResult();

            rebuildDisplayModel = true;
        }

        std::list< caf::PdmPointer< RimEclipsePropertyFilter > >::iterator it;
        RimEclipsePropertyFilterCollection* propFilterCollection = reservoirView->propertyFilterCollection();

        for (size_t filter = 0; filter < propFilterCollection->propertyFilters().size(); filter++)
        {
            RimEclipsePropertyFilter* propertyFilter = propFilterCollection->propertyFilters()[filter];
            if (propertyFilter->resultDefinition->resultVariable() == resultName)
            {
                propertyFilter->resultDefinition->setResultVariable(RimDefines::undefinedResultName());
                propertyFilter->resultDefinition->loadResult();
                propertyFilter->setToDefaultValues();

                rebuildDisplayModel = true;
            }
        }

        if (rebuildDisplayModel)
        {
            reservoirViews()[i]->createDisplayModelAndRedraw();
        }


        // TODO
        // CellEdgeResults are not considered, as they do not support display of input properties yet
    }
}
Exemplo n.º 2
0
//--------------------------------------------------------------------------------------------------
/// 
//--------------------------------------------------------------------------------------------------
void RivCrossSectionPartMgr::updateCellResultColor(size_t timeStepIndex)
{
    if (m_crossSectionGenerator.isNull()) return;

    if (!m_crossSectionGenerator->isAnyGeometryPresent()) return;

    RimEclipseView* eclipseView;
    m_rimCrossSection->firstAnchestorOrThisOfType(eclipseView);

    if (eclipseView)
    {
        RimEclipseCellColors* cellResultColors = eclipseView->cellResult();
        CVF_ASSERT(cellResultColors);

        RifReaderInterface::PorosityModelResultType porosityModel = RigCaseCellResultsData::convertFromProjectModelPorosityModel(cellResultColors->porosityModel());
        RigCaseData* eclipseCase = eclipseView->eclipseCase()->reservoirData();

        // CrossSections
        if (m_crossSectionFaces.notNull())
        {
            if (cellResultColors->isTernarySaturationSelected())
            {
                RivTernaryTextureCoordsCreator texturer(cellResultColors, cellResultColors->ternaryLegendConfig(), timeStepIndex);
                
                texturer.createTextureCoords(m_crossSectionFacesTextureCoords.p(), m_crossSectionGenerator->triangleToCellIndex());

                const RivTernaryScalarMapper* mapper = cellResultColors->ternaryLegendConfig()->scalarMapper();
                RivScalarMapperUtils::applyTernaryTextureResultsToPart(m_crossSectionFaces.p(),
                                                                       m_crossSectionFacesTextureCoords.p(),
                                                                       mapper,
                                                                       1.0,
                                                                       caf::FC_NONE,
                                                                       eclipseView->isLightingDisabled());
            }
            else
            {
                CVF_ASSERT(m_crossSectionGenerator.notNull());

                const cvf::ScalarMapper* mapper = cellResultColors->legendConfig()->scalarMapper();
                cvf::ref<RigResultAccessor> resultAccessor;

                if (RimDefines::isPerCellFaceResult(cellResultColors->resultVariable()))
                {
                    resultAccessor = new RigHugeValResultAccessor;
                }
                else
                {
                    resultAccessor = RigResultAccessorFactory::createResultAccessor(cellResultColors->reservoirView()->eclipseCase()->reservoirData(),
                                                                                    0,
                                                                                    timeStepIndex,
                                                                                    cellResultColors);
                }

                RivCrossSectionPartMgr::calculateEclipseTextureCoordinates(m_crossSectionFacesTextureCoords.p(),
                                                                            m_crossSectionGenerator->triangleToCellIndex(),
                                                                            resultAccessor.p(),
                                                                            mapper);


                RivScalarMapperUtils::applyTextureResultsToPart(m_crossSectionFaces.p(),
                                                                m_crossSectionFacesTextureCoords.p(),
                                                                mapper,
                                                                1.0,
                                                                caf::FC_NONE,
                                                                eclipseView->isLightingDisabled());
                }
        }
    }

    RimGeoMechView* geoView;
    m_rimCrossSection->firstAnchestorOrThisOfType(geoView);

    if (geoView)
    {
        RimGeoMechCellColors* cellResultColors = geoView->cellResult();
        RigGeoMechCaseData* caseData = cellResultColors->ownerCaseData();
        
        if (!caseData) return;

        RigFemResultAddress      resVarAddress = cellResultColors->resultAddress();

        // Do a "Hack" to show elm nodal and not nodal POR results
        if (resVarAddress.resultPosType == RIG_NODAL && resVarAddress.fieldName == "POR-Bar") resVarAddress.resultPosType = RIG_ELEMENT_NODAL;

        const std::vector<RivVertexWeights> &vertexWeights = m_crossSectionGenerator->triangleVxToCellCornerInterpolationWeights();
        const std::vector<float>& resultValues             = caseData->femPartResults()->resultValues(resVarAddress, 0, (int)timeStepIndex);
        bool isElementNodalResult                          = !(resVarAddress.resultPosType == RIG_NODAL);
        RigFemPart* femPart                                = caseData->femParts()->part(0);
        const cvf::ScalarMapper* mapper                    = cellResultColors->legendConfig()->scalarMapper();

        RivCrossSectionPartMgr::calculateGeoMechTextureCoords(m_crossSectionFacesTextureCoords.p(), 
                                                              vertexWeights, 
                                                              resultValues, 
                                                              isElementNodalResult, 
                                                              femPart, 
                                                              mapper);

        RivScalarMapperUtils::applyTextureResultsToPart(m_crossSectionFaces.p(), 
                                                        m_crossSectionFacesTextureCoords.p(), 
                                                        mapper, 
                                                        1.0, 
                                                        caf::FC_NONE, 
                                                        geoView->isLightingDisabled());
    }
}