Esempio n. 1
0
int XfemManager :: instanciateYourself(DataReader &dr)
{
    IRResultType result; // Required by IR_GIVE_FIELD macro
    std :: string name;

    enrichmentItemList.resize(numberOfEnrichmentItems);
    for ( int i = 1; i <= numberOfEnrichmentItems; i++ ) {
        InputRecord *mir = dr.giveInputRecord(DataReader :: IR_enrichItemRec, i);
        result = mir->giveRecordKeywordField(name);

        if ( result != IRRT_OK ) {
            mir->report_error(this->giveClassName(), __func__, "", result, __FILE__, __LINE__);
        }

        std :: unique_ptr< EnrichmentItem >ei( classFactory.createEnrichmentItem( name.c_str(), i, this, this->giveDomain() ) );
        if ( ei.get() == NULL ) {
            OOFEM_ERROR( "unknown enrichment item (%s)", name.c_str() );
        }

        ei->initializeFrom(mir);
        ei->instanciateYourself(dr);
        this->enrichmentItemList [ i - 1 ] = std :: move(ei);
    }

    mNucleationCriteria.resize(numberOfNucleationCriteria);
    for ( int i = 1; i <= numberOfNucleationCriteria; i++ ) {
        InputRecord *mir = dr.giveInputRecord(DataReader :: IR_crackNucleationRec, i);
        result = mir->giveRecordKeywordField(name);

        if ( result != IRRT_OK ) {
            mir->report_error(this->giveClassName(), __func__, "", result, __FILE__, __LINE__);
        }

        std :: unique_ptr< NucleationCriterion >nc( classFactory.createNucleationCriterion( name.c_str(), this->giveDomain() ) );
        if ( nc.get() == NULL ) {
            OOFEM_ERROR( "Unknown nucleation criterion: (%s)", name.c_str() );
        }

        nc->initializeFrom(mir);
        nc->instanciateYourself(dr);
        this->mNucleationCriteria [ i - 1 ] = std :: move(nc);
    }


    updateNodeEnrichmentItemMap();

    return 1;
}
Esempio n. 2
0
int 
ContactManager :: instanciateYourself(DataReader *dr)
{
    IRResultType result = IRRT_OK; // Required by IR_GIVE_FIELD macro
    std :: string name;

    // Create and instantiate contact definitions
    for ( int i = 1; i <= this->giveNumberOfContactDefinitions(); i++ ) {
        InputRecord *ir = dr->giveInputRecord(DataReader :: IR_contactDefRec, i);
        result = ir->giveRecordKeywordField(name);  
        this->contactDefinitionList[i-1].reset( classFactory.createContactDefinition( name.c_str(), this ) );
        if ( this->contactDefinitionList[i-1] ) {
            this->contactDefinitionList[i-1]->initializeFrom(ir);
            this->contactDefinitionList[i-1]->instanciateYourself(dr);
        } else {
            OOFEM_ERROR("Failed to create contact definition (%s)", name.c_str() );
        }
    }

    return result;
}
Esempio n. 3
0
EngngModel *InstanciateProblem(DataReader *dr, problemMode mode, int contextFlag, EngngModel *_master, bool parallelFlag)
{
    const char *__proc = "InstanciateProblem"; // Required by IR_GIVE_FIELD macro
    IRResultType result;                       // Required by IR_GIVE_FIELD macro
    EngngModel *problem;
    std::string problemName, dataOutputFileName, desc;

    dataOutputFileName = dr->giveOutputFileName();
    desc = dr->giveDescription();

    /* here we need copy of input record. The pointer returned by dr->giveInputRecord can (and will)
     * be updated as reading e-model components (nodes, etc). But we need this record being available
     * through the whole e-model instanciation
     */
    InputRecord *emodelir = dr->giveInputRecord(DataReader :: IR_emodelRec, 1)->GiveCopy();
    result = emodelir->giveRecordKeywordField(problemName); ///@todo Make this function robust, it can't be allowed to fail (the record keyword is not a normal field-id)
    if ( result != IRRT_OK ) {
        IR_IOERR("", __proc, "", emodelir, result);
    }

    problem = classFactory.createEngngModel(problemName.c_str(), 1, _master);
    if (!problem) {
        OOFEM_ERROR2("EngngModel::InstanciateProblem - Failed to construct engineering model if type \"%s\".\n", problemName.c_str());
    }
    problem->setProblemMode(mode);
    problem->setParallelMode(parallelFlag);

    if ( contextFlag ) {
        problem->setContextOutputMode(COM_Always);
    }

    problem->instanciateYourself(dr, emodelir, dataOutputFileName.c_str(), desc.c_str());

    delete emodelir;

    return problem;
}
Esempio n. 4
0
int Delamination :: instanciateYourself(DataReader *dr)
{
    IRResultType result; // Required by IR_GIVE_FIELD macro
    std :: string name;

    // Instantiate enrichment function
    InputRecord *mir = dr->giveInputRecord(DataReader :: IR_enrichFuncRec, 1);
    result = mir->giveRecordKeywordField(name);

    if ( result != IRRT_OK ) {
        mir->report_error(this->giveClassName(), __func__, "", result, __FILE__, __LINE__);
    }

    mpEnrichmentFunc = classFactory.createEnrichmentFunction( name.c_str(), 1, this->giveDomain() );
    if ( mpEnrichmentFunc != NULL ) {
        mpEnrichmentFunc->initializeFrom(mir);
    } else {
        OOFEM_ERROR( "failed to create enrichment function (%s)", name.c_str() );
    }


    // Instantiate enrichment domain
    mir = dr->giveInputRecord(DataReader :: IR_geoRec, 1);
    result = mir->giveRecordKeywordField(name);
    if ( result != IRRT_OK ) {
        mir->report_error(this->giveClassName(), __func__, "", result, __FILE__, __LINE__);
    }

    IntArray idList;
    IR_GIVE_FIELD(mir, idList, _IFT_ListBasedEI_list);
    for ( int i = 1; i <= idList.giveSize(); i++ ) {
        this->dofManList.push_back( idList.at(i) );
    }

    std :: sort( dofManList.begin(), this->dofManList.end() );
    //IR_GIVE_FIELD(ir, this->xi, _IFT_DofManList_DelaminationLevel);

    // Instantiate EnrichmentFront
    if ( mEnrFrontIndex == 0 ) {
        mpEnrichmentFrontStart = new EnrFrontDoNothing();
        mpEnrichmentFrontEnd = new EnrFrontDoNothing();
    } else {
        std :: string enrFrontNameStart, enrFrontNameEnd;

        InputRecord *enrFrontStartIr = dr->giveInputRecord(DataReader :: IR_enrichFrontRec, mEnrFrontIndex);
        result = enrFrontStartIr->giveRecordKeywordField(enrFrontNameStart);

        mpEnrichmentFrontStart = classFactory.createEnrichmentFront( enrFrontNameStart.c_str() );
        if ( mpEnrichmentFrontStart != NULL ) {
            mpEnrichmentFrontStart->initializeFrom(enrFrontStartIr);
        } else {
            OOFEM_ERROR( "Failed to create enrichment front (%s)", enrFrontNameStart.c_str() );
        }

        InputRecord *enrFrontEndIr = dr->giveInputRecord(DataReader :: IR_enrichFrontRec, mEnrFrontIndex);
        result = enrFrontEndIr->giveRecordKeywordField(enrFrontNameEnd);

        mpEnrichmentFrontEnd = classFactory.createEnrichmentFront( enrFrontNameEnd.c_str() );
        if ( mpEnrichmentFrontEnd != NULL ) {
            mpEnrichmentFrontEnd->initializeFrom(enrFrontEndIr);
        } else {
            OOFEM_ERROR( "Failed to create enrichment front (%s)", enrFrontNameEnd.c_str() );
        }
    }


    // Instantiate PropagationLaw
    if ( mPropLawIndex == 0 ) {
        mpPropagationLaw = new PLDoNothing();
    } else {
        std :: string propLawName;

        InputRecord *propLawir = dr->giveInputRecord(DataReader :: IR_propagationLawRec, mPropLawIndex);
        result = propLawir->giveRecordKeywordField(propLawName);

        mpPropagationLaw = classFactory.createPropagationLaw( propLawName.c_str() );
        if ( mpPropagationLaw != NULL ) {
            mpPropagationLaw->initializeFrom(propLawir);
        } else {
            OOFEM_ERROR( "Failed to create propagation law (%s)", propLawName.c_str() );
        }
    }

    // Set start of the enrichment dof pool for the given EI
    int xDofPoolAllocSize = this->giveDofPoolSize();
    this->startOfDofIdPool = this->giveDomain()->giveNextFreeDofID(xDofPoolAllocSize);
    this->endOfDofIdPool = this->startOfDofIdPool + xDofPoolAllocSize - 1;


    XfemManager *xMan = this->giveDomain()->giveXfemManager();
    //    mpEnrichmentDomain->CallNodeEnrMarkerUpdate(* this, * xMan);
    this->updateNodeEnrMarker(* xMan);


    writeVtkDebug();

    return 1;
}
Esempio n. 5
0
void StructuralFE2MaterialStatus :: copyStateVariables(const MaterialStatus &iStatus)
{
    //static int num = 0;
    //printf("Entering StructuralFE2MaterialStatus :: copyStateVariables.\n");

    this->oldTangent = true;

//    if ( !this->createRVE(this->giveNumber(), gp, mInputFile) ) {
//        OOFEM_ERROR("Couldn't create RVE");
//    }


    StructuralMaterialStatus :: copyStateVariables(iStatus);


    //////////////////////////////
    MaterialStatus &tmpStat = const_cast< MaterialStatus & >(iStatus);
    StructuralFE2MaterialStatus *fe2ms = dynamic_cast<StructuralFE2MaterialStatus*>(&tmpStat);

    if ( !fe2ms ) {
        OOFEM_ERROR("Failed to cast StructuralFE2MaterialStatus.")
    }


    this->mNewlyInitialized = fe2ms->mNewlyInitialized;

    // The proper way to do this would be to clone the RVE from iStatus.
    // However, this is a mess due to all pointers that need to be tracked.
    // Therefore, we consider a simplified version: copy only the enrichment items.

    Domain *ext_domain = fe2ms->giveRVE()->giveDomain(1);
    if ( ext_domain->hasXfemManager() ) {

        Domain *rve_domain = rve->giveDomain(1);

        XfemManager *ext_xMan = ext_domain->giveXfemManager();
        XfemManager *this_xMan = rve->giveDomain(1)->giveXfemManager();
        DynamicDataReader dataReader("fe2");
        if ( ext_xMan != NULL ) {

            IRResultType result; // Required by IR_GIVE_FIELD macro
            std::vector<std::unique_ptr<EnrichmentItem>> eiList;

            //DynamicInputRecord *xmanRec = new DynamicInputRecord();
            //ext_xMan->giveInputRecord(* xmanRec);
            //dataReader.insertInputRecord(DataReader :: IR_xfemManRec, xmanRec);

            // Enrichment items
            int nEI = ext_xMan->giveNumberOfEnrichmentItems();
            for ( int i = 1; i <= nEI; i++ ) {
                EnrichmentItem *ext_ei = ext_xMan->giveEnrichmentItem(i);
                ext_ei->appendInputRecords(dataReader);


                InputRecord *mir = dataReader.giveInputRecord(DataReader :: IR_enrichItemRec, i);
                std :: string name;
                result = mir->giveRecordKeywordField(name);

                if ( result != IRRT_OK ) {
                    mir->report_error(this->giveClassName(), __func__, "", result, __FILE__, __LINE__);
                }

                std :: unique_ptr< EnrichmentItem >ei( classFactory.createEnrichmentItem( name.c_str(), i, this_xMan, rve_domain ) );
                if ( ei.get() == NULL ) {
                    OOFEM_ERROR( "unknown enrichment item (%s)", name.c_str() );
                }

                ei->initializeFrom(mir);
                ei->instanciateYourself(dataReader);
                eiList.push_back( std :: move(ei) );

            }

            this_xMan->clearEnrichmentItems();
            this_xMan->appendEnrichmentItems(eiList);

            rve_domain->postInitialize();
            rve->forceEquationNumbering();
        }

    }

    //printf("done.\n");

#if 0
    Domain *newDomain = fe2ms->giveRVE()->giveDomain(1)->Clone();
    newDomain->SetEngngModel(rve.get());
    bool deallocateOld = true;
    rve->setDomain(1, newDomain, deallocateOld);

    //rve->giveDomain(1)->postInitialize();
    rve->giveNumericalMethod(NULL)->setDomain(newDomain);

    rve->postInitialize();
    //rve->forceEquationNumbering();

    rve->initMetaStepAttributes( rve->giveMetaStep(1) );
    rve->giveNextStep(); // Makes sure there is a timestep (which we will modify before solving a step)
    rve->init();


//    std :: ostringstream name;
//    name << this->rve->giveOutputBaseFileName() << "-gp" << n;
//    this->rve->letOutputBaseFileNameBe( name.str() );
//    n++;

    double crackLength = 0.0;
    XfemStructureManager *xMan = dynamic_cast<XfemStructureManager*>( rve->giveDomain(1)->giveXfemManager() );
    if ( xMan ) {
        crackLength = xMan->computeTotalCrackLength();
    }

    std :: ostringstream name;
    name << this->rve->giveOutputBaseFileName() << "-gp" << num << "crackLength" << crackLength;
    if ( this->domain->giveEngngModel()->isParallel() && this->domain->giveEngngModel()->giveNumberOfProcesses() > 1 ) {
        name << "." << this->domain->giveEngngModel()->giveRank();
    }

    num++;

    this->rve->letOutputBaseFileNameBe( name.str() );


    // Update BC
    this->bc = dynamic_cast< PrescribedGradientHomogenization * >( this->rve->giveDomain(1)->giveBc(1) );

#if 1

    XfemSolverInterface *xfemSolInt = dynamic_cast<XfemSolverInterface*>(rve.get());
    StaticStructural *statStruct = dynamic_cast<StaticStructural*>(rve.get());
    if ( xfemSolInt && statStruct ) {
        //printf("Successfully casted to XfemSolverInterface.\n");

        TimeStep *tStep = rve->giveCurrentStep();

        EModelDefaultEquationNumbering num;
        int numDofsNew = rve->giveNumberOfDomainEquations( 1, num );
        FloatArray u;
        u.resize(numDofsNew);
        u.zero();

        xfemSolInt->xfemUpdatePrimaryField(*statStruct, tStep, u);

        // Set domain pointer to various components ...
        rve->giveNumericalMethod(NULL)->setDomain(newDomain);
        //ioEngngModel.nMethod->setDomain(domain);

    }

//    TimeStep *tStep = rve->giveNextStep();
//    setTimeStep(tStep);
//    rve->solveYourselfAt(tStep);


    int numExpModules = rve->giveExportModuleManager()->giveNumberOfModules();
    for ( int i = 1; i <= numExpModules; i++ ) {
        //  ... by diving deep into the hierarchies ... :-/
        VTKXMLExportModule *vtkxmlMod = dynamic_cast< VTKXMLExportModule * >( rve->giveExportModuleManager()->giveModule(i) );
        if ( vtkxmlMod != NULL ) {
            vtkxmlMod->giveSmoother()->setDomain(newDomain);
            vtkxmlMod->givePrimVarSmoother()->setDomain(newDomain);
        }
    }
#endif
#endif
}