Esempio n. 1
0
void
EnrichmentItem :: computeEnrichedDofManDofIdArray(IntArray &oDofIdArray, DofManager &iDMan)
{
    // Gives an array containing the dofId's that
    // are candidates for enrichment. At the moment,
    // regular dofs are considered as candidates. In
    // the future, we may also consider enriching
    // enriched dofs from other enrichment items.
    const IntArray *enrichesDofsWithIdArray = this->giveEnrichesDofsWithIdArray();

    // Number of candidates for enrichment
    int numEnrCand = enrichesDofsWithIdArray->giveSize();

    // Number of active enrichment functions
    int numEnrFunc = this->giveNumDofManEnrichments(iDMan);

    // Go through the list of dofs that the EI supports
    // and compare with the available dofs in the dofMan.
    int count = 0;

    for ( int i = 1; i <= numEnrFunc; i++ ) {
        for ( int j = 1; j <= numEnrCand; j++ ) {
            if ( iDMan.hasDofID( ( DofIDItem ) enrichesDofsWithIdArray->at(j) ) ) {
                count++;
            }
        }
    }

    oDofIdArray.resize(count);
    for ( int i = 1; i <= count; i++ ) {
        oDofIdArray.at(i) = this->giveStartOfDofIdPool() + i - 1;
    }
}
Esempio n. 2
0
IntArray XfemManager :: giveEnrichedDofIDs(const DofManager &iDMan) const
{
    IntArray dofIdArray;

    for(int id : mXFEMPotentialDofIDs) {
    	if(iDMan.hasDofID( DofIDItem(id) )) {
    		dofIdArray.followedBy(id);
    	}
    }

    return dofIdArray;
}
void
StructuralInterfaceElementPhF :: computeLocationArrayOfDofIDs( const IntArray &dofIdArray, IntArray &answer )
{
    // Routine to compute the local ordering array an element given a dofid array.
    answer.resize( 0 );
    int k = 0;
    for(int i = 1; i <= this->giveNumberOfDofManagers(); i++) {
        DofManager *dMan = this->giveDofManager( i );
        for(int j = 1; j <= dofIdArray.giveSize( ); j++) {

            if(dMan->hasDofID( (DofIDItem) dofIdArray.at( j ) )) {
                // hack
                
                answer.followedBy( k + j );
            }
        }
        k += dMan->giveNumberOfDofs( );
    }
}
Esempio n. 4
0
void
PhaseFieldElement :: computeLocationArrayOfDofIDs( const IntArray &dofIdArray, IntArray &answer )
{
    // Routine to extract compute the location array an element given an dofid array.
    answer.clear();
    NLStructuralElement *el = this->giveElement();
    int k = 0;
    for ( int i = 1; i <= el->giveNumberOfDofManagers(); i++ ) {
        DofManager *dMan = el->giveDofManager( i );
        for ( int j = 1; j <= dofIdArray.giveSize( ); j++ ) {

            if ( dMan->hasDofID( (DofIDItem) dofIdArray.at( j ) ) ) {
                Dof *d = dMan->giveDofWithID( dofIdArray.at( j ) );
                answer.followedBy( k + d->giveNumber( ) );
            }
        }
        k += dMan->giveNumberOfDofs( );
    }
}
Esempio n. 5
0
void
CoupledFieldsElement :: computeLocationArrayOfDofIDs(const IntArray &dofIdArray, IntArray &answer)
{
    // Routine to extract compute the location array an element given an dofid array.
    answer.resize(0);
    
    int k = 0;
    for ( int i = 1; i <= numberOfDofMans; i++ ) {
        DofManager *dMan = this->giveDofManager(i);        
        for (int j = 1; j <= dofIdArray.giveSize(); j++ ) {   
            
            if ( dMan->hasDofID( (DofIDItem) dofIdArray.at(j) ) ) {
                Dof *d = dMan->giveDofWithID( dofIdArray.at(j) );
                answer.followedBy( k + d->giveNumber() );
                //answer.followedBy( k + j );
            }
        }
        k += dMan->giveNumberOfDofs( );
    }
}
Esempio n. 6
0
void
CoupledFieldsElement :: computeVectorOfDofIDs(const IntArray &dofIdArray, ValueModeType valueMode, TimeStep *stepN, FloatArray &answer)
{
    // Routine to extract the solution vector for an element given an dofid array.
    // Size will be numberOfDofs and if a certain dofId does not exist a zero is used as value. 
    
    answer.resize( numberOfDofMans * dofIdArray.giveSize() ); // equal number of nodes for all fields
    answer.zero();
    int k = 1;
    for ( int i = 1; i <= numberOfDofMans; i++ ) {
        DofManager *dMan = this->giveDofManager(i);        
        for (int j = 1; j <= dofIdArray.giveSize(); j++ ) {   
            
            if ( dMan->hasDofID( (DofIDItem) dofIdArray.at(j) ) ) {
                Dof *d = dMan->giveDofWithID( dofIdArray.at(j) );
                answer.at(k) = d->giveUnknown(valueMode, stepN);
            }
            k++;
        }
    }
}
Esempio n. 7
0
void 
ContactDefinition :: createContactDofs()
{
    // Creates new dofs due associated with the contact (Lagrange multipliers) and appends them to the dof managers
// Creates new dofs due associated with the contact (Lagrange multipliers) and appends them to the dof managers

    //TODO This is a bit ugly, find a better solution than asking the contact el
    if ( int numDofs = this->giveNumberOfConstraintEqToAdd() ) {
        
        // get an array with dof ids' to append to 
        IntArray dofIdArray(numDofs), dofMans;
        for ( int i = 1; i <= numDofs; i++ ) {
            dofIdArray.at(i) = this->cMan->giveDomain()->giveNextFreeDofID();
        }
        
        
        
        for ( ContactElement *cEl : this->masterElementList ) { 
            
            cEl->giveDofManagersToAppendTo(dofMans);
            if ( dofMans.giveSize() ) { // if the contact element adds extra dofs, store them. Maybe just store in cDef?
                cEl->setDofIdArray(dofIdArray);
            }
            
            for ( int i = 1; i <= dofMans.giveSize(); i++ ) {
                DofManager *dMan = this->cMan->giveDomain()->giveDofManager(dofMans.at(i));
                for ( auto &dofid: dofIdArray ) {
                    if ( !dMan->hasDofID( ( DofIDItem ) ( dofid ) ) ) {
                    
                        dMan->appendDof( new MasterDof( dMan, ( DofIDItem ) dofid ) );
                    }
                }
              
            }
        }  
    }
}
Esempio n. 8
0
void EnrichmentItem :: createEnrichedDofs()
{
    // Creates new dofs due to the enrichment and appends them to the dof managers

    int nrDofMan = this->giveDomain()->giveNumberOfDofManagers();
    IntArray EnrDofIdArray;

    mEIDofIdArray.clear();

    //int bcIndex = -1;
    int icIndex = -1;

    // Create new dofs
    for ( int i = 1; i <= nrDofMan; i++ ) {
        DofManager *dMan = this->giveDomain()->giveDofManager(i);

        if ( isDofManEnriched(* dMan) ) {
            //printf("dofMan %i is enriched \n", dMan->giveNumber());
            computeEnrichedDofManDofIdArray(EnrDofIdArray, * dMan);
            
            // Collect boundary condition ID of existing dofs
            IntArray bcIndexArray;
            for ( Dof *dof: *dMan ) {
                bcIndexArray.followedBy(dof->giveBcId());
            }    
            
            bool foundBC = false;
            IntArray nonZeroBC;
            if ( !bcIndexArray.containsOnlyZeroes() ) {
                // BC is found on dofs  
                foundBC = true;
                nonZeroBC.findNonzeros(bcIndexArray);
            }             
            
            int iDof(1);
            for ( auto &dofid: EnrDofIdArray ) {
                if ( !dMan->hasDofID( ( DofIDItem ) ( dofid ) ) ) {
                    if ( mInheritBoundaryConditions || mInheritOrderedBoundaryConditions ) {

                        if ( foundBC ) {
                            // Append dof with BC
                            if ( mInheritOrderedBoundaryConditions ) {
                                ///TODO: add choise of inheriting only specific BC. 
                                // Assume order type of new dofs are the same as original 
                                dMan->appendDof( new MasterDof(dMan, bcIndexArray.at(iDof), icIndex, ( DofIDItem ) dofid) );
                            } else {
                                // Append enriched dofs with same BC 
                                dMan->appendDof( new MasterDof(dMan, bcIndexArray.at(nonZeroBC.at(1)), icIndex, ( DofIDItem ) dofid) );
                            }
                        } else {
                            // No BC found, append enriched dof without BC
                            dMan->appendDof( new MasterDof(dMan, ( DofIDItem ) dofid) );
                        }
                    } else {
                        // Append enriched dof without BC
                        dMan->appendDof( new MasterDof(dMan, ( DofIDItem ) dofid) );
                    }
                }
                iDof++;
            }
        }
    }

    // Remove old dofs
    int poolStart       = giveStartOfDofIdPool();
    int poolEnd         = giveEndOfDofIdPool();

    for ( int i = 1; i <= nrDofMan; i++ ) {
        DofManager *dMan = this->giveDomain()->giveDofManager(i);

        computeEnrichedDofManDofIdArray(EnrDofIdArray, * dMan);
        std :: vector< DofIDItem >dofsToRemove;
        for ( Dof *dof: *dMan ) {
            DofIDItem dofID = dof->giveDofID();

            if ( dofID >= DofIDItem(poolStart) && dofID <= DofIDItem(poolEnd) ) {
                bool dofIsInIdArray = false;
                for ( int k = 1; k <= EnrDofIdArray.giveSize(); k++ ) {
                    if ( dofID == DofIDItem( EnrDofIdArray.at(k) ) ) {
                        dofIsInIdArray = true;
                        break;
                    }
                }

                if ( !dofIsInIdArray ) {
                    dofsToRemove.push_back(dofID);
                }


                if(mEIDofIdArray.findFirstIndexOf(dofID) == 0 && dofIsInIdArray) {
                	mEIDofIdArray.followedBy(dofID);
                }
            }
        }

        for ( size_t j = 0; j < dofsToRemove.size(); j++ ) {
            dMan->removeDof(dofsToRemove [ j ]);
        }
    }
}