Exemplo n.º 1
0
int NonlocalMaterialWTP :: unpackMigratingElementDependencies(Domain *d, ProcessCommunicator &pc)
{
    int myrank = d->giveEngngModel()->giveRank();
    int iproc = pc.giveRank();
    int _globnum;

    if ( iproc == myrank ) {
        return 1;                // skip local partition
    }

    // query process communicator to use
    ProcessCommunicatorBuff *pcbuff = pc.giveProcessCommunicatorBuff();
    ProcessCommDataStream pcDataStream(pcbuff);

    // unpack element data
    do {
        pcbuff->unpackInt(_globnum);
        if ( _globnum == NonlocalMaterialWTP_END_DATA ) {
            break;
        }

        pcbuff->unpackIntArray(nonlocElementDependencyMap [ _globnum ]);
    } while ( 1 );

    return 1;
}
Exemplo n.º 2
0
int NonlocalMaterialWTP :: packMigratingElementDependencies(Domain *d, ProcessCommunicator &pc)
{
    int myrank = d->giveEngngModel()->giveRank();
    int iproc = pc.giveRank();

    if ( iproc == myrank ) {
        return 1;                // skip local partition
    }

    // query process communicator to use
    ProcessCommunicatorBuff *pcbuff = pc.giveProcessCommunicatorBuff();
    ProcessCommDataStream pcDataStream(pcbuff);

    int ielem, nelem = d->giveNumberOfElements();
    int _globnum;
    Element *elem;

    for ( ielem = 1; ielem <= nelem; ielem++ ) { // begin loop over elements
        elem = d->giveElement(ielem);
        if ( ( elem->giveParallelMode() == Element_local ) &&
            ( lb->giveElementPartition(ielem) == iproc ) ) {
            // pack local element (node numbers shuld be global ones!!!)
            // pack type
            _globnum = elem->giveGlobalNumber();
            pcbuff->packInt(_globnum);
            pcbuff->packIntArray(nonlocElementDependencyMap [ _globnum ]);
        }
    } // end loop over elements

    // pack end-of-element-record
    pcbuff->packInt(NonlocalMaterialWTP_END_DATA);

    return 1;
}
Exemplo n.º 3
0
int NonlocalMaterialWTP :: packRemoteElements(Domain *d, ProcessCommunicator &pc)
{
    int myrank = d->giveEngngModel()->giveRank();
    int iproc = pc.giveRank();
    int nnodes, inode;
    DofManager *node, *dofman;
    Element *elem;

    if ( iproc == myrank ) {
        return 1;                // skip local partition
    }

    // query process communicator to use
    ProcessCommunicatorBuff *pcbuff = pc.giveProcessCommunicatorBuff();
    ProcessCommDataStream pcDataStream(pcbuff);

    // here we have to pack also nodes that are shared by packed elements !!!
    // assemble set of nodes needed by those elements
    // these have to be send (except those that are shared)
    std :: set< int >nodesToSend;
    for ( int ie: toSendList [ iproc ] ) {
        //ie = d->elementGlobal2Local(gie);
        elem = d->giveElement(ie);
        nnodes = elem->giveNumberOfDofManagers();
        for ( int i = 1; i <= nnodes; i++ ) {
            node = elem->giveDofManager(i);
            if ( ( node->giveParallelMode() == DofManager_local ) ||
                ( node->isShared() && !node->givePartitionList()->contains(iproc) ) ) {
                nodesToSend.insert( node->giveGlobalNumber() );
            }
        }
    }

    // pack nodes that become null nodes on remote partition
    for ( int in: nodesToSend ) {
        inode = d->dofmanGlobal2Local(in);
        dofman = d->giveDofManager(inode);
        pcbuff->packString( dofman->giveInputRecordName() );
        dofman->saveContext(& pcDataStream, CM_Definition | CM_State | CM_UnknownDictState);
    }

    pcbuff->packString("");

    for ( int ie: toSendList [ iproc ] ) {
        //ie = d->elementGlobal2Local(gie);
        elem = d->giveElement(ie);
        // pack local element (node numbers shuld be global ones!!!)
        // pack type
        pcbuff->packString( elem->giveInputRecordName() );
        elem->saveContext(& pcDataStream, CM_Definition | CM_DefinitionGlobal | CM_State);
    }

    pcbuff->packString("");


    return 1;
}
Exemplo n.º 4
0
int NonlocalMaterialWTP :: unpackRemoteElements(Domain *d, ProcessCommunicator &pc)
{
    int myrank = d->giveEngngModel()->giveRank();
    int iproc = pc.giveRank();
    std :: string _type;
    DofManager *dofman;
    IntArray _partitions;

    if ( iproc == myrank ) {
        return 1;                // skip local partition
    }

    // query process communicator to use
    ProcessCommunicatorBuff *pcbuff = pc.giveProcessCommunicatorBuff();
    ProcessCommDataStream pcDataStream(pcbuff);

    // unpack dofman data
    do {
        pcbuff->unpackString(_type);
        if ( _type.size() == 0 ) {
            break;
        }
        dofman = classFactory.createDofManager(_type.c_str(), 0, d);
        dofman->restoreContext(& pcDataStream, CM_Definition | CM_State | CM_UnknownDictState);
        dofman->setParallelMode(DofManager_null);
        if ( d->dofmanGlobal2Local( dofman->giveGlobalNumber() ) ) {
            // record already exist
            delete dofman;
        } else {
            d->giveTransactionManager()->addDofManTransaction(DomainTransactionManager :: DTT_ADD,
                                                              dofman->giveGlobalNumber(),
                                                              dofman);
        }
    } while ( 1 );


    // unpack element data
    Element *elem;
    _partitions.resize(1);
    _partitions.at(1) = iproc;
    do {
        pcbuff->unpackString(_type);
        if ( _type.size() == 0 ) {
            break;
        }

        elem = classFactory.createElement(_type.c_str(), 0, d);
        elem->restoreContext(& pcDataStream, CM_Definition | CM_State);
        elem->setParallelMode(Element_remote);
        elem->setPartitionList(_partitions);
        d->giveTransactionManager()->addElementTransaction(DomainTransactionManager :: DTT_ADD,
                                                           elem->giveGlobalNumber(), elem);
    } while ( 1 );

    return 1;
}
Exemplo n.º 5
0
int
LoadBalancer :: unpackMigratingData(Domain *d, ProcessCommunicator &pc)
{
    // create temp space for dofManagers and elements
    // merging should be made by domain ?
    // maps of new dofmanagers and elements indexed by global number

    // we can put local dofManagers and elements into maps (should be done before unpacking)
    // int nproc=this->giveEngngModel()->giveNumberOfProcesses();
    int myrank = d->giveEngngModel()->giveRank();
    int iproc = pc.giveRank();
    int _mode, _globnum, _type;
    bool _newentry;
    classType _etype;
    IntArray _partitions, local_partitions;
    //LoadBalancer::DofManMode dmode;
    DofManager *dofman;
    DomainTransactionManager *dtm = d->giveTransactionManager();

    //  **************************************************
    //  Unpack migrating data to remote partition
    //  **************************************************

    if ( iproc == myrank ) {
        return 1;                // skip local partition
    }

    // query process communicator to use
    ProcessCommunicatorBuff *pcbuff = pc.giveProcessCommunicatorBuff();
    ProcessCommDataStream pcDataStream(pcbuff);

    pcbuff->unpackInt(_type);
    // unpack dofman data
    while ( _type != LOADBALANCER_END_DATA ) {
        _etype = ( classType ) _type;
        pcbuff->unpackInt(_mode);
        switch ( _mode ) {
        case LoadBalancer :: DM_Remote:
            // receiving new local dofManager
            pcbuff->unpackInt(_globnum);
            /*
             * _newentry = false;
             * if ( ( dofman = dtm->giveDofManager(_globnum) ) == NULL ) {
             *  // data not available -> create a new one
             *  _newentry = true;
             *  dofman = CreateUsrDefDofManagerOfType(_etype, 0, d);
             * }
             */
            _newentry = true;
            dofman = CreateUsrDefDofManagerOfType(_etype, 0, d);

            dofman->setGlobalNumber(_globnum);
            // unpack dofman state (this is the local dofman, not available on remote)
            dofman->restoreContext(& pcDataStream, CM_Definition | CM_DefinitionGlobal | CM_State | CM_UnknownDictState);
            // unpack list of new partitions
            pcbuff->unpackIntArray(_partitions);
            dofman->setPartitionList(& _partitions);
            dofman->setParallelMode(DofManager_local);
            // add transaction if new entry allocated; otherwise existing one has been modified via returned dofman
            if ( _newentry ) {
                dtm->addTransaction(DomainTransactionManager :: DTT_ADD, DomainTransactionManager :: DCT_DofManager, _globnum, dofman);
            }

            //dmanMap[_globnum] = dofman;
            break;

        case LoadBalancer :: DM_Shared:
            // receiving new shared dofManager, that was local on sending partition
            // should be received only once (from partition where was local)
            pcbuff->unpackInt(_globnum);
            /*
             * _newentry = false;
             * if ( ( dofman = dtm->giveDofManager(_globnum) ) == NULL ) {
             *  // data not available -> mode should be SharedUpdate
             *  _newentry = true;
             *  dofman = CreateUsrDefDofManagerOfType(_etype, 0, d);
             * }
             */
            _newentry = true;
            dofman = CreateUsrDefDofManagerOfType(_etype, 0, d);


            dofman->setGlobalNumber(_globnum);
            // unpack dofman state (this is the local dofman, not available on remote)
            dofman->restoreContext(& pcDataStream, CM_Definition | CM_DefinitionGlobal | CM_State | CM_UnknownDictState);
            // unpack list of new partitions
            pcbuff->unpackIntArray(_partitions);
            dofman->setPartitionList(& _partitions);
            dofman->setParallelMode(DofManager_shared);
#ifdef __VERBOSE_PARALLEL
            fprintf(stderr, "[%d] received Shared new dofman [%d]\n", myrank, _globnum);
#endif
            // add transaction if new entry allocated; otherwise existing one has been modified via returned dofman
            if ( _newentry ) {
                dtm->addTransaction(DomainTransactionManager :: DTT_ADD, DomainTransactionManager :: DCT_DofManager, _globnum, dofman);
            }

            //dmanMap[_globnum] = dofman;
            break;

        default:
            OOFEM_ERROR2("LoadBalancer::unpackMigratingData: unexpected dof manager type (%d)", _type);
        }

        // get next type record
        pcbuff->unpackInt(_type);
    }

    ; // while (_type != LOADBALANCER_END_DATA);

    // unpack element data
    Element *elem;
    int nrecv = 0;
    do {
        pcbuff->unpackInt(_type);
        if ( _type == LOADBALANCER_END_DATA ) {
            break;
        }

        _etype = ( classType ) _type;
        elem = CreateUsrDefElementOfType(_etype, 0, d);
        elem->restoreContext(& pcDataStream, CM_Definition | CM_State);
        elem->initForNewStep();
        dtm->addTransaction(DomainTransactionManager :: DTT_ADD, DomainTransactionManager :: DCT_Element, elem->giveGlobalNumber(), elem);
        nrecv++;
        //recvElemList.push_back(elem);
    } while ( 1 );

    OOFEM_LOG_RELEVANT("[%d] LoadBalancer:: receiving %d migrating elements from %d\n", myrank, nrecv, iproc);

    return 1;
}
Exemplo n.º 6
0
int
LoadBalancer :: packMigratingData(Domain *d, ProcessCommunicator &pc)
{
    int myrank = d->giveEngngModel()->giveRank();
    int iproc = pc.giveRank();
    int idofman, ndofman;
    classType dtype;
    DofManager *dofman;
    LoadBalancer :: DofManMode dmode;

    //  **************************************************
    //  Pack migrating data to remote partition
    //  **************************************************

    // pack dofManagers
    if ( iproc == myrank ) {
        return 1;                // skip local partition
    }

    // query process communicator to use
    ProcessCommunicatorBuff *pcbuff = pc.giveProcessCommunicatorBuff();
    ProcessCommDataStream pcDataStream(pcbuff);
    // loop over dofManagers
    ndofman = d->giveNumberOfDofManagers();
    for ( idofman = 1; idofman <= ndofman; idofman++ ) {
        dofman = d->giveDofManager(idofman);
        dmode = this->giveDofManState(idofman);
        dtype = dofman->giveClassID();
        // sync data to remote partition
        // if dofman already present on remote partition then there is no need to sync
        //if ((this->giveDofManPartitions(idofman)->findFirstIndexOf(iproc))) {
        if ( ( this->giveDofManPartitions(idofman)->findFirstIndexOf(iproc) ) &&
            ( !dofman->givePartitionList()->findFirstIndexOf(iproc) ) ) {
            pcbuff->packInt(dtype);
            pcbuff->packInt(dmode);
            pcbuff->packInt( dofman->giveGlobalNumber() );

            // pack dofman state (this is the local dofman, not available on remote)
            /* this is a potential performance leak, sending shared dofman to a partition,
             * in which is already shared does not require to send context (is already there)
             * here for simplicity it is always send */
            dofman->saveContext(& pcDataStream, CM_Definition | CM_DefinitionGlobal | CM_State | CM_UnknownDictState);
            // send list of new partitions
            pcbuff->packIntArray( * ( this->giveDofManPartitions(idofman) ) );
        }
    }

    // pack end-of-dofman-section record
    pcbuff->packInt(LOADBALANCER_END_DATA);

    int ielem, nelem = d->giveNumberOfElements(), nsend = 0;

    Element *elem;

    for ( ielem = 1; ielem <= nelem; ielem++ ) { // begin loop over elements
        elem = d->giveElement(ielem);
        if ( ( elem->giveParallelMode() == Element_local ) &&
            ( this->giveElementPartition(ielem) == iproc ) ) {
            // pack local element (node numbers shuld be global ones!!!)
            // pack type
            pcbuff->packInt( elem->giveClassID() );
            // nodal numbers shuld be packed as global !!
            elem->saveContext(& pcDataStream, CM_Definition | CM_DefinitionGlobal | CM_State);
            nsend++;
        }
    } // end loop over elements

    // pack end-of-element-record
    pcbuff->packInt(LOADBALANCER_END_DATA);

    OOFEM_LOG_RELEVANT("[%d] LoadBalancer:: sending %d migrating elements to %d\n", myrank, nsend, iproc);

    return 1;
}