int
LoadPattern::sendSelf(int cTag, Channel &theChannel)
{
// get my current database tag
// NOTE - dbTag equals 0 if not sending to a database OR has not yet been sent
int myDbTag = this->getDbTag();
// into an ID we place all info needed to determine state of LoadPattern
int numNodLd, numEleLd, numSPs;
ID lpData(11);
numNodLd = theNodalLoads->getNumComponents();
numEleLd = theElementalLoads->getNumComponents();
numSPs = theSPs->getNumComponents();
lpData(10) = this->getTag();
lpData(0) = currentGeoTag;
lpData(1) = numNodLd;
lpData(2) = numEleLd;
lpData(3) = numSPs;
if (dbNod == 0) {
dbNod = theChannel.getDbTag();
dbEle = theChannel.getDbTag();
dbSPs = theChannel.getDbTag();
}
lpData(4) = dbNod;
lpData(5) = dbEle;
lpData(6) = dbSPs;
lpData(7) = isConstant;
if (theSeries != 0) {
int dbtag = theSeries->getDbTag();
int classtag = theSeries->getClassTag();
if (dbtag == 0) {
dbtag = theChannel.getDbTag();
theSeries->setDbTag(dbtag);
}
lpData(8) = classtag;
lpData(9) = dbtag;
} else
lpData(8) = -1;
// see if we can save sending the vector containing just the load factor
// will happen in parallel if sending the loadPattern .. not in database
if (theChannel.sendID(myDbTag, cTag, lpData) < 0) {
opserr << "LoadPattern::sendSelf - channel failed to send the initial ID\n";
return -1;
}
if (isConstant == 0) {
Vector data(2);
data(0) = loadFactor;
data(1) = scaleFactor;
if (theChannel.sendVector(myDbTag, cTag, data) < 0) {
opserr << "LoadPattern::sendSelf - channel failed to send the Vector\n";
return -2;
}
}
if (theSeries != 0)
if (theSeries->sendSelf(cTag, theChannel) < 0) {
opserr << "LoadPattern::sendSelf - the TimeSeries failed to send\n";
return -3;
}
// now check if data defining the objects in the LoadPAttern needs to be sent
// NOTE THIS APPROACH MAY NEED TO CHANGE FOR VERY LARGE PROBLEMS IF CHANNEL CANNOT
// HANDLE VERY LARGE ID OBJECTS.
/*
if (theChannel.isDatastore() == 1) {
static ID theLastSendTag(1);
if (theChannel.recvID(myDbTag,0,theLastSendTag) == 0)
lastGeoSendTag = theLastSendTag(0);
else
lastGeoSendTag = -1;
}
*/
if (lastChannel != theChannel.getTag() || lastGeoSendTag != currentGeoTag || theChannel.isDatastore() == 0) {
lastChannel = theChannel.getTag();
//
// into an ID we are gonna place the class and db tags for each node so can rebuild
// this ID we then send to the channel
//
// create the ID and get the node iter
if (numNodLd != 0) {
ID nodeData(numNodLd*2);
NodalLoad *theNode;
NodalLoadIter &theNodes = this->getNodalLoads();
int loc =0;
// loop over nodes in domain adding their classTag and dbTag to the ID
while ((theNode = theNodes()) != 0) {
nodeData(loc) = theNode->getClassTag();
int dbTag = theNode->getDbTag();
// if dbTag still 0 get one from Channel;
// if this tag != 0 set the dbTag in node
if (dbTag == 0 && myDbTag != 0) {// go get a new tag and setDbTag in ele if this not 0
dbTag = theChannel.getDbTag();
if (dbTag != 0)
theNode->setDbTag(dbTag);
}
nodeData(loc+1) = dbTag;
loc+=2;
}
// now send the ID
if (theChannel.sendID(dbNod, currentGeoTag, nodeData) < 0) {
opserr << "LoadPattern::sendSelf - channel failed to send the NodalLoads ID\n";
return -4;
}
}
// we do the same for elemental loads as we did for nodal loads above .. see comments above!
if (numEleLd != 0) {
ID elementData(numEleLd*2);
ElementalLoad *theEle;
ElementalLoadIter &theElements = this->getElementalLoads();
int loc = 0;
while ((theEle = theElements()) != 0) {
elementData(loc) = theEle->getClassTag();
int dbTag = theEle->getDbTag();
if (dbTag == 0 && myDbTag != 0) {// go get a new tag and setDbTag in ele if this not 0
dbTag = theChannel.getDbTag();
if (dbTag != 0)
theEle->setDbTag(dbTag);
}
elementData(loc+1) = dbTag;
loc+=2;
}
// now send the ID
if (theChannel.sendID(dbEle, currentGeoTag, elementData) < 0) {
opserr << "Domain::send - channel failed to send the element ID\n";
return -5;
}
}
// we do the same for SP_Constraints as for NodalLoads above .. see comments above!
if (numSPs != 0) {
ID spData(numSPs*2);
SP_Constraint *theSP;
SP_ConstraintIter &theSPs = this->getSPs();
int loc = 0;
while ((theSP = theSPs()) != 0) {
spData(loc) = theSP->getClassTag();
int dbTag = theSP->getDbTag();
if (dbTag == 0 && myDbTag != 0) {// go get a new tag and setDbTag in ele if this not 0
dbTag = theChannel.getDbTag();
if (dbTag != 0)
theSP->setDbTag(dbTag);
}
spData(loc+1) = dbTag;
loc+=2;
}
if (theChannel.sendID(dbSPs, currentGeoTag, spData) < 0) {
opserr << "LoadPAttern::sendSelf - channel failed sending SP_Constraint ID\n";
return -6;
}
}
// set the lst send db tag so we don't have to do all that again
lastGeoSendTag = currentGeoTag;
if (theChannel.isDatastore() == 1) {
static ID theLastSendTag(1);
theLastSendTag(0) = lastGeoSendTag;
theChannel.sendID(myDbTag,0, theLastSendTag);
}
}
// now we invoke sendSelf on all the NodalLoads, ElementalLoads and SP_Constraints
// which have been added to the LoadCase
NodalLoad *theNode;
NodalLoadIter &theNodes = this->getNodalLoads();
while ((theNode = theNodes()) != 0) {
if (theNode->sendSelf(cTag, theChannel) < 0) {
opserr << "LoadPattern::sendSelf - node with tag " << theNode->getTag() << " failed in sendSelf\n";
return -7;
}
}
ElementalLoad *theEle;
ElementalLoadIter &theElements = this->getElementalLoads();
while ((theEle = theElements()) != 0) {
if (theEle->sendSelf(cTag, theChannel) < 0) {
opserr << "LoadPattern::sendSelf - element with tag " << theEle->getTag() << " failed in sendSelf\n";
return -8;
}
}
SP_Constraint *theSP;
SP_ConstraintIter &theSPs = this->getSPs();
while ((theSP = theSPs()) != 0) {
if (theSP->sendSelf(cTag, theChannel) < 0) {
opserr << "LoadPattern::sendSelf - SP_Constraint: " << *theSP << " failed sendSelf\n";
return -9;
}
}
// if we get here we are successfull
return 0;
}
int
LoadPattern::recvSelf(int cTag, Channel &theChannel, FEM_ObjectBroker &theBroker)
{
// get my current database tag
// NOTE - dbTag equals 0 if not sending to a database OR has not yet been sent
int myDbTag = this->getDbTag();
// into an ID we place all info needed to determine state of LoadPattern
int numNod, numEle, numSPs;
ID lpData(11);
if (theChannel.recvID(myDbTag, cTag, lpData) < 0) {
opserr << "LoadPattern::recvSelf - channel failed to recv the initial ID\n";
return -1;
}
isConstant = lpData(7);
this->setTag(lpData(10));
if (isConstant == 0) { // we must recv the load factor in a Vector
Vector data(2);
if (theChannel.recvVector(myDbTag, cTag, data) < 0) {
opserr << "LoadPattern::recvSelf - channel failed to recv the Vector\n";
return -2;
}
loadFactor = data(0);
scaleFactor = data(1);
}
// read data about the time series
if (lpData(8) != -1) {
if (theSeries == 0) {
theSeries = theBroker.getNewTimeSeries(lpData(8));
} else if (theSeries->getClassTag() != lpData(8)) {
delete theSeries;
theSeries = theBroker.getNewTimeSeries(lpData(8));
}
if (theSeries == 0) {
opserr << "LoadPattern::recvSelf - failed to create TimeSeries\n";
return -3;
}
theSeries->setDbTag(lpData(9));
if (theSeries->recvSelf(cTag, theChannel, theBroker) < 0) {
opserr << "LoadPattern::recvSelf - the TimeSeries failed to recv\n";
return -3;
}
}
/*
if (theChannel.isDatastore() == 1) {
static ID theLastSendTag(1);
if (theChannel.recvID(myDbTag,0,theLastSendTag) == 0)
lastGeoSendTag = theLastSendTag(0);
}
*/
if (lastChannel != theChannel.getTag() || currentGeoTag != lpData(0) || theChannel.isDatastore() == 0) {
// clear out the all the components in the current load pattern
this->clearAll();
lastChannel = theChannel.getTag();
currentGeoTag = lpData(0);
numNod = lpData(1);
numEle = lpData(2);
numSPs = lpData(3);
dbNod = lpData(4);
dbEle = lpData(5);
dbSPs = lpData(6);
//
// now we rebuild the nodal loads
//
// first get the information from the domainData about the nodes
if (numNod != 0) {
ID nodeData(2*numNod);
// now receive the ID about the nodes, class tag and dbTags
if (theChannel.recvID(dbNod, currentGeoTag, nodeData) < 0) {
opserr << "LoadPAttern::recvSelf - channel failed to recv the NodalLoad ID\n";
return -2;
}
// now for each NodalLoad we 1) get a new node of the correct type from the ObjectBroker
// 2) ensure the node exists and set it's dbTag, 3) we invoke recvSelf on this new
// blank node and 4) add this node to the domain
int loc = 0;
for (int i=0; i<numNod; i++) {
int classTag = nodeData(loc);
int dbTag = nodeData(loc+1);
NodalLoad *theNode = theBroker.getNewNodalLoad(classTag);
if (theNode == 0) {
opserr << "LoadPattern::recv - cannot create NodalLoad with classTag " << classTag << endln;
return -2;
}
theNode->setDbTag(dbTag);
if (theNode->recvSelf(cTag, theChannel, theBroker) < 0) {
opserr << "LoadPattern::recvSelf - NodalLoad with dbTag " << dbTag << " failed in recvSelf\n";
return -2;
}
if (this->addNodalLoad(theNode) == false) {
opserr << "LoadPattern::recvSelf - failed adding NodalLoad tagged " << theNode->getTag() << " into LP!\n";
return -3;
}
loc+=2;
}
}
//
// now we rebuild the ElementalLoads .. same as NodalLoads above .. see comments above
//
if (numEle != 0) {
ID eleData(2*numEle);
if (theChannel.recvID(dbEle, currentGeoTag, eleData) < 0) {
opserr << "LoadPattern::recvSelf - channel failed to recv the EleLoad ID\n";
return -2;
}
int loc = 0;
for (int i=0; i<numEle; i++) {
int classTag = eleData(loc);
int dbTag = eleData(loc+1);
ElementalLoad *theEle = theBroker.getNewElementalLoad(classTag);
if (theEle == 0) {
opserr << "LoadPattern::recv - cannot create ElementalLoad with classTag " << classTag << endln;
return -2;
}
theEle->setDbTag(dbTag);
if (theEle->recvSelf(cTag, theChannel, theBroker) < 0) {
opserr << "LoadPattern::recvSelf - Ele with dbTag " << dbTag << " failed in recvSelf\n";
return -2;
}
if (this->addElementalLoad(theEle) == false) {
opserr << "LoadPattern::recvSelf - could not add Ele with tag " << theEle->getTag() << " into LP!\n";
return -3;
}
loc+=2;
}
}
//
// now we rebuild the SP_Constraints .. same as nodes above .. see above if can't understand!!
//
if (numSPs != 0) {
ID spData(2*numSPs);
if (theChannel.recvID(dbSPs, currentGeoTag, spData) < 0) {
opserr << "LoadPattern::recvSelf - channel failed to recv the SP_Constraints ID\n";
return -2;
}
int loc = 0;
for (int i=0; i<numSPs; i++) {
int classTag = spData(loc);
int dbTag = spData(loc+1);
SP_Constraint *theSP = theBroker.getNewSP(classTag);
if (theSP == 0) {
opserr << "LoadPattern::recv - cannot create SP_Constraint with classTag " << classTag << endln;
return -2;
}
theSP->setDbTag(dbTag);
if (theSP->recvSelf(cTag, theChannel, theBroker) < 0) {
opserr << "LoadPattern::recvSelf - SP_Constraint with dbTag " << dbTag << " failed in recvSelf\n";
return -2;
}
if (this->addSP_Constraint(theSP) == false) {
opserr << "LoadPattern::recvSelf - could not add SP_Constraint with tag " << theSP->getTag()
<< " into LP!\n";
return -3;
}
loc+=2;
}
}
// now set the load pattern db count
currentGeoTag = lpData(0);
lastGeoSendTag = currentGeoTag;
} else {
if (theSeries != 0)
if (theSeries->recvSelf(cTag, theChannel, theBroker) < 0) {
opserr << "LoadPattern::recvSelf - the TimeSeries failed to recv\n";
return -3;
}
NodalLoad *theNode;
NodalLoadIter &theNodes = this->getNodalLoads();
while ((theNode = theNodes()) != 0) {
if (theNode->recvSelf(cTag, theChannel, theBroker) < 0) {
opserr << "LoadPattern::recvSelf - node with tag " << theNode->getTag() << " failed in recvSelf\n";
return -7;
}
}
ElementalLoad *theEle;
ElementalLoadIter &theElements = this->getElementalLoads();
while ((theEle = theElements()) != 0) {
if (theEle->recvSelf(cTag, theChannel, theBroker) < 0) {
opserr << "LoadPattern::recvSelf - element with tag " << theEle->getTag() << " failed in recvSelf\n";
return -8;
}
}
SP_Constraint *theSP;
SP_ConstraintIter &theSPs = this->getSPs();
while ((theSP = theSPs()) != 0) {
if (theSP->recvSelf(cTag, theChannel, theBroker) < 0) {
opserr << "LoadPattern::recvSelf - SP_Constraint tagged " << theSP->getTag() << " failed recvSelf\n";
return -9;
}
}
}
// if we get here we are successfull
return 0;
}
int
ActorSubdomain::run(void)
{
static Vector theVect(4);
static Vector theVect1(1);
bool exitYet = false;
int res = 0;
while (exitYet == false) {
int action;
res = this->recvID(msgData);
if (res != 0) {
opserr << "ActorSubdomain::run - error receiving msgData\n";
exitYet = true;
action = ShadowActorSubdomain_DIE;
} else {
action = msgData(0);
}
bool change;
int theType, theOtherType, tag, dbTag, loadPatternTag;
int startTag, endTag, axisDirn, numSP, i, numMode, dof;
Element *theEle;
Node *theNod;
SP_Constraint *theSP;
MP_Constraint *theMP;
LoadPattern *theLoadPattern;
NodalLoad *theNodalLoad;
ElementalLoad *theElementalLoad;
DomainDecompositionAnalysis *theDDAnalysis;
const Matrix *theMatrix;
const Vector *theVector;
Matrix *theM;
Vector *theV;
ID *theI, *theNodeTags, *theEleTags;
PartitionedModelBuilder *theBuilder;
IncrementalIntegrator *theIntegrator;
EquiSolnAlgo *theAlgorithm;
LinearSOE *theSOE;
EigenSOE *theEigenSOE;
ConvergenceTest *theTest;
Recorder *theRecorder;
bool res, generalized, findSmallest;
double doubleRes;
int intRes;
NodeResponseType nodeResponseType;
Parameter *theParameter;
int argc;
char **argv;
char *allResponseArgs;
char *currentLoc;
int argLength, msgLength;
Message theMessage;
const ID *theID;
// opserr << "ActorSubdomain ACTION: " << action << endln;
switch (action) {
case ShadowActorSubdomain_setTag:
tag = msgData(1); // subdomain tag
this->setTag(tag);
this->Actor::setCommitTag(tag);
break;
case ShadowActorSubdomain_analysisStep:
this->recvVector(theVect);
this->analysisStep(theVect(0));
break;
case ShadowActorSubdomain_eigenAnalysis:
numMode = msgData(1);
if (msgData(2) == 0)
generalized = true;
else
generalized = false;
if (msgData(3) == 0)
findSmallest = true;
else
findSmallest = false;
this->eigenAnalysis(numMode, generalized, findSmallest);
break;
/*
case ShadowActorSubdomain_buildSubdomain:
theType = msgData(1);
tag = msgData(3); // subdomain tag
this->setTag(tag);
tag = msgData(2); // numSubdomains
theBuilder = theBroker->getPtrNewPartitionedModelBuilder(*this,
theType);
this->recvObject(*theBuilder);
this->buildSubdomain(tag, *theBuilder);
break;
*/
case ShadowActorSubdomain_getRemoteData:
theID = &(this->getExternalNodes());
msgData(0) = theID->Size();
msgData(1) = this->getNumDOF();
this->sendID(msgData);
if (theID->Size() != 0)
this->sendID(*theID);
break;
case ShadowActorSubdomain_getCost:
theVect(0) = this->getCost(); // have to use [] for Sun's CC!
this->sendVector(theVect);
break;
case ShadowActorSubdomain_addElement:
theType = msgData(1);
dbTag = msgData(2);
theEle = theBroker->getNewElement(theType);
if (theEle != 0) {
theEle->setDbTag(dbTag);
this->recvObject(*theEle);
bool result = this->addElement(theEle);
if (result == true)
msgData(0) = 0;
else
msgData(0) = -1;
} else
msgData(0) = -1;
/*
this->recvID(msgData);
opserr << "ActorSubdomain::addElement() : " << msgData;
msgData(0) = 1;
msgData(1) = 2;
msgData(2) = 3;
msgData(3) = 4;
this->sendID(msgData);
*/
break;
case ShadowActorSubdomain_hasNode:
theType = msgData(1);
res = this->hasNode(theType);
if (res == true)
msgData(0) = 0;
else
msgData(0) = -1;
this->sendID(msgData);
break;
case ShadowActorSubdomain_hasElement:
theType = msgData(1);
res = this->hasElement(theType);
if (res == true)
msgData(0) = 0;
else
msgData(0) = -1;
this->sendID(msgData);
break;
case ShadowActorSubdomain_addNode:
theType = msgData(1);
dbTag = msgData(2);
theNod = theBroker->getNewNode(theType);
if (theNod != 0) {
theNod->setDbTag(dbTag);
this->recvObject(*theNod);
bool result = this->addNode(theNod);
if (result == true)
msgData(0) = 0;
else
msgData(0) = -1;
} else
msgData(0) = -1;
// opserr << "ActorSubdomain::add node: " << *theNod;
break;
case ShadowActorSubdomain_addExternalNode:
theType = msgData(1);
dbTag = msgData(2);
theNod = theBroker->getNewNode(theType);
if (theNod != 0) {
theNod->setDbTag(dbTag);
this->recvObject(*theNod);
bool result = this->Subdomain::addExternalNode(theNod);
delete theNod;
/*
Node *dummy = new Node(*theNod);
delete theNod;
opserr << *dummy;
opserr << dummy->getMass();
*/
if (result == true)
msgData(0) = 0;
else
msgData(0) = -1;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_addSP_Constraint:
theType = msgData(1);
dbTag = msgData(2);
theSP = theBroker->getNewSP(theType);
if (theSP != 0) {
theSP->setDbTag(dbTag);
this->recvObject(*theSP);
bool result = this->addSP_Constraint(theSP);
if (result == true)
msgData(0) = 0;
else
msgData(0) = -1;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_addSP_ConstraintAXIS:
axisDirn = msgData(1);
theI = new ID(msgData(2));
theV = new Vector(2);
SP_Constraint_SetNextTag(msgData(3));
endTag = 0;
this->recvID(*theI);
this->recvVector(*theV);
msgData(0) = 0;
numSP = this->addSP_Constraint(axisDirn, (*theV)(0), *theI, (*theV)(1));
endTag = SP_Constraint_GetNextTag();
msgData(1) = numSP;
msgData(2) = endTag;
this->domainChange();
this->sendID(msgData);
delete theV;
delete theI;
/* DONT BOTHER SENDING
if (numSP > 0) {
theI = new ID(numSP);
for (i = 0; i<numSP; i++) {
theSP = this->getSP_Constraint(i+startTag);
(*theI)(i) = theSP->getClassTag();
}
this->sendID(*theI);
opserr << "Actor: sent: " << *theI;
for (i = 0; i<numSP; i++) {
theSP = this->getSP_Constraint(i+startTag);
if (theSP != 0)
this->sendObject(*theSP);
else
opserr << "ActorSubdomain::addSP_AXIS :: PROBLEMS\n";
}
delete theI;
}
opserr << "ActorSubdomain::addSP_AXIS :: DONE\n";
*/
break;
case ShadowActorSubdomain_addMP_Constraint:
theType = msgData(1);
dbTag = msgData(2);
theMP = theBroker->getNewMP(theType);
if (theMP != 0) {
theMP->setDbTag(dbTag);
this->recvObject(*theMP);
bool result = this->addMP_Constraint(theMP);
if (result == true)
msgData(0) = 0;
else
msgData(0) = -1;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_addLoadPattern:
theType = msgData(1);
dbTag = msgData(2);
theLoadPattern = theBroker->getNewLoadPattern(theType);
if (theLoadPattern != 0) {
theLoadPattern->setDbTag(dbTag);
this->recvObject(*theLoadPattern);
bool result = this->addLoadPattern(theLoadPattern);
if (result == true)
msgData(0) = 0;
else
msgData(0) = -1;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_addNodalLoadToPattern:
theType = msgData(1);
dbTag = msgData(2);
loadPatternTag = msgData(3);
theNodalLoad = theBroker->getNewNodalLoad(theType);
if (theNodalLoad != 0) {
theNodalLoad->setDbTag(dbTag);
this->recvObject(*theNodalLoad);
bool result = this->addNodalLoad(theNodalLoad, loadPatternTag);
if (result == true)
msgData(0) = 0;
else
msgData(0) = -1;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_addElementalLoadToPattern:
theType = msgData(1);
dbTag = msgData(2);
loadPatternTag = msgData(3);
theElementalLoad = theBroker->getNewElementalLoad(theType);
if (theElementalLoad != 0) {
theElementalLoad->setDbTag(dbTag);
this->recvObject(*theElementalLoad);
bool result = this->addElementalLoad(theElementalLoad,
loadPatternTag);
if (result == true)
msgData(0) = 0;
else
msgData(0) = -1;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_addSP_ConstraintToPattern:
theType = msgData(1);
dbTag = msgData(2);
loadPatternTag = msgData(3);
theSP = theBroker->getNewSP(theType);
if (theSP != 0) {
theSP->setDbTag(dbTag);
this->recvObject(*theSP);
bool result = this->addSP_Constraint(theSP, loadPatternTag);
if (result == true)
msgData(0) = 0;
else
msgData(0) = -1;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_removeElement:
tag = msgData(1);
theEle = this->removeElement(tag);
if (theEle != 0)
msgData(0) = theEle->getClassTag();
else
msgData(0) = -1;
this->sendID(msgData);
if (theEle != 0) {
this->sendObject(*theEle);
delete theEle;
}
msgData(0) = 0;
break;
case ShadowActorSubdomain_removeNode:
tag = msgData(1);
theNod = this->removeNode(tag);
if (theNod != 0)
msgData(0) = theNod->getClassTag();
else
msgData(0) = -1;
this->sendID(msgData);
if (theNod != 0) {
this->sendObject(*theNod);
delete theNod;
}
msgData(0) = 0;
break;
case ShadowActorSubdomain_removeSP_Constraint:
tag = msgData(1);
theSP = this->removeSP_Constraint(tag);
break;
case ShadowActorSubdomain_removeSP_ConstraintNoTag:
tag = msgData(1);
dof = msgData(2);
loadPatternTag = msgData(3);
msgData(0) = this->removeSP_Constraint(tag, dof, loadPatternTag);
this->sendID(msgData);
break;
case ShadowActorSubdomain_removeMP_Constraint:
tag = msgData(1);
theMP = this->removeMP_Constraint(tag);
break;
case ShadowActorSubdomain_removeLoadPattern:
tag = msgData(1);
theLoadPattern = this->removeLoadPattern(tag);
break;
case ShadowActorSubdomain_removeNodalLoadFromPattern:
tag = msgData(1);
theType = msgData(2);
theNodalLoad = this->removeNodalLoad(tag, theType);
break;
case ShadowActorSubdomain_removeElementalLoadFromPattern:
tag = msgData(1);
theType = msgData(2);
theElementalLoad = this->removeElementalLoad(tag, theType);
break;
case ShadowActorSubdomain_removeSP_ConstraintFromPattern:
tag = msgData(1);
theType = msgData(2);
theSP = this->removeSP_Constraint(tag, theType);
break;
case ShadowActorSubdomain_getElement:
tag = msgData(1);
theEle = this->getElement(tag);
if (theEle != 0)
msgData(0) = theEle->getClassTag();
else
msgData(0) = -1;
this->sendID(msgData);
if (theEle != 0) {
this->sendObject(*theEle);
}
msgData(0) = 0;
break;
case ShadowActorSubdomain_getNode:
tag = msgData(1);
theNod = this->getNode(tag);
if (theNod != 0)
msgData(0) = theNod->getClassTag();
else
msgData(0) = -1;
this->sendID(msgData);
if (theNod != 0) {
this->sendObject(*theNod);
}
msgData(0) = 0;
break;
case ShadowActorSubdomain_Print:
this->Print(opserr, msgData(3));
this->sendID(msgData);
break;
case ShadowActorSubdomain_PrintNodeAndEle:
theNodeTags = 0;
theEleTags = 0;
if (msgData(1) != 0) {
theNodeTags = new ID(msgData(1));
this->recvID(*theNodeTags);
}
if (msgData(2) != 0) {
theEleTags = new ID(msgData(2));
this->recvID(*theEleTags);
}
this->Print(opserr, theNodeTags, theEleTags, msgData(3));
if (theNodeTags != 0)
delete theNodeTags;
if (theEleTags != 0)
delete theEleTags;
this->sendID(msgData);
break;
case ShadowActorSubdomain_applyLoad:
this->recvVector(theVect);
this->applyLoad(theVect(0));
break;
case ShadowActorSubdomain_setCommittedTime:
this->recvVector(theVect);
this->setCurrentTime(theVect(0));
this->setCommittedTime(theVect(0));
break;
case ShadowActorSubdomain_setLoadConstant:
this->setLoadConstant();
break;
case ShadowActorSubdomain_update:
this->update();
break;
case ShadowActorSubdomain_updateTimeDt:
this->updateTimeDt();
break;
case ShadowActorSubdomain_computeNodalResponse:
tag = msgData(1);
if (lastResponse == 0)
lastResponse = new Vector(tag);
else if (lastResponse->Size() != tag) {
delete lastResponse;
lastResponse = new Vector(tag);
}
this->recvVector(*lastResponse);
this->computeNodalResponse();
break;
case ShadowActorSubdomain_record:
this->record();
break;
case ShadowActorSubdomain_commit:
this->commit();
break;
case ShadowActorSubdomain_revertToLastCommit:
this->revertToLastCommit();
break;
case ShadowActorSubdomain_revertToStart:
this->revertToStart();
this->sendID(msgData);
break;
case ShadowActorSubdomain_addRecorder:
theType = msgData(1);
theRecorder = theBroker->getPtrNewRecorder(theType);
if (theRecorder != 0) {
this->recvObject(*theRecorder);
this->addRecorder(*theRecorder);
}
break;
case ShadowActorSubdomain_removeRecorders:
this->removeRecorders();
this->barrierCheck(1);
break;
case ShadowActorSubdomain_removeRecorder:
theType = msgData(1);
this->removeRecorder(theType);
break;
case ShadowActorSubdomain_wipeAnalysis:
this->wipeAnalysis();
break;
case ShadowActorSubdomain_setDomainDecompAnalysis:
theType = msgData(1);
theDDAnalysis =
theBroker->getNewDomainDecompAnalysis(theType, *this);
if (theDDAnalysis != 0) {
this->recvObject(*theDDAnalysis);
this->setDomainDecompAnalysis(*theDDAnalysis);
msgData(0) = 0;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_setAnalysisAlgorithm:
theType = msgData(1);
theAlgorithm = theBroker->getNewEquiSolnAlgo(theType);
if (theAlgorithm != 0) {
this->recvObject(*theAlgorithm);
this->setAnalysisAlgorithm(*theAlgorithm);
msgData(0) = 0;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_setAnalysisIntegrator:
theType = msgData(1);
theIntegrator = theBroker->getNewIncrementalIntegrator(theType);
if (theIntegrator != 0) {
this->recvObject(*theIntegrator);
this->setAnalysisIntegrator(*theIntegrator);
msgData(0) = 0;
} else
msgData(0) = -1;
this->sendID(msgData);
break;
case ShadowActorSubdomain_setAnalysisLinearSOE:
theType = msgData(1);
theSOE = theBroker->getNewLinearSOE(theType);
if (theSOE != 0) {
this->recvObject(*theSOE);
this->setAnalysisLinearSOE(*theSOE);
msgData(0) = 0;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_setAnalysisEigenSOE:
theType = msgData(1);
theEigenSOE = theBroker->getNewEigenSOE(theType);
if (theEigenSOE != 0) {
this->recvObject(*theEigenSOE);
this->setAnalysisEigenSOE(*theEigenSOE);
msgData(0) = 0;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_setAnalysisConvergenceTest:
theType = msgData(1);
theTest = theBroker->getNewConvergenceTest(theType);
if (theTest != 0) {
this->recvObject(*theTest);
this->setAnalysisConvergenceTest(*theTest);
msgData(0) = 0;
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_domainChange:
this->domainChange();
tag = this->getNumDOF();
if (tag != 0) {
if (lastResponse == 0)
lastResponse = new Vector(tag);
else if (lastResponse->Size() != tag) {
delete lastResponse;
lastResponse = new Vector(tag);
}
}
break;
case ShadowActorSubdomain_getDomainChangeFlag:
change = this->getDomainChangeFlag();
if (change == true)
msgData(0) = 0;
else
msgData(0) = 1;
this->sendID(msgData);
break;
case ShadowActorSubdomain_clearAnalysis:
// this->clearAnalysis();
break;
/*
case 50:
const Matrix *theMatrix1 = &(this->getStiff());
this->sendMatrix(*theMatrix1);
break;
case 51:
const Matrix *theMatrix2 = &(this->getDamp());
this->sendMatrix(*theMatrix2);
break;
case 52:
const Matrix *theMatrix3 = &(this->getMass());
this->sendMatrix(*theMatrix3);
break;
*/
case ShadowActorSubdomain_getTang:
theMatrix = &(this->getTang());
this->sendMatrix(*theMatrix);
break;
case ShadowActorSubdomain_getResistingForce:
theVector = &(this->getResistingForce());
this->sendVector(*theVector);
break;
case ShadowActorSubdomain_computeTang:
tag = msgData(1);
this->setTag(tag);
this->computeTang();
break;
case ShadowActorSubdomain_computeResidual:
this->computeResidual();
break;
case ShadowActorSubdomain_clearAll:
this->clearAll();
this->sendID(msgData);
break;
case ShadowActorSubdomain_getNodeDisp:
tag = msgData(1); // nodeTag
dbTag = msgData(2); // dof
doubleRes = this->getNodeDisp(tag, dbTag, intRes);
msgData(0) = intRes;
this->sendID(msgData);
if (intRes == 0) {
theV = new Vector(1);
(*theV)(0) = doubleRes;
this->sendVector(*theV);
delete theV;
}
break;
case ShadowActorSubdomain_setMass:
tag = msgData(1); // nodeTag
dbTag = msgData(2); // noRows
theOtherType = msgData(3); // noRows
theM = new Matrix(dbTag, theOtherType);
this->recvMatrix(*theM);
intRes = this->setMass(*theM, tag);
delete theM;
msgData(0) = intRes;
this->sendID(msgData);
break;
case ShadowActorSubdomain_getNodeResponse:
tag = msgData(1); // nodeTag
nodeResponseType = (NodeResponseType)msgData(2);
theVector = this->getNodeResponse(tag, nodeResponseType);
if (theVector == 0)
msgData(0) = 0;
else {
msgData(0) = 1;
msgData(1) = theVector->Size();
}
this->sendID(msgData);
if (theVector != 0)
this->sendVector(*theVector);
break;
case ShadowActorSubdomain_getElementResponse:
tag = msgData(1); // eleTag
argc = msgData(2);
msgLength = msgData(3);
if (msgLength == 0) {
opserr << "ElementRecorder::recvSelf() - 0 sized string for responses\n";
return -1;
}
allResponseArgs = new char[msgLength];
if (allResponseArgs == 0) {
opserr << "ElementRecorder::recvSelf() - out of memory\n";
return -1;
}
theMessage.setData(allResponseArgs, msgLength);
if (this->recvMessage(theMessage) < 0) {
opserr << "ElementRecorder::recvSelf() - failed to recv message\n";
return -1;
}
//
// now break this single array into many
//
argv = new char *[argc];
if (argv == 0) {
opserr << "ElementRecorder::recvSelf() - out of memory\n";
return -1;
}
currentLoc = allResponseArgs;
for (int j=0; j<argc; j++) {
argv[j] = currentLoc;
argLength = strlen(currentLoc)+1;
currentLoc += argLength;
}
theVector = this->getElementResponse(tag, (const char**)argv, argc);
delete [] argv;
delete [] allResponseArgs;
if (theVector == 0)
msgData(0) = 0;
else {
msgData(0) = 1;
msgData(1) = theVector->Size();
}
this->sendID(msgData);
if (theVector != 0)
this->sendVector(*theVector);
break;
case ShadowActorSubdomain_calculateNodalReactions:
if (msgData(0) == 0)
this->calculateNodalReactions(true);
else
this->calculateNodalReactions(false);
break;
case ShadowActorSubdomain_setRayleighDampingFactors:
theV = new Vector(4);
this->recvVector(*theV);
intRes = this->Subdomain::setRayleighDampingFactors((*theV)(0), (*theV)(1), (*theV)(2), (*theV)
(3));
delete theV;
break;
case ShadowActorSubdomain_addParameter:
theType = msgData(1);
dbTag = msgData(2);
theParameter = theBroker->getParameter(theType);
if (theParameter != 0) {
theParameter->setDbTag(dbTag);
this->recvObject(*theParameter);
//bool result = true;
bool result = this->addParameter(theParameter);
if (result == true)
msgData(0) = 0;
else {
opserr << "Actor::addParameter - FAILED\n";
msgData(0) = -1;
}
} else
msgData(0) = -1;
break;
case ShadowActorSubdomain_removeParameter:
theType = msgData(1);
this->removeParameter(theType);
this->sendID(msgData);
break;
case ShadowActorSubdomain_updateParameterINT:
theType = msgData(1); // tag
dbTag = msgData(2); // value
msgData(0) = this->Domain::updateParameter(theType, dbTag);
this->sendID(msgData);
break;
case ShadowActorSubdomain_updateParameterDOUBLE:
theType = msgData(1); // tag
this->recvVector(theVect1);
msgData(0) = this->Domain::updateParameter(theType, theVect1(0));
this->sendID(msgData);
break;
case ShadowActorSubdomain_DIE:
exitYet = true;
break;
default:
opserr << "ActorSubdomain::invalid action " << action << "received\n";
msgData(0) = -1;
}
// opserr << "DONE ACTION: " << action << endln;
}
// this->sendID(msgData);
return 0;
}