int
LagrangeConstraintHandler::handle(const ID *nodesLast)
{
// first check links exist to a Domain and an AnalysisModel object
Domain *theDomain = this->getDomainPtr();
AnalysisModel *theModel = this->getAnalysisModelPtr();
Integrator *theIntegrator = this->getIntegratorPtr();
if ((theDomain == 0) || (theModel == 0) || (theIntegrator == 0)) {
opserr << "WARNING LagrangeConstraintHandler::handle() - ";
opserr << " setLinks() has not been called\n";
return -1;
}
// get number ofelements and nodes in the domain
// and init the theFEs and theDOFs arrays
int numConstraints = 0;
SP_ConstraintIter &theSPss = theDomain->getDomainAndLoadPatternSPs();
SP_Constraint *spPtr;
while ((spPtr = theSPss()) != 0)
numConstraints++;
numConstraints += theDomain->getNumMPs();
//create a DOF_Group for each Node and add it to the AnalysisModel.
// : must of course set the initial IDs
NodeIter &theNod = theDomain->getNodes();
Node *nodPtr;
MP_Constraint *mpPtr;
DOF_Group *dofPtr;
int numDofGrp = 0;
int count3 = 0;
int countDOF =0;
while ((nodPtr = theNod()) != 0) {
if ((dofPtr = new DOF_Group(numDofGrp++, nodPtr)) == 0) {
opserr << "WARNING LagrangeConstraintHandler::handle() ";
opserr << "- ran out of memory";
opserr << " creating DOF_Group " << numDofGrp++ << endln;
return -4;
}
// initially set all the ID value to -2
const ID &id = dofPtr->getID();
for (int j=0; j < id.Size(); j++) {
dofPtr->setID(j,-2);
countDOF++;
}
nodPtr->setDOF_GroupPtr(dofPtr);
theModel->addDOF_Group(dofPtr);
}
// create the FE_Elements for the Elements and add to the AnalysisModel
ElementIter &theEle = theDomain->getElements();
Element *elePtr;
int numFeEle = 0;
FE_Element *fePtr;
while ((elePtr = theEle()) != 0) {
// only create an FE_Element for a subdomain element if it does not
// do independent analysis .. then subdomain part of this analysis so create
// an FE_element & set subdomain to point to it.
if (elePtr->isSubdomain() == true) {
Subdomain *theSub = (Subdomain *)elePtr;
if (theSub->doesIndependentAnalysis() == false) {
if ((fePtr = new FE_Element(numFeEle++, elePtr)) == 0) {
opserr << "WARNING PlainHandler::handle() - ran out of memory";
opserr << " creating FE_Element " << elePtr->getTag() << endln;
return -5;
}
theModel->addFE_Element(fePtr);
theSub->setFE_ElementPtr(fePtr);
} // if (theSub->doesIndependentAnalysis() == false) {
} else {
// just a regular element .. create an FE_Element for it & add to AnalysisModel
if ((fePtr = new FE_Element(numFeEle++, elePtr)) == 0) {
opserr << "WARNING PlainHandler::handle() - ran out of memory";
opserr << " creating FE_Element " << elePtr->getTag() << endln;
return -5;
}
theModel->addFE_Element(fePtr);
}
}
// create the LagrangeSP_FE for the SP_Constraints and
// add to the AnalysisModel
SP_ConstraintIter &theSPs = theDomain->getDomainAndLoadPatternSPs();
while ((spPtr = theSPs()) != 0) {
if ((dofPtr = new LagrangeDOF_Group(numDofGrp++, *spPtr)) == 0) {
opserr << "WARNING LagrangeConstraintHandler::handle()";
opserr << " - ran out of memory";
opserr << " creating LagrangeDOFGroup " << endln;
return -5;
}
const ID &id = dofPtr->getID();
for (int j=0; j < id.Size(); j++) {
dofPtr->setID(j,-2);
countDOF++;
}
theModel->addDOF_Group(dofPtr);
if ((fePtr = new LagrangeSP_FE(numFeEle++, *theDomain, *spPtr,
*dofPtr, alphaSP)) == 0) {
opserr << "WARNING LagrangeConstraintHandler::handle()";
opserr << " - ran out of memory";
opserr << " creating LagrangeSP_FE " << endln;
return -5;
}
theModel->addFE_Element(fePtr);
}
// create the LagrangeMP_FE for the MP_Constraints and
// add to the AnalysisModel
MP_ConstraintIter &theMPs = theDomain->getMPs();
while ((mpPtr = theMPs()) != 0) {
if ((dofPtr = new LagrangeDOF_Group(numDofGrp++, *mpPtr)) == 0) {
opserr << "WARNING LagrangeConstraintHandler::handle()";
opserr << " - ran out of memory";
opserr << " creating LagrangeDOFGroup " << endln;
return -5;
}
const ID &id = dofPtr->getID();
for (int j=0; j < id.Size(); j++) {
dofPtr->setID(j,-2);
countDOF++;
}
theModel->addDOF_Group(dofPtr);
if ((fePtr = new LagrangeMP_FE(numFeEle++, *theDomain, *mpPtr,
*dofPtr, alphaMP)) == 0) {
opserr << "WARNING LagrangeConstraintHandler::handle()";
opserr << " - ran out of memory";
opserr << " creating LagrangeMP_FE " << endln;
return -5;
}
theModel->addFE_Element(fePtr);
}
theModel->setNumEqn(countDOF);
// set the number of eqn in the model
// now see if we have to set any of the dof's to -3
// int numLast = 0;
if (nodesLast != 0)
for (int i=0; i<nodesLast->Size(); i++) {
int nodeID = (*nodesLast)(i);
Node *nodPtr = theDomain->getNode(nodeID);
if (nodPtr != 0) {
dofPtr = nodPtr->getDOF_GroupPtr();
const ID &id = dofPtr->getID();
// set all the dof values to -3
for (int j=0; j < id.Size(); j++)
if (id(j) == -2) {
dofPtr->setID(j,-3);
count3++;
} else {
opserr << "WARNING LagrangeConstraintHandler::handle() ";
opserr << " - boundary sp constraint in subdomain";
opserr << " this should not be - results suspect \n";
}
}
}
return count3;
}
int
TransformationConstraintHandler::handle(const ID *nodesLast)
{
// first check links exist to a Domain and an AnalysisModel object
Domain *theDomain = this->getDomainPtr();
AnalysisModel *theModel = this->getAnalysisModelPtr();
Integrator *theIntegrator = this->getIntegratorPtr();
if ((theDomain == 0) || (theModel == 0) || (theIntegrator == 0)) {
opserr << "WARNING TransformationConstraintHandler::handle() - ";
opserr << " setLinks() has not been called\n";
return -1;
}
// get number ofelements and nodes in the domain
// and init the theFEs and theDOFs arrays
int numMPConstraints = theDomain->getNumMPs();
// int numSPConstraints = theDomain->getNumSPs();
int numSPConstraints = 0;
SP_ConstraintIter &theSP1s = theDomain->getDomainAndLoadPatternSPs();
SP_Constraint *theSP1;
while ((theSP1 = theSP1s()) != 0)
numSPConstraints++;
numDOF = 0;
ID transformedNode(0, 64);
int i;
// create an ID of constrained node tags in MP_Constraints
ID constrainedNodesMP(0, numMPConstraints);
MP_Constraint **mps =0;
if (numMPConstraints != 0) {
mps = new MP_Constraint *[numMPConstraints];
if (mps == 0) {
opserr << "WARNING TransformationConstraintHandler::handle() - ";
opserr << "ran out of memory for MP_Constraints";
opserr << " array of size " << numMPConstraints << endln;
return -3;
}
MP_ConstraintIter &theMPs = theDomain->getMPs();
MP_Constraint *theMP;
int index = 0;
while ((theMP = theMPs()) != 0) {
int nodeConstrained = theMP->getNodeConstrained();
if (transformedNode.getLocation(nodeConstrained) < 0)
transformedNode[numDOF++] = nodeConstrained;
constrainedNodesMP[index] = nodeConstrained;
mps[index] = theMP;
index++;
}
}
// create an ID of constrained node tags in SP_Constraints
ID constrainedNodesSP(0, numSPConstraints);;
SP_Constraint **sps =0;
if (numSPConstraints != 0) {
sps = new SP_Constraint *[numSPConstraints];
if (sps == 0) {
opserr << "WARNING TransformationConstraintHandler::handle() - ";
opserr << "ran out of memory for SP_Constraints";
opserr << " array of size " << numSPConstraints << endln;
if (mps != 0) delete [] mps;
if (sps != 0) delete [] sps;
return -3;
}
SP_ConstraintIter &theSPs = theDomain->getDomainAndLoadPatternSPs();
SP_Constraint *theSP;
int index = 0;
while ((theSP = theSPs()) != 0) {
int constrainedNode = theSP->getNodeTag();
if (transformedNode.getLocation(constrainedNode) < 0)
transformedNode[numDOF++] = constrainedNode;
constrainedNodesSP[index] = constrainedNode;
sps[index] = theSP;
index++;
}
}
// create an array for the DOF_Groups and zero it
if ((numDOF != 0) && ((theDOFs = new DOF_Group *[numDOF]) == 0)) {
opserr << "WARNING TransformationConstraintHandler::handle() - ";
opserr << "ran out of memory for DOF_Groups";
opserr << " array of size " << numDOF << endln;
return -3;
}
for (i=0; i<numDOF; i++) theDOFs[i] = 0;
//create a DOF_Group for each Node and add it to the AnalysisModel.
// :must of course set the initial IDs
NodeIter &theNod = theDomain->getNodes();
Node *nodPtr;
int numDofGrp = 0;
int count3 = 0;
int countDOF =0;
numConstrainedNodes = 0;
numDOF = 0;
while ((nodPtr = theNod()) != 0) {
DOF_Group *dofPtr = 0;
int nodeTag = nodPtr->getTag();
int numNodalDOF = nodPtr->getNumberDOF();
int loc = -1;
int createdDOF = 0;
loc = constrainedNodesMP.getLocation(nodeTag);
if (loc >= 0) {
TransformationDOF_Group *tDofPtr =
new TransformationDOF_Group(numDofGrp++, nodPtr, mps[loc], this);
createdDOF = 1;
dofPtr = tDofPtr;
// add any SPs
if (numSPConstraints != 0) {
loc = constrainedNodesSP.getLocation(nodeTag);
if (loc >= 0) {
tDofPtr->addSP_Constraint(*(sps[loc]));
for (int i = loc+1; i<numSPConstraints; i++) {
if (constrainedNodesSP(i) == nodeTag)
tDofPtr->addSP_Constraint(*(sps[i]));
}
}
// add the DOF to the array
theDOFs[numDOF++] = dofPtr;
numConstrainedNodes++;
}
}
if (createdDOF == 0) {
loc = constrainedNodesSP.getLocation(nodeTag);
if (loc >= 0) {
TransformationDOF_Group *tDofPtr =
new TransformationDOF_Group(numDofGrp++, nodPtr, this);
int numSPs = 1;
createdDOF = 1;
dofPtr = tDofPtr;
tDofPtr->addSP_Constraint(*(sps[loc]));
// check for more SP_constraints acting on node and add them
for (int i = loc+1; i<numSPConstraints; i++) {
if (constrainedNodesSP(i) == nodeTag) {
tDofPtr->addSP_Constraint(*(sps[i]));
numSPs++;
}
}
// add the DOF to the array
theDOFs[numDOF++] = dofPtr;
numConstrainedNodes++;
countDOF+= numNodalDOF - numSPs;
}
}
// create an ordinary DOF_Group object if no dof constrained
if (createdDOF == 0) {
if ((dofPtr = new DOF_Group(numDofGrp++, nodPtr)) == 0) {
opserr << "WARNING TransformationConstraintHandler::handle() ";
opserr << "- ran out of memory";
opserr << " creating DOF_Group " << i << endln;
if (mps != 0) delete [] mps;
if (sps != 0) delete [] sps;
return -4;
}
countDOF+= numNodalDOF;
}
if (dofPtr == 0)
opserr << "TransformationConstraintHandler::handle() - error in logic\n";
nodPtr->setDOF_GroupPtr(dofPtr);
theModel->addDOF_Group(dofPtr);
}
// create the FE_Elements for the Elements and add to the AnalysisModel
ElementIter &theEle = theDomain->getElements();
Element *elePtr;
FE_Element *fePtr;
numFE = 0;
ID transformedEle(0, 64);
while ((elePtr = theEle()) != 0) {
int flag = 0;
if (elePtr->isSubdomain() == true) {
Subdomain *theSub = (Subdomain *)elePtr;
if (theSub->doesIndependentAnalysis() == true)
flag = 1;
}
if (flag == 0) {
const ID &nodes = elePtr->getExternalNodes();
int nodesSize = nodes.Size();
int isConstrainedNode = 0;
for (int i=0; i<nodesSize; i++) {
int nodeTag = nodes(i);
if (numMPConstraints != 0) {
int loc = constrainedNodesMP.getLocation(nodeTag);
if (loc >= 0) {
isConstrainedNode = 1;
i = nodesSize;
}
}
if (numSPConstraints != 0 && isConstrainedNode == 0) {
int loc = constrainedNodesSP.getLocation(nodeTag);
if (loc >= 0) {
isConstrainedNode = 1;
i = nodesSize;
}
}
}
if (isConstrainedNode == 1) {
transformedEle[numFE++] = elePtr->getTag();
}
}
}
// create an array for the FE_elements and zero it
if ((numFE != 0) && ((theFEs = new FE_Element *[numFE]) == 0)) {
opserr << "WARNING TransformationConstraintHandler::handle() - ";
opserr << "ran out of memory for FE_elements";
opserr << " array of size " << numFE << endln;
return -2;
}
for (i=0; i<numFE; i++) theFEs[i] = 0;
ElementIter &theEle1 = theDomain->getElements();
// int numConstraints = numMPConstraints+numSPConstraints;
int numFeEle = 0;
int numFE = 0;
while ((elePtr = theEle1()) != 0) {
int tag = elePtr->getTag();
if (elePtr->isSubdomain() == true) {
Subdomain *theSub = (Subdomain *)elePtr;
if (theSub->doesIndependentAnalysis() == false) {
if (transformedEle.getLocation(tag) < 0) {
if ((fePtr = new FE_Element(numFeEle, elePtr)) == 0) {
opserr << "WARNING TransformationConstraintHandler::handle()";
opserr << " - ran out of memory";
opserr << " creating FE_Element " << elePtr->getTag() << endln;
if (mps != 0) delete [] mps;
if (sps != 0) delete [] sps;
return -5;
}
} else {
if ((fePtr = new TransformationFE(numFeEle, elePtr)) == 0) {
opserr << "WARNING TransformationConstraintHandler::handle()";
opserr << " - ran out of memory";
opserr << " creating TransformationFE " << elePtr->getTag() << endln;
if (mps != 0) delete [] mps;
if (sps != 0) delete [] sps;
return -6;
}
theFEs[numFE++] = fePtr;
}
numFeEle++;
theModel->addFE_Element(fePtr);
theSub->setFE_ElementPtr(fePtr);
}
} else {
if (transformedEle.getLocation(tag) < 0) {
if ((fePtr = new FE_Element(numFeEle, elePtr)) == 0) {
opserr << "WARNING TransformationConstraintHandler::handle()";
opserr << " - ran out of memory";
opserr << " creating FE_Element " << elePtr->getTag() << endln;
if (mps != 0) delete [] mps;
if (sps != 0) delete [] sps;
return -5;
}
} else {
if ((fePtr = new TransformationFE(numFeEle, elePtr)) == 0) {
opserr << "WARNING TransformationConstraintHandler::handle()";
opserr << " - ran out of memory";
opserr << " creating TransformationFE " << elePtr->getTag() << endln;
if (mps != 0) delete [] mps;
if (sps != 0) delete [] sps;
return -6;
}
theFEs[numFE++] = fePtr;
}
numFeEle++;
theModel->addFE_Element(fePtr);
}
}
theModel->setNumEqn(countDOF);
// set the number of eqn in the model
// now see if we have to set any of the dof's to -3
// int numLast = 0;
if (nodesLast != 0)
for (i=0; i<nodesLast->Size(); i++) {
int nodeID = (*nodesLast)(i);
Node *nodPtr = theDomain->getNode(nodeID);
if (nodPtr != 0) {
DOF_Group *dofPtr = nodPtr->getDOF_GroupPtr();
const ID &id = dofPtr->getID();
// set all the dof values to -3
for (int j=0; j < id.Size(); j++) {
if (id(j) == -2) {
dofPtr->setID(j,-3);
count3++;
} else {
opserr << "WARNING TransformationConstraintHandler::handle() ";
opserr << " - boundary sp constraint in subdomain";
opserr << " this should not be - results suspect \n";
if (mps != 0) delete [] mps;
if (sps != 0) delete [] sps;
}
}
}
}
if (mps != 0) delete [] mps;
if (sps != 0) delete [] sps;
return count3;
}