Example 1 with DataClassifier
use of org.osate.aadl2.DataClassifier in project AGREE by loonwerks.
the class AgreeASTBuilder method portToAgreeVar.
private void portToAgreeVar(List<AgreeVar> outputs, List<AgreeVar> inputs, FeatureInstance feature, List<AgreeStatement> assumptions, List<AgreeStatement> guarantees) {
Feature dataFeature = feature.getFeature();
NamedElement dataClass;
if (dataFeature instanceof DataPort) {
DataPort dataPort = (DataPort) dataFeature;
dataClass = dataPort.getDataFeatureClassifier();
} else if (dataFeature instanceof EventDataPort) {
EventDataPort eventDataPort = (EventDataPort) dataFeature;
dataClass = eventDataPort.getDataFeatureClassifier();
} else {
dataClass = null;
}
String name = feature.getName();
boolean isEvent = feature.getCategory() == FeatureCategory.EVENT_DATA_PORT || feature.getCategory() == FeatureCategory.EVENT_PORT;
if (isEvent) {
AgreeVar var = new AgreeVar(name + eventSuffix, NamedType.BOOL, feature.getFeature(), feature.getComponentInstance(), feature);
switch(feature.getDirection()) {
case IN:
inputs.add(var);
break;
case OUT:
outputs.add(var);
break;
default:
throw new AgreeException("Unable to reason about bi-directional event port: " + dataFeature.getQualifiedName());
}
}
if (dataClass == null) {
// we do not reason about this type
return;
}
AgreeTypeSystem.TypeDef td = AgreeTypeSystem.inferFromNamedElement(dataFeature);
Type type = symbolTable.updateLustreTypeMap(td);
if (type == null) {
// we do not reason about this type
return;
}
AgreeVar agreeVar = new AgreeVar(name, type, feature.getFeature(), feature.getComponentInstance(), feature);
switch(feature.getDirection()) {
case IN:
inputs.add(agreeVar);
if (dataClass instanceof DataClassifier) {
List<Expr> constraints = getConstraintsFromTypeDef(name, td);
if (!constraints.isEmpty()) {
assumptions.add(getDataClassifierTypePredicate(feature.getName(), constraints, dataFeature));
}
}
break;
case OUT:
outputs.add(agreeVar);
if (dataClass instanceof DataClassifier) {
List<Expr> constraints = getConstraintsFromTypeDef(name, td);
if (!constraints.isEmpty()) {
guarantees.add(getDataClassifierTypePredicate(feature.getName(), constraints, dataFeature));
}
}
break;
default:
throw new AgreeException("Unable to reason about bi-directional event port: " + dataFeature.getQualifiedName());
}
}
Also used :
DataClassifier(org.osate.aadl2.DataClassifier)
Feature(org.osate.aadl2.Feature)
DataPort(org.osate.aadl2.DataPort)
EventDataPort(org.osate.aadl2.EventDataPort)
AgreeTypeSystem(com.rockwellcollins.atc.agree.AgreeTypeSystem)
ConnectionType(com.rockwellcollins.atc.agree.analysis.ast.AgreeAADLConnection.ConnectionType)
Type(jkind.lustre.Type)
NamedType(jkind.lustre.NamedType)
FeatureGroupType(org.osate.aadl2.FeatureGroupType)
DataSubcomponentType(org.osate.aadl2.DataSubcomponentType)
ComponentType(org.osate.aadl2.ComponentType)
EnumLitExpr(com.rockwellcollins.atc.agree.agree.EnumLitExpr)
IndicesExpr(com.rockwellcollins.atc.agree.agree.IndicesExpr)
TimeRiseExpr(com.rockwellcollins.atc.agree.agree.TimeRiseExpr)
RecordAccessExpr(jkind.lustre.RecordAccessExpr)
FlatmapExpr(com.rockwellcollins.atc.agree.agree.FlatmapExpr)
TimeFallExpr(com.rockwellcollins.atc.agree.agree.TimeFallExpr)
RealLitExpr(com.rockwellcollins.atc.agree.agree.RealLitExpr)
GetPropertyExpr(com.rockwellcollins.atc.agree.agree.GetPropertyExpr)
Expr(jkind.lustre.Expr)
CastExpr(jkind.lustre.CastExpr)
NodeCallExpr(jkind.lustre.NodeCallExpr)
TimeOfExpr(com.rockwellcollins.atc.agree.agree.TimeOfExpr)
BoolExpr(jkind.lustre.BoolExpr)
BinaryExpr(jkind.lustre.BinaryExpr)
RealExpr(jkind.lustre.RealExpr)
ArrayExpr(jkind.lustre.ArrayExpr)
PrevExpr(com.rockwellcollins.atc.agree.agree.PrevExpr)
IdExpr(jkind.lustre.IdExpr)
TimeExpr(com.rockwellcollins.atc.agree.agree.TimeExpr)
FoldRightExpr(com.rockwellcollins.atc.agree.agree.FoldRightExpr)
TagExpr(com.rockwellcollins.atc.agree.agree.TagExpr)
EventExpr(com.rockwellcollins.atc.agree.agree.EventExpr)
LatchedExpr(com.rockwellcollins.atc.agree.agree.LatchedExpr)
NamedElmExpr(com.rockwellcollins.atc.agree.agree.NamedElmExpr)
FunctionCallExpr(jkind.lustre.FunctionCallExpr)
SelectionExpr(com.rockwellcollins.atc.agree.agree.SelectionExpr)
IfThenElseExpr(jkind.lustre.IfThenElseExpr)
TupleExpr(jkind.lustre.TupleExpr)
UnaryExpr(jkind.lustre.UnaryExpr)
ArraySubExpr(com.rockwellcollins.atc.agree.agree.ArraySubExpr)
IntExpr(jkind.lustre.IntExpr)
PreExpr(com.rockwellcollins.atc.agree.agree.PreExpr)
RecordLitExpr(com.rockwellcollins.atc.agree.agree.RecordLitExpr)
ExistsExpr(com.rockwellcollins.atc.agree.agree.ExistsExpr)
FoldLeftExpr(com.rockwellcollins.atc.agree.agree.FoldLeftExpr)
RecordUpdateExpr(com.rockwellcollins.atc.agree.agree.RecordUpdateExpr)
ForallExpr(com.rockwellcollins.atc.agree.agree.ForallExpr)
ArrayAccessExpr(jkind.lustre.ArrayAccessExpr)
ArrayUpdateExpr(com.rockwellcollins.atc.agree.agree.ArrayUpdateExpr)
BoolLitExpr(com.rockwellcollins.atc.agree.agree.BoolLitExpr)
NodeBodyExpr(com.rockwellcollins.atc.agree.agree.NodeBodyExpr)
IntLitExpr(com.rockwellcollins.atc.agree.agree.IntLitExpr)
CallExpr(com.rockwellcollins.atc.agree.agree.CallExpr)
ArrayLiteralExpr(com.rockwellcollins.atc.agree.agree.ArrayLiteralExpr)
AgreeException(com.rockwellcollins.atc.agree.analysis.AgreeException)
EventDataPort(org.osate.aadl2.EventDataPort)
NamedElement(org.osate.aadl2.NamedElement)
Example 2 with DataClassifier
use of org.osate.aadl2.DataClassifier in project osate2 by osate.
the class Binpack method binPackSystem.
protected AssignmentResult binPackSystem(final SystemInstance root, Expansor expansor, LowLevelBinPacker packer, final AnalysisErrorReporterManager errManager, final SystemOperationMode som) {
existsProcessorWithMIPS = false;
existsProcessorWithoutMIPS = false;
existsThreadWithReferenceProcessor = false;
existsThreadWithoutReferenceProcessor = false;
/*
* Map from AADL ComponentInstances representing threads to
* the bin packing SoftwareNode that models the thread.
*/
final Map<ComponentInstance, AADLThread> threadToSoftwareNode = new HashMap<>();
/*
* Set of thread components. This is is the keySet of
* threadToSoftwareNode.
*/
final Set<ComponentInstance> threads = threadToSoftwareNode.keySet();
/*
* Map from AADL ComponentInstances representing threads to
* the set of AADL ComponentInstances that cannot be collocated
* with it.
*/
final Map<ComponentInstance, Set<ComponentInstance>> notCollocated = new HashMap<>();
/*
* Map from AADL ComponentInstance representing processors to
* the bin packing Processor that models them.
*/
final Map<ComponentInstance, AADLProcessor> procToHardware = new HashMap<>();
/*
* Map from AADL BusInstance representing Buses to
* The bin packing Link that models them.
*/
final Map<ComponentInstance, AADLBus> busToHardware = new HashMap<>();
/*
* One site to rule them all! We don't care about the site
* architecture, so just create one site to hold everything.
* We aren't worried about power or space issues either, so
* we just set them to 100.0 because those are nice values.
* The site accepts AADL processors.
*/
final SiteArchitecture siteArchitecture = new SiteArchitecture();
AADLProcessor ap = AADLProcessor.PROTOTYPE;
final Site theSite = new Site(100.0, 100.0, new SiteGuest[] { ap });
siteArchitecture.addSite(theSite);
/*
* The hardware is fixed based on the AADL specification, so we
* use the NoExpansionExpansor to keep the hardware from being
* generated for us.
*/
expansor.setSiteArchitecture(siteArchitecture);
/*
* Populate the problem space based on the AADL specification. First
* we walk the instance model and add all the processors. Then we
* walk the instance model again to add all the threads.
*/
OutDegreeAssignmentProblem problem1 = new OutDegreeAssignmentProblem(new OutDegreeComparator(), new BandwidthComparator(), new CapacityComparator());
problem1.setErrorReporter(new BinPackErrorReporter());
final OutDegreeAssignmentProblem problem = problem1;
// Add procs
final ForAllElement addProcessors = new ForAllElement(errManager) {
@Override
public void process(Element obj) {
ComponentInstance ci = (ComponentInstance) obj;
// the createInstance method already assigns a default MIPS if none exists
double mips = GetProperties.getProcessorMIPS(ci);
// checking consistency;
existsProcessorWithMIPS |= (mips != 0);
existsProcessorWithoutMIPS |= (mips == 0);
final AADLProcessor proc = AADLProcessor.createInstance(ci);
if (proc != null) {
System.out.println("Processor cycles Per sec:" + proc.getCyclesPerSecond());
siteArchitecture.addSiteGuest(proc, theSite);
problem.getHardwareGraph().add(proc);
// add reverse mapping
procToHardware.put(ci, proc);
}
}
};
addProcessors.processPreOrderComponentInstance(root, ComponentCategory.PROCESSOR);
/*
* Get all the links
*/
final ForAllElement addBuses = new ForAllElement(errManager) {
@Override
public void process(Element obj) {
ComponentInstance bi = (ComponentInstance) obj;
final AADLBus bus = AADLBus.createInstance(bi);
busToHardware.put(bi, bus);
}
};
addBuses.processPreOrderComponentInstance(root, ComponentCategory.BUS);
/*
* create the links between processors and busses
* (i.e., process connections)
*/
for (final Iterator<ConnectionInstance> i = root.getAllConnectionInstances().iterator(); i.hasNext(); ) {
final ConnectionInstance connInst = i.next();
if (connInst.getKind() == ConnectionKind.ACCESS_CONNECTION) {
InstanceObject src = connInst.getSource();
InstanceObject dst = connInst.getDestination();
AADLBus bus = null;
AADLProcessor processor = null;
// swap if i got them in the opposite order
if (src instanceof FeatureInstance) {
InstanceObject tmp = dst;
dst = src;
src = tmp;
}
bus = busToHardware.get(src);
FeatureInstance fi = (FeatureInstance) dst;
processor = procToHardware.get(fi.getContainingComponentInstance());
if (bus != null && processor != null) {
bus.add(processor);
processor.attachToLink(bus);
}
}
}
for (Iterator<AADLBus> iBus = busToHardware.values().iterator(); iBus.hasNext(); ) {
AADLBus bus = iBus.next();
problem.addLink(bus);
siteArchitecture.addSiteGuest(bus, theSite);
}
// Add threads
final ForAllElement addThreads = new ForAllElement(errManager) {
@Override
public void process(Element obj) {
final ComponentInstance ci = (ComponentInstance) obj;
/**
* JD - check the modes according to what was
* suggested by Dave.
*/
boolean selected = true;
if (som.getCurrentModes().size() > 0) {
selected = false;
for (ModeInstance mi : ci.getInModes()) {
if (mi == som.getCurrentModes().get(0)) {
selected = true;
}
}
}
if (!selected) {
return;
}
final AADLThread thread = AADLThread.createInstance(ci);
double refmips = GetProperties.getReferenceMIPS(ci);
// validate consistency
existsThreadWithReferenceProcessor |= (refmips != 0);
existsThreadWithoutReferenceProcessor |= (refmips == 0);
problem.getSoftwareGraph().add(thread);
// logInfo(thread.getReport());
// add reverse mapping
threadToSoftwareNode.put(ci, thread);
// Process NOT_COLLOCATED property.
RecordValue disjunctFrom = GetProperties.getNotCollocated(ci);
if (disjunctFrom == null) {
return;
}
final Set<ComponentInstance> disjunctSet = new HashSet<>();
ListValue tvl = (ListValue) PropertyUtils.getRecordFieldValue(disjunctFrom, "Targets");
for (PropertyExpression ref : tvl.getOwnedListElements()) {
/*
* Add all the instances rooted at the named instance.
* For example, the thread may be declared to be disjunct
* from another process, so we really want to be disjunct
* from the other threads contained in that process.
*/
final InstanceReferenceValue rv = (InstanceReferenceValue) ref;
final ComponentInstance refCI = (ComponentInstance) rv.getReferencedInstanceObject();
disjunctSet.addAll(refCI.getAllComponentInstances());
}
if (!disjunctSet.isEmpty()) {
notCollocated.put(ci, disjunctSet);
}
}
};
addThreads.processPreOrderComponentInstance(root, ComponentCategory.THREAD);
// only some processors have mips
if (existsProcessorWithMIPS && existsProcessorWithoutMIPS) {
errManager.error(root, "Not all processors have MIPSCapacity");
return null;
}
// only some threads with reference processor
if (existsThreadWithReferenceProcessor && existsThreadWithoutReferenceProcessor) {
errManager.error(root, "Not all threads have execution time reference processor");
return null;
}
// threads and processors mips spec not consistent
if (existsProcessorWithMIPS && existsThreadWithoutReferenceProcessor) {
errManager.error(root, "There are some processors with MIPSCapacity but some threads without execution time reference processors");
return null;
}
if (existsProcessorWithoutMIPS && existsThreadWithReferenceProcessor) {
errManager.error(root, "There are some threads with execution time reference processors but not all processors have MIPSCapacity");
return null;
}
// Add thread connections (Messages)
for (final Iterator<ConnectionInstance> i = root.getAllConnectionInstances().iterator(); i.hasNext(); ) {
final ConnectionInstance connInst = i.next();
if (connInst.getKind() == ConnectionKind.PORT_CONNECTION) {
if (!(connInst.getSource() instanceof FeatureInstance && connInst.getDestination() instanceof FeatureInstance)) {
continue;
}
final FeatureInstance src = (FeatureInstance) connInst.getSource();
final FeatureInstance dst = (FeatureInstance) connInst.getDestination();
final ComponentInstance ci = src.getContainingComponentInstance();
AADLThread t1 = threadToSoftwareNode.get(ci);
AADLThread t2 = threadToSoftwareNode.get(dst.getContainingComponentInstance());
if (t1 != null && t2 != null) {
Feature srcAP = src.getFeature();
// TODO: get the property directly
Classifier cl = srcAP.getClassifier();
if (cl instanceof DataClassifier) {
DataClassifier srcDC = (DataClassifier) cl;
double dataSize = 0.0;
double threadPeriod = 0.0;
try {
dataSize = AadlContribUtils.getDataSize(srcDC, SizeUnits.BYTES);
} catch (Exception e) {
errManager.warning(connInst, "No Data Size for connection");
}
try {
threadPeriod = GetProperties.getPeriodinNS(ci);
} catch (Exception e) {
errManager.warning(connInst, "No Period for connection");
}
// Now I can create the Message
Message msg = new Message((long) dataSize, (long) threadPeriod, (long) threadPeriod, t1, t2);
System.out.println(">>>>>>>>>> Adding message (" + Long.toString((long) dataSize) + "/" + Long.toString((long) threadPeriod) + ") between " + t1.getName() + " and " + t2.getName() + " based on connection " + connInst.getName());
problem.addMessage(msg);
} else {
errManager.warning(connInst, "No Data Classifier for connection");
}
}
}
}
// Add collocation constraints
for (final Iterator<ComponentInstance> constrained = notCollocated.keySet().iterator(); constrained.hasNext(); ) {
final ComponentInstance ci = constrained.next();
final SoftwareNode sn = threadToSoftwareNode.get(ci);
final Set<ComponentInstance> disjunctFrom = notCollocated.get(ci);
for (final Iterator<ComponentInstance> dfIter = disjunctFrom.iterator(); dfIter.hasNext(); ) {
/*
* Items in the disjunctFrom set do not have to be thread
* instances because of the way we add items to it (see above).
* We are only interested in the thread instances here, in
* particular because we only create SoftwareNodes for the
* thread instances, and we don't want to get null return
* values from the threadToSoftwareNode map.
*/
final ComponentInstance ci2 = dfIter.next();
if (ci2.getCategory() == ComponentCategory.THREAD) {
final SoftwareNode sn2 = threadToSoftwareNode.get(ci2);
final SoftwareNode[] disjunction = new SoftwareNode[] { sn, sn2 };
problem.addConstraint(new Disjoint(disjunction));
}
}
}
/*
* Add Allowed_Processor_Binding and
* Allowed_Processor_Binding_Class constraints
*/
for (final Iterator<ComponentInstance> i = threads.iterator(); i.hasNext(); ) {
final ComponentInstance thr = i.next();
final SoftwareNode thrSN = threadToSoftwareNode.get(thr);
Collection<ComponentInstance> allowed = getActualProcessorBindings(thr);
if (allowed.size() == 0) {
allowed = getAllowedProcessorBindings(thr);
}
if (allowed.size() > 0) {
final Object[] allowedProcs = new Object[allowed.size()];
int idx = 0;
for (Iterator<ComponentInstance> j = allowed.iterator(); j.hasNext(); idx++) {
final ComponentInstance proc = j.next();
allowedProcs[idx] = procToHardware.get(proc);
}
problem.addConstraint(new SetConstraint(new SoftwareNode[] { thrSN }, allowedProcs));
}
}
// Try to bin pack
final NFCHoBinPacker highPacker = new NFCHoBinPacker(packer);
final boolean res = highPacker.solve(problem);
return new AssignmentResult(problem, res);
}
Also used :
HashMap(java.util.HashMap)
SiteArchitecture(EAnalysis.BinPacking.SiteArchitecture)
Feature(org.osate.aadl2.Feature)
SetConstraint(EAnalysis.BinPacking.SetConstraint)
ComponentInstance(org.osate.aadl2.instance.ComponentInstance)
NFCHoBinPacker(EAnalysis.BinPacking.NFCHoBinPacker)
HashSet(java.util.HashSet)
ListValue(org.osate.aadl2.ListValue)
AssignmentResult(EAnalysis.BinPacking.AssignmentResult)
InstanceObject(org.osate.aadl2.instance.InstanceObject)
Site(EAnalysis.BinPacking.Site)
ConnectionInstance(org.osate.aadl2.instance.ConnectionInstance)
ModeInstance(org.osate.aadl2.instance.ModeInstance)
CapacityComparator(EAnalysis.BinPacking.CapacityComparator)
Set(java.util.Set)
HashSet(java.util.HashSet)
Message(EAnalysis.BinPacking.Message)
FeatureInstance(org.osate.aadl2.instance.FeatureInstance)
SoftwareNode(EAnalysis.BinPacking.SoftwareNode)
Element(org.osate.aadl2.Element)
ForAllElement(org.osate.aadl2.modelsupport.modeltraversal.ForAllElement)
NamedElement(org.osate.aadl2.NamedElement)
Classifier(org.osate.aadl2.Classifier)
SystemClassifier(org.osate.aadl2.SystemClassifier)
ComponentClassifier(org.osate.aadl2.ComponentClassifier)
DataClassifier(org.osate.aadl2.DataClassifier)
ProcessorClassifier(org.osate.aadl2.ProcessorClassifier)
DataClassifier(org.osate.aadl2.DataClassifier)
InstanceObject(org.osate.aadl2.instance.InstanceObject)
Disjoint(EAnalysis.BinPacking.Disjoint)
PropertyExpression(org.osate.aadl2.PropertyExpression)
RecordValue(org.osate.aadl2.RecordValue)
InvalidModelException(org.osate.aadl2.properties.InvalidModelException)
PropertyNotPresentException(org.osate.aadl2.properties.PropertyNotPresentException)
Disjoint(EAnalysis.BinPacking.Disjoint)
SetConstraint(EAnalysis.BinPacking.SetConstraint)
OutDegreeAssignmentProblem(EAnalysis.BinPacking.OutDegreeAssignmentProblem)
ForAllElement(org.osate.aadl2.modelsupport.modeltraversal.ForAllElement)
BandwidthComparator(EAnalysis.BinPacking.BandwidthComparator)
OutDegreeComparator(EAnalysis.BinPacking.OutDegreeComparator)
InstanceReferenceValue(org.osate.aadl2.instance.InstanceReferenceValue)
Example 3 with DataClassifier
use of org.osate.aadl2.DataClassifier in project osate2 by osate.
the class AadlBaPackageImpl method initializePackageContents.
/**
* Complete the initialization of the package and its meta-model. This
* method is guarded to have no affect on any invocation but its first.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public void initializePackageContents() {
if (isInitialized)
return;
isInitialized = true;
// Initialize package
setName(eNAME);
setNsPrefix(eNS_PREFIX);
setNsURI(eNS_URI);
// Obtain other dependent packages
Aadl2Package theAadl2Package = (Aadl2Package) EPackage.Registry.INSTANCE.getEPackage(Aadl2Package.eNS_URI);
// Create type parameters
// Set bounds for type parameters
// Add supertypes to classes
actualPortHolderEClass.getESuperTypes().add(this.getPortHolder());
assignmentActionEClass.getESuperTypes().add(this.getBasicAction());
anyEClass.getESuperTypes().add(this.getValueExpression());
basicActionEClass.getESuperTypes().add(this.getBehaviorAction());
basicPropertyHolderEClass.getESuperTypes().add(this.getPropertyElementHolder());
behaviorActionEClass.getESuperTypes().add(this.getBehaviorActions());
behaviorActionBlockEClass.getESuperTypes().add(this.getBehaviorAction());
behaviorActionBlockEClass.getESuperTypes().add(this.getBehaviorElement());
behaviorActionCollectionEClass.getESuperTypes().add(this.getBehaviorActions());
behaviorActionsEClass.getESuperTypes().add(this.getBehaviorElement());
behaviorActionSequenceEClass.getESuperTypes().add(this.getBehaviorActionCollection());
behaviorActionSetEClass.getESuperTypes().add(this.getBehaviorActionCollection());
behaviorAnnexEClass.getESuperTypes().add(theAadl2Package.getAnnexSubclause());
behaviorAnnexEClass.getESuperTypes().add(this.getBehaviorElement());
behaviorBooleanLiteralEClass.getESuperTypes().add(theAadl2Package.getBooleanLiteral());
behaviorBooleanLiteralEClass.getESuperTypes().add(this.getLiteral());
behaviorConditionEClass.getESuperTypes().add(this.getBehaviorElement());
behaviorElementEClass.getESuperTypes().add(theAadl2Package.getElement());
behaviorIntegerLiteralEClass.getESuperTypes().add(theAadl2Package.getIntegerLiteral());
behaviorIntegerLiteralEClass.getESuperTypes().add(this.getNumericLiteral());
behaviorNamedElementEClass.getESuperTypes().add(theAadl2Package.getNamedElement());
behaviorNamedElementEClass.getESuperTypes().add(this.getBehaviorElement());
behaviorPropertyConstantEClass.getESuperTypes().add(this.getValueConstant());
behaviorPropertyConstantEClass.getESuperTypes().add(this.getIntegerValueConstant());
behaviorRealLiteralEClass.getESuperTypes().add(theAadl2Package.getRealLiteral());
behaviorRealLiteralEClass.getESuperTypes().add(this.getNumericLiteral());
behaviorStateEClass.getESuperTypes().add(this.getBehaviorNamedElement());
behaviorStringLiteralEClass.getESuperTypes().add(theAadl2Package.getStringLiteral());
behaviorStringLiteralEClass.getESuperTypes().add(this.getLiteral());
behaviorTimeEClass.getESuperTypes().add(this.getBehaviorElement());
behaviorTransitionEClass.getESuperTypes().add(this.getBehaviorNamedElement());
behaviorVariableEClass.getESuperTypes().add(this.getBehaviorNamedElement());
behaviorVariableEClass.getESuperTypes().add(theAadl2Package.getArrayableElement());
behaviorVariableEClass.getESuperTypes().add(theAadl2Package.getData());
behaviorVariableHolderEClass.getESuperTypes().add(this.getDataHolder());
behaviorVariableHolderEClass.getESuperTypes().add(this.getIndexableElement());
behaviorVariableHolderEClass.getESuperTypes().add(this.getTarget());
behaviorVariableHolderEClass.getESuperTypes().add(this.getElementValues());
behaviorVariableHolderEClass.getESuperTypes().add(this.getSubprogramHolderProxy());
behaviorVariableHolderEClass.getESuperTypes().add(this.getClassifierFeatureHolder());
calledSubprogramHolderEClass.getESuperTypes().add(this.getElementHolder());
calledSubprogramHolderEClass.getESuperTypes().add(this.getIndexableElement());
calledSubprogramHolderEClass.getESuperTypes().add(this.getGroupableElement());
classifierFeatureHolderEClass.getESuperTypes().add(this.getElementHolder());
classifierFeaturePropertyReferenceEClass.getESuperTypes().add(this.getPropertyReference());
classifierPropertyReferenceEClass.getESuperTypes().add(this.getPropertyReference());
communicationActionEClass.getESuperTypes().add(this.getBasicAction());
completionRelativeTimeoutEClass.getESuperTypes().add(this.getBehaviorTime());
completionRelativeTimeoutEClass.getESuperTypes().add(this.getDispatchRelativeTimeout());
condStatementEClass.getESuperTypes().add(this.getBehaviorAction());
dataAccessHolderEClass.getESuperTypes().add(this.getDataHolder());
dataAccessHolderEClass.getESuperTypes().add(this.getTarget());
dataAccessHolderEClass.getESuperTypes().add(this.getElementValues());
dataAccessHolderEClass.getESuperTypes().add(this.getSubprogramHolderProxy());
dataAccessHolderEClass.getESuperTypes().add(this.getFeatureHolder());
dataAccessPrototypeHolderEClass.getESuperTypes().add(this.getDataHolder());
dataAccessPrototypeHolderEClass.getESuperTypes().add(this.getPrototypeHolder());
dataAccessPrototypeHolderEClass.getESuperTypes().add(this.getTarget());
dataAccessPrototypeHolderEClass.getESuperTypes().add(this.getElementValues());
dataComponentReferenceEClass.getESuperTypes().add(this.getElementValues());
dataComponentReferenceEClass.getESuperTypes().add(this.getTarget());
dataComponentReferenceEClass.getESuperTypes().add(this.getValueVariable());
dataComponentReferenceEClass.getESuperTypes().add(this.getIntegerValueVariable());
dataHolderEClass.getESuperTypes().add(this.getElementHolder());
dataHolderEClass.getESuperTypes().add(this.getIntegerValueVariable());
dataHolderEClass.getESuperTypes().add(this.getValueVariable());
dataPortHolderEClass.getESuperTypes().add(this.getActualPortHolder());
dataPortHolderEClass.getESuperTypes().add(this.getTarget());
dataSubcomponentHolderEClass.getESuperTypes().add(this.getDataHolder());
dataSubcomponentHolderEClass.getESuperTypes().add(this.getTarget());
dataSubcomponentHolderEClass.getESuperTypes().add(this.getElementValues());
dataSubcomponentHolderEClass.getESuperTypes().add(this.getSubprogramHolderProxy());
dataSubcomponentHolderEClass.getESuperTypes().add(this.getSubcomponentHolder());
dispatchConditionEClass.getESuperTypes().add(this.getBehaviorCondition());
dispatchConjunctionEClass.getESuperTypes().add(this.getBehaviorElement());
dispatchRelativeTimeoutEClass.getESuperTypes().add(this.getDispatchTriggerCondition());
dispatchTriggerEClass.getESuperTypes().add(this.getBehaviorElement());
dispatchTriggerConditionEClass.getESuperTypes().add(this.getBehaviorElement());
dispatchTriggerConditionStopEClass.getESuperTypes().add(this.getDispatchTriggerCondition());
dispatchTriggerLogicalExpressionEClass.getESuperTypes().add(this.getDispatchTriggerCondition());
elementHolderEClass.getESuperTypes().add(this.getBehaviorElement());
elementValuesEClass.getESuperTypes().add(this.getBehaviorElement());
elseStatementEClass.getESuperTypes().add(this.getCondStatement());
enumLiteralHolderEClass.getESuperTypes().add(this.getPropertyElementHolder());
eventDataPortHolderEClass.getESuperTypes().add(this.getActualPortHolder());
eventDataPortHolderEClass.getESuperTypes().add(this.getElementValues());
eventDataPortHolderEClass.getESuperTypes().add(this.getDispatchTrigger());
eventDataPortHolderEClass.getESuperTypes().add(this.getModeSwitchTrigger());
eventDataPortHolderEClass.getESuperTypes().add(this.getTarget());
eventPortHolderEClass.getESuperTypes().add(this.getActualPortHolder());
eventPortHolderEClass.getESuperTypes().add(this.getDispatchTrigger());
eventPortHolderEClass.getESuperTypes().add(this.getModeSwitchTrigger());
eventPortHolderEClass.getESuperTypes().add(this.getTarget());
executeConditionEClass.getESuperTypes().add(this.getBehaviorCondition());
executionTimeoutCatchEClass.getESuperTypes().add(this.getExecuteCondition());
factorEClass.getESuperTypes().add(this.getBehaviorElement());
featureHolderEClass.getESuperTypes().add(this.getClassifierFeatureHolder());
featureHolderEClass.getESuperTypes().add(this.getIndexableElement());
featureHolderEClass.getESuperTypes().add(this.getGroupableElement());
featurePrototypeHolderEClass.getESuperTypes().add(this.getDataHolder());
featurePrototypeHolderEClass.getESuperTypes().add(this.getPrototypeHolder());
featurePrototypeHolderEClass.getESuperTypes().add(this.getTarget());
featurePrototypeHolderEClass.getESuperTypes().add(this.getElementValues());
forOrForAllStatementEClass.getESuperTypes().add(this.getLoopStatement());
groupableElementEClass.getESuperTypes().add(this.getBehaviorElement());
groupHolderEClass.getESuperTypes().add(this.getElementHolder());
groupHolderEClass.getESuperTypes().add(this.getIndexableElement());
groupPrototypeHolderEClass.getESuperTypes().add(this.getGroupHolder());
ifStatementEClass.getESuperTypes().add(this.getCondStatement());
ifStatementEClass.getESuperTypes().add(this.getElseStatement());
indexableElementEClass.getESuperTypes().add(this.getBehaviorElement());
integerRangeEClass.getESuperTypes().add(this.getElementValues());
integerValueEClass.getESuperTypes().add(this.getBehaviorElement());
integerValueConstantEClass.getESuperTypes().add(this.getIntegerValue());
integerValueConstantEClass.getESuperTypes().add(this.getValueConstant());
integerValueVariableEClass.getESuperTypes().add(this.getIntegerValue());
integerValueVariableEClass.getESuperTypes().add(this.getValueVariable());
iterativeVariableEClass.getESuperTypes().add(this.getBehaviorNamedElement());
iterativeVariableHolderEClass.getESuperTypes().add(this.getDataHolder());
literalEClass.getESuperTypes().add(this.getValueConstant());
literalEClass.getESuperTypes().add(this.getIntegerValueConstant());
lockActionEClass.getESuperTypes().add(this.getSharedDataAction());
loopStatementEClass.getESuperTypes().add(this.getCondStatement());
lowerBoundEClass.getESuperTypes().add(this.getPropertyNameField());
numericLiteralEClass.getESuperTypes().add(theAadl2Package.getNumberValue());
numericLiteralEClass.getESuperTypes().add(this.getLiteral());
otherwiseEClass.getESuperTypes().add(this.getExecuteCondition());
parameterHolderEClass.getESuperTypes().add(this.getDataHolder());
parameterHolderEClass.getESuperTypes().add(this.getTarget());
parameterHolderEClass.getESuperTypes().add(this.getElementValues());
parameterHolderEClass.getESuperTypes().add(this.getFeatureHolder());
parameterLabelEClass.getESuperTypes().add(this.getBehaviorElement());
portCountValueEClass.getESuperTypes().add(this.getActualPortHolder());
portDequeueActionEClass.getESuperTypes().add(this.getCommunicationAction());
portDequeueValueEClass.getESuperTypes().add(this.getActualPortHolder());
portFreezeActionEClass.getESuperTypes().add(this.getActualPortHolder());
portFreezeActionEClass.getESuperTypes().add(this.getCommunicationAction());
portFreshValueEClass.getESuperTypes().add(this.getActualPortHolder());
portHolderEClass.getESuperTypes().add(this.getValueVariable());
portHolderEClass.getESuperTypes().add(this.getIntegerValueVariable());
portHolderEClass.getESuperTypes().add(this.getFeatureHolder());
portPrototypeHolderEClass.getESuperTypes().add(this.getPortHolder());
portPrototypeHolderEClass.getESuperTypes().add(this.getPrototypeHolder());
portPrototypeHolderEClass.getESuperTypes().add(this.getTarget());
portSendActionEClass.getESuperTypes().add(this.getCommunicationAction());
propertyAssociationHolderEClass.getESuperTypes().add(this.getPropertyElementHolder());
propertyElementHolderEClass.getESuperTypes().add(this.getBehaviorElement());
propertyElementHolderEClass.getESuperTypes().add(this.getIndexableElement());
propertyExpressionHolderEClass.getESuperTypes().add(this.getPropertyElementHolder());
propertyNameFieldEClass.getESuperTypes().add(this.getBehaviorElement());
propertyNameHolderEClass.getESuperTypes().add(this.getBehaviorElement());
propertyReferenceEClass.getESuperTypes().add(this.getValueConstant());
propertyReferenceEClass.getESuperTypes().add(this.getIntegerValueConstant());
propertySetPropertyReferenceEClass.getESuperTypes().add(this.getPropertyReference());
propertyTypeHolderEClass.getESuperTypes().add(this.getPropertyElementHolder());
prototypeHolderEClass.getESuperTypes().add(this.getIndexableElement());
prototypeHolderEClass.getESuperTypes().add(this.getGroupableElement());
prototypeHolderEClass.getESuperTypes().add(this.getClassifierFeatureHolder());
relationEClass.getESuperTypes().add(this.getBehaviorElement());
sharedDataActionEClass.getESuperTypes().add(this.getCommunicationAction());
simpleExpressionEClass.getESuperTypes().add(this.getBehaviorElement());
structUnionElementEClass.getESuperTypes().add(this.getBehaviorNamedElement());
structUnionElementHolderEClass.getESuperTypes().add(this.getDataHolder());
structUnionElementHolderEClass.getESuperTypes().add(this.getIndexableElement());
structUnionElementHolderEClass.getESuperTypes().add(this.getTarget());
structUnionElementHolderEClass.getESuperTypes().add(this.getElementValues());
subcomponentHolderEClass.getESuperTypes().add(this.getClassifierFeatureHolder());
subcomponentHolderEClass.getESuperTypes().add(this.getIndexableElement());
subcomponentHolderEClass.getESuperTypes().add(this.getGroupableElement());
subprogramAccessHolderEClass.getESuperTypes().add(this.getDispatchTriggerCondition());
subprogramAccessHolderEClass.getESuperTypes().add(this.getCalledSubprogramHolder());
subprogramAccessHolderEClass.getESuperTypes().add(this.getFeatureHolder());
subprogramCallActionEClass.getESuperTypes().add(this.getCommunicationAction());
subprogramHolderEClass.getESuperTypes().add(this.getCalledSubprogramHolder());
subprogramHolderProxyEClass.getESuperTypes().add(this.getBehaviorElement());
subprogramPrototypeHolderEClass.getESuperTypes().add(this.getCalledSubprogramHolder());
subprogramPrototypeHolderEClass.getESuperTypes().add(this.getPrototypeHolder());
subprogramSubcomponentHolderEClass.getESuperTypes().add(this.getSubcomponentHolder());
subprogramSubcomponentHolderEClass.getESuperTypes().add(this.getCalledSubprogramHolder());
targetEClass.getESuperTypes().add(this.getParameterLabel());
targetEClass.getESuperTypes().add(this.getBehaviorElement());
termEClass.getESuperTypes().add(this.getBehaviorElement());
timedActionEClass.getESuperTypes().add(this.getBasicAction());
unlockActionEClass.getESuperTypes().add(this.getSharedDataAction());
upperBoundEClass.getESuperTypes().add(this.getPropertyNameField());
valueEClass.getESuperTypes().add(this.getBehaviorElement());
valueConstantEClass.getESuperTypes().add(this.getValue());
valueExpressionEClass.getESuperTypes().add(this.getValue());
valueExpressionEClass.getESuperTypes().add(this.getParameterLabel());
valueExpressionEClass.getESuperTypes().add(this.getExecuteCondition());
valueVariableEClass.getESuperTypes().add(this.getValue());
whileOrDoUntilStatementEClass.getESuperTypes().add(this.getLoopStatement());
modeSwitchTriggerLogicalExpressionEClass.getESuperTypes().add(this.getModeSwitchTriggerCondition());
modeSwitchTriggerConditionEClass.getESuperTypes().add(this.getBehaviorCondition());
modeSwitchConjunctionEClass.getESuperTypes().add(this.getBehaviorElement());
modeSwitchTriggerEClass.getESuperTypes().add(this.getBehaviorElement());
// Initialize classes and features; add operations and parameters
initEClass(actualPortHolderEClass, ActualPortHolder.class, "ActualPortHolder", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
EOperation op = addEOperation(actualPortHolderEClass, null, "setPort", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getPort(), "port", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(actualPortHolderEClass, theAadl2Package.getPort(), "getPort", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(assignmentActionEClass, AssignmentAction.class, "AssignmentAction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getAssignmentAction_Target(), this.getTarget(), null, "target", null, 1, 1, AssignmentAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getAssignmentAction_ValueExpression(), this.getValueExpression(), null, "valueExpression", null, 1, 1, AssignmentAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(anyEClass, Any.class, "Any", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(basicActionEClass, BasicAction.class, "BasicAction", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(basicPropertyHolderEClass, BasicPropertyHolder.class, "BasicPropertyHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(basicPropertyHolderEClass, null, "setBasicProperty", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getBasicProperty(), "basicProperty", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(basicPropertyHolderEClass, theAadl2Package.getBasicProperty(), "getBasicProperty", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(behaviorActionEClass, BehaviorAction.class, "BehaviorAction", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorActionBlockEClass, BehaviorActionBlock.class, "BehaviorActionBlock", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getBehaviorActionBlock_Content(), this.getBehaviorActions(), null, "content", null, 1, 1, BehaviorActionBlock.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorActionBlock_Timeout(), this.getBehaviorTime(), null, "timeout", null, 0, 1, BehaviorActionBlock.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(behaviorActionCollectionEClass, BehaviorActionCollection.class, "BehaviorActionCollection", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getBehaviorActionCollection_Actions(), this.getBehaviorAction(), null, "actions", null, 2, -1, BehaviorActionCollection.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(behaviorActionsEClass, BehaviorActions.class, "BehaviorActions", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorActionSequenceEClass, BehaviorActionSequence.class, "BehaviorActionSequence", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorActionSetEClass, BehaviorActionSet.class, "BehaviorActionSet", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorAnnexEClass, BehaviorAnnex.class, "BehaviorAnnex", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getBehaviorAnnex_Variables(), this.getBehaviorVariable(), null, "variables", null, 0, -1, BehaviorAnnex.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorAnnex_States(), this.getBehaviorState(), null, "states", null, 0, -1, BehaviorAnnex.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorAnnex_Transitions(), this.getBehaviorTransition(), null, "transitions", null, 0, -1, BehaviorAnnex.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorAnnex_Actions(), this.getBehaviorActionBlock(), null, "actions", null, 0, -1, BehaviorAnnex.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorAnnex_Conditions(), this.getBehaviorCondition(), null, "conditions", null, 0, -1, BehaviorAnnex.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorAnnex_InitialState(), this.getBehaviorState(), null, "initialState", null, 1, 1, BehaviorAnnex.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(behaviorBooleanLiteralEClass, BehaviorBooleanLiteral.class, "BehaviorBooleanLiteral", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorConditionEClass, BehaviorCondition.class, "BehaviorCondition", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorElementEClass, BehaviorElement.class, "BehaviorElement", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorIntegerLiteralEClass, BehaviorIntegerLiteral.class, "BehaviorIntegerLiteral", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorNamedElementEClass, BehaviorNamedElement.class, "BehaviorNamedElement", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorPropertyConstantEClass, BehaviorPropertyConstant.class, "BehaviorPropertyConstant", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getBehaviorPropertyConstant_Property(), theAadl2Package.getPropertyConstant(), null, "property", null, 1, 1, BehaviorPropertyConstant.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorPropertyConstant_PropertySet(), theAadl2Package.getPropertySet(), null, "propertySet", null, 0, 1, BehaviorPropertyConstant.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(behaviorRealLiteralEClass, BehaviorRealLiteral.class, "BehaviorRealLiteral", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorStateEClass, BehaviorState.class, "BehaviorState", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEAttribute(getBehaviorState_Initial(), this.getBoolean(), "initial", "false", 1, 1, BehaviorState.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getBehaviorState_Complete(), this.getBoolean(), "complete", "false", 1, 1, BehaviorState.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getBehaviorState_Final(), this.getBoolean(), "final", "false", 1, 1, BehaviorState.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorState_BindedMode(), theAadl2Package.getMode(), null, "bindedMode", null, 0, 1, BehaviorState.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorState_IncomingTransitions(), this.getBehaviorTransition(), this.getBehaviorTransition_DestinationState(), "incomingTransitions", null, 0, -1, BehaviorState.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorState_OutgoingTransitions(), this.getBehaviorTransition(), this.getBehaviorTransition_SourceState(), "outgoingTransitions", null, 0, -1, BehaviorState.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(behaviorStringLiteralEClass, BehaviorStringLiteral.class, "BehaviorStringLiteral", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(behaviorTimeEClass, BehaviorTime.class, "BehaviorTime", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getBehaviorTime_IntegerValue(), this.getIntegerValue(), null, "integerValue", null, 1, 1, BehaviorTime.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorTime_Unit(), theAadl2Package.getUnitLiteral(), null, "unit", null, 0, 1, BehaviorTime.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(behaviorTransitionEClass, BehaviorTransition.class, "BehaviorTransition", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getBehaviorTransition_SourceState(), this.getBehaviorState(), this.getBehaviorState_OutgoingTransitions(), "sourceState", null, 0, 1, BehaviorTransition.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorTransition_Condition(), this.getBehaviorCondition(), null, "condition", null, 0, 1, BehaviorTransition.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorTransition_DestinationState(), this.getBehaviorState(), this.getBehaviorState_IncomingTransitions(), "destinationState", null, 0, 1, BehaviorTransition.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorTransition_ActionBlock(), this.getBehaviorActionBlock(), null, "actionBlock", null, 0, 1, BehaviorTransition.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getBehaviorTransition_Priority(), theAadl2Package.getInteger(), "priority", "-1", 0, 1, BehaviorTransition.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(behaviorVariableEClass, BehaviorVariable.class, "BehaviorVariable", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getBehaviorVariable_DataClassifier(), theAadl2Package.getDataClassifier(), null, "dataClassifier", null, 1, 1, BehaviorVariable.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorVariable_OwnedPropertyAssociations(), theAadl2Package.getPropertyAssociation(), null, "ownedPropertyAssociations", null, 0, -1, BehaviorVariable.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getBehaviorVariable_OwnedValueConstant(), this.getValueConstant(), null, "ownedValueConstant", null, 0, 1, BehaviorVariable.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(behaviorVariableHolderEClass, BehaviorVariableHolder.class, "BehaviorVariableHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(behaviorVariableHolderEClass, null, "setVariable", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, this.getBehaviorVariable(), "variable", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(behaviorVariableHolderEClass, this.getBehaviorVariable(), "getBehaviorVariable", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(calledSubprogramHolderEClass, CalledSubprogramHolder.class, "CalledSubprogramHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(classifierFeatureHolderEClass, ClassifierFeatureHolder.class, "ClassifierFeatureHolder", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(classifierFeatureHolderEClass, null, "setClassifierFeature", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getClassifierFeature(), "classifierFeature", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(classifierFeatureHolderEClass, theAadl2Package.getClassifierFeature(), "getClassifierFeature", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(classifierFeaturePropertyReferenceEClass, ClassifierFeaturePropertyReference.class, "ClassifierFeaturePropertyReference", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getClassifierFeaturePropertyReference_Component(), this.getClassifierFeatureHolder(), null, "component", null, 1, 1, ClassifierFeaturePropertyReference.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(classifierPropertyReferenceEClass, ClassifierPropertyReference.class, "ClassifierPropertyReference", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getClassifierPropertyReference_Classifier(), theAadl2Package.getClassifier(), null, "classifier", null, 1, 1, ClassifierPropertyReference.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(communicationActionEClass, CommunicationAction.class, "CommunicationAction", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(completionRelativeTimeoutEClass, CompletionRelativeTimeout.class, "CompletionRelativeTimeout", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(condStatementEClass, CondStatement.class, "CondStatement", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getCondStatement_BehaviorActions(), this.getBehaviorActions(), null, "behaviorActions", null, 1, 1, CondStatement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(dataAccessHolderEClass, DataAccessHolder.class, "DataAccessHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(dataAccessHolderEClass, null, "setDataAccess", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getDataAccess(), "dataAccess", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(dataAccessHolderEClass, theAadl2Package.getDataAccess(), "getDataAccess", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(dataAccessPrototypeHolderEClass, DataAccessPrototypeHolder.class, "DataAccessPrototypeHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(dataComponentReferenceEClass, DataComponentReference.class, "DataComponentReference", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getDataComponentReference_Data(), this.getDataHolder(), null, "data", null, 2, -1, DataComponentReference.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(dataHolderEClass, DataHolder.class, "DataHolder", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(dataPortHolderEClass, DataPortHolder.class, "DataPortHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(dataPortHolderEClass, null, "setDataPort", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getDataPort(), "dataPort", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(dataPortHolderEClass, theAadl2Package.getDataPort(), "getDataPort", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(dataSubcomponentHolderEClass, DataSubcomponentHolder.class, "DataSubcomponentHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(dataSubcomponentHolderEClass, null, "setDataSubcomponent", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getDataSubcomponent(), "dataSubcomponent", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(dataSubcomponentHolderEClass, theAadl2Package.getDataSubcomponent(), "getDataSubcomponent", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(dispatchConditionEClass, DispatchCondition.class, "DispatchCondition", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getDispatchCondition_DispatchTriggerCondition(), this.getDispatchTriggerCondition(), null, "dispatchTriggerCondition", null, 0, 1, DispatchCondition.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getDispatchCondition_FrozenPorts(), this.getActualPortHolder(), null, "frozenPorts", null, 0, -1, DispatchCondition.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(dispatchConjunctionEClass, DispatchConjunction.class, "DispatchConjunction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getDispatchConjunction_DispatchTriggers(), this.getDispatchTrigger(), null, "dispatchTriggers", null, 1, -1, DispatchConjunction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(dispatchRelativeTimeoutEClass, DispatchRelativeTimeout.class, "DispatchRelativeTimeout", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(dispatchTriggerEClass, DispatchTrigger.class, "DispatchTrigger", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(dispatchTriggerConditionEClass, DispatchTriggerCondition.class, "DispatchTriggerCondition", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(dispatchTriggerConditionStopEClass, DispatchTriggerConditionStop.class, "DispatchTriggerConditionStop", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(dispatchTriggerLogicalExpressionEClass, DispatchTriggerLogicalExpression.class, "DispatchTriggerLogicalExpression", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getDispatchTriggerLogicalExpression_DispatchConjunctions(), this.getDispatchConjunction(), null, "dispatchConjunctions", null, 1, -1, DispatchTriggerLogicalExpression.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(elementHolderEClass, ElementHolder.class, "ElementHolder", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getElementHolder_Element(), theAadl2Package.getNamedElement(), null, "element", null, 0, 1, ElementHolder.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(elementValuesEClass, ElementValues.class, "ElementValues", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(elseStatementEClass, ElseStatement.class, "ElseStatement", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(enumLiteralHolderEClass, EnumLiteralHolder.class, "EnumLiteralHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(enumLiteralHolderEClass, null, "setEnumLiteral", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getEnumerationLiteral(), "enumLiteral", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(enumLiteralHolderEClass, theAadl2Package.getEnumerationLiteral(), "getEnumLiteral", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(eventDataPortHolderEClass, EventDataPortHolder.class, "EventDataPortHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(eventDataPortHolderEClass, null, "setEventDataPort", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getEventDataPort(), "eventDataPort", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(eventDataPortHolderEClass, theAadl2Package.getEventDataPort(), "geteventDataPort", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(eventPortHolderEClass, EventPortHolder.class, "EventPortHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(eventPortHolderEClass, null, "setEventPort", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getEventPort(), "eventPort", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(eventPortHolderEClass, theAadl2Package.getEventPort(), "getEventPort", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(executeConditionEClass, ExecuteCondition.class, "ExecuteCondition", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(executionTimeoutCatchEClass, ExecutionTimeoutCatch.class, "ExecutionTimeoutCatch", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(factorEClass, Factor.class, "Factor", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getFactor_FirstValue(), this.getValue(), null, "firstValue", null, 1, 1, Factor.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getFactor_SecondValue(), this.getValue(), null, "secondValue", null, 0, 1, Factor.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getFactor_BinaryNumericOperator(), this.getBinaryNumericOperator(), "binaryNumericOperator", null, 0, 1, Factor.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getFactor_UnaryNumericOperator(), this.getUnaryNumericOperator(), "unaryNumericOperator", null, 0, 1, Factor.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getFactor_UnaryBooleanOperator(), this.getUnaryBooleanOperator(), "unaryBooleanOperator", null, 0, 1, Factor.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(featureHolderEClass, FeatureHolder.class, "FeatureHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(featureHolderEClass, null, "setFeature", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getFeature(), "feature", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(featureHolderEClass, theAadl2Package.getFeature(), "getFeature", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(featurePrototypeHolderEClass, FeaturePrototypeHolder.class, "FeaturePrototypeHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(forOrForAllStatementEClass, ForOrForAllStatement.class, "ForOrForAllStatement", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getForOrForAllStatement_IteratedValues(), this.getElementValues(), null, "iteratedValues", null, 1, 1, ForOrForAllStatement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getForOrForAllStatement_ForAll(), this.getBoolean(), "forAll", "false", 0, 1, ForOrForAllStatement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getForOrForAllStatement_IterativeVariable(), this.getIterativeVariable(), null, "iterativeVariable", null, 1, 1, ForOrForAllStatement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(groupableElementEClass, GroupableElement.class, "GroupableElement", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getGroupableElement_GroupHolders(), this.getGroupHolder(), null, "groupHolders", null, 0, -1, GroupableElement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(groupHolderEClass, GroupHolder.class, "GroupHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(groupHolderEClass, null, "setGroup", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getNamedElement(), "group", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(groupHolderEClass, theAadl2Package.getNamedElement(), "getGroup", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(groupPrototypeHolderEClass, GroupPrototypeHolder.class, "GroupPrototypeHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getGroupPrototypeHolder_PrototypeBinding(), theAadl2Package.getPrototypeBinding(), null, "prototypeBinding", null, 0, 1, GroupPrototypeHolder.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
op = addEOperation(groupPrototypeHolderEClass, null, "setPrototype", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getPrototype(), "prototype", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(groupPrototypeHolderEClass, theAadl2Package.getPrototype(), "getPrototype", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(ifStatementEClass, IfStatement.class, "IfStatement", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getIfStatement_LogicalValueExpression(), this.getValueExpression(), null, "logicalValueExpression", null, 1, 1, IfStatement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getIfStatement_Elif(), this.getBoolean(), "elif", "false", 0, 1, IfStatement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getIfStatement_ElseStatement(), this.getElseStatement(), null, "elseStatement", null, 0, 1, IfStatement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(indexableElementEClass, IndexableElement.class, "IndexableElement", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getIndexableElement_ArrayIndexes(), this.getIntegerValue(), null, "arrayIndexes", null, 0, -1, IndexableElement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(integerRangeEClass, IntegerRange.class, "IntegerRange", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getIntegerRange_LowerIntegerValue(), this.getIntegerValue(), null, "lowerIntegerValue", null, 1, 1, IntegerRange.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getIntegerRange_UpperIntegerValue(), this.getIntegerValue(), null, "upperIntegerValue", null, 1, 1, IntegerRange.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(integerValueEClass, IntegerValue.class, "IntegerValue", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(integerValueConstantEClass, IntegerValueConstant.class, "IntegerValueConstant", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(integerValueVariableEClass, IntegerValueVariable.class, "IntegerValueVariable", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(iterativeVariableEClass, IterativeVariable.class, "IterativeVariable", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getIterativeVariable_DataClassifier(), theAadl2Package.getDataClassifier(), null, "dataClassifier", null, 0, 1, IterativeVariable.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(iterativeVariableHolderEClass, IterativeVariableHolder.class, "IterativeVariableHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(iterativeVariableHolderEClass, null, "setIterativeVariable", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, this.getIterativeVariable(), "itV", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(iterativeVariableHolderEClass, this.getIterativeVariable(), "getIterativeVariable", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(literalEClass, Literal.class, "Literal", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(lockActionEClass, LockAction.class, "LockAction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(loopStatementEClass, LoopStatement.class, "LoopStatement", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(lowerBoundEClass, LowerBound.class, "LowerBound", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(numericLiteralEClass, NumericLiteral.class, "NumericLiteral", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(otherwiseEClass, Otherwise.class, "Otherwise", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(parameterHolderEClass, ParameterHolder.class, "ParameterHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(parameterHolderEClass, null, "setParameter", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getParameter(), "parameter", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(parameterHolderEClass, theAadl2Package.getParameter(), "getParameter", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(parameterLabelEClass, ParameterLabel.class, "ParameterLabel", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(portCountValueEClass, PortCountValue.class, "PortCountValue", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(portDequeueActionEClass, PortDequeueAction.class, "PortDequeueAction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getPortDequeueAction_Port(), this.getActualPortHolder(), null, "port", null, 1, 1, PortDequeueAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getPortDequeueAction_Target(), this.getTarget(), null, "target", null, 0, 1, PortDequeueAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(portDequeueValueEClass, PortDequeueValue.class, "PortDequeueValue", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(portFreezeActionEClass, PortFreezeAction.class, "PortFreezeAction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(portFreshValueEClass, PortFreshValue.class, "PortFreshValue", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(portHolderEClass, PortHolder.class, "PortHolder", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(portPrototypeHolderEClass, PortPrototypeHolder.class, "PortPrototypeHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(portSendActionEClass, PortSendAction.class, "PortSendAction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getPortSendAction_Port(), this.getActualPortHolder(), null, "port", null, 0, 1, PortSendAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getPortSendAction_ValueExpression(), this.getValueExpression(), null, "valueExpression", null, 0, 1, PortSendAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(propertyAssociationHolderEClass, PropertyAssociationHolder.class, "PropertyAssociationHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(propertyAssociationHolderEClass, null, "setPropertyAssociation", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getPropertyAssociation(), "propertyAssociation", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(propertyAssociationHolderEClass, theAadl2Package.getPropertyAssociation(), "getPropertyAssociation", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(propertyElementHolderEClass, PropertyElementHolder.class, "PropertyElementHolder", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getPropertyElementHolder_Element(), theAadl2Package.getElement(), null, "element", null, 1, 1, PropertyElementHolder.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(propertyExpressionHolderEClass, PropertyExpressionHolder.class, "PropertyExpressionHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(propertyExpressionHolderEClass, null, "setPropertyExpression", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getPropertyExpression(), "propertyExpression", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(propertyExpressionHolderEClass, theAadl2Package.getPropertyExpression(), "getPropertyExpression", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(propertyNameFieldEClass, PropertyNameField.class, "PropertyNameField", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(propertyNameHolderEClass, PropertyNameHolder.class, "PropertyNameHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getPropertyNameHolder_Property(), this.getPropertyElementHolder(), null, "property", null, 1, 1, PropertyNameHolder.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getPropertyNameHolder_Field(), this.getPropertyNameField(), null, "field", null, 0, 1, PropertyNameHolder.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(propertyReferenceEClass, PropertyReference.class, "PropertyReference", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getPropertyReference_Properties(), this.getPropertyNameHolder(), null, "properties", null, 1, -1, PropertyReference.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(propertySetPropertyReferenceEClass, PropertySetPropertyReference.class, "PropertySetPropertyReference", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getPropertySetPropertyReference_PropertySet(), theAadl2Package.getPropertySet(), null, "propertySet", null, 0, 1, PropertySetPropertyReference.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(propertyTypeHolderEClass, PropertyTypeHolder.class, "PropertyTypeHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(propertyTypeHolderEClass, null, "setPropertyType", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getPropertyType(), "propertyType", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(propertyTypeHolderEClass, theAadl2Package.getPropertyType(), "getPropertyType", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(prototypeHolderEClass, PrototypeHolder.class, "PrototypeHolder", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getPrototypeHolder_PrototypeBinding(), theAadl2Package.getPrototypeBinding(), null, "prototypeBinding", null, 0, 1, PrototypeHolder.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
op = addEOperation(prototypeHolderEClass, null, "setPrototype", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getPrototype(), "prototype", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(prototypeHolderEClass, theAadl2Package.getPrototype(), "getPrototype", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(relationEClass, Relation.class, "Relation", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getRelation_FirstExpression(), this.getSimpleExpression(), null, "firstExpression", null, 1, 1, Relation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getRelation_SecondExpression(), this.getSimpleExpression(), null, "secondExpression", null, 0, 1, Relation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getRelation_RelationalOperator(), this.getRelationalOperator(), "relationalOperator", null, 0, 1, Relation.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(sharedDataActionEClass, SharedDataAction.class, "SharedDataAction", IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getSharedDataAction_DataAccess(), this.getDataAccessHolder(), null, "dataAccess", null, 0, 1, SharedDataAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(simpleExpressionEClass, SimpleExpression.class, "SimpleExpression", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEAttribute(getSimpleExpression_UnaryAddingOperator(), this.getUnaryAddingOperator(), "unaryAddingOperator", null, 0, 1, SimpleExpression.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_UNSETTABLE, !IS_ID, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getSimpleExpression_Terms(), this.getTerm(), null, "terms", null, 1, -1, SimpleExpression.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getSimpleExpression_BinaryAddingOperators(), this.getBinaryAddingOperator(), "binaryAddingOperators", null, 0, -1, SimpleExpression.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(structUnionElementEClass, StructUnionElement.class, "StructUnionElement", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getStructUnionElement_DataClassifier(), theAadl2Package.getDataClassifier(), null, "dataClassifier", null, 1, 1, StructUnionElement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, !IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(structUnionElementHolderEClass, StructUnionElementHolder.class, "StructUnionElementHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getStructUnionElementHolder_StructUnionElement(), this.getStructUnionElement(), null, "structUnionElement", null, 1, 1, StructUnionElementHolder.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(subcomponentHolderEClass, SubcomponentHolder.class, "SubcomponentHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(subcomponentHolderEClass, null, "setSubcomponent", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getSubcomponent(), "subcomponent", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(subcomponentHolderEClass, theAadl2Package.getSubcomponent(), "getSubcomponent", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(subprogramAccessHolderEClass, SubprogramAccessHolder.class, "SubprogramAccessHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(subprogramAccessHolderEClass, null, "setSubprogramAccess", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getSubprogramAccess(), "subprogramAccess", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(subprogramAccessHolderEClass, theAadl2Package.getSubprogramAccess(), "getSubprogramAccess", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(subprogramCallActionEClass, SubprogramCallAction.class, "SubprogramCallAction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getSubprogramCallAction_Subprogram(), this.getCalledSubprogramHolder(), null, "subprogram", null, 1, 1, SubprogramCallAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getSubprogramCallAction_ParameterLabels(), this.getParameterLabel(), null, "parameterLabels", null, 0, -1, SubprogramCallAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getSubprogramCallAction_Proxy(), this.getSubprogramHolderProxy(), null, "proxy", null, 0, 1, SubprogramCallAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(subprogramHolderEClass, SubprogramHolder.class, "SubprogramHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(subprogramHolderEClass, null, "setSubprogram", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getSubprogram(), "subprogram", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(subprogramHolderEClass, theAadl2Package.getSubprogram(), "getSubprogram", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(subprogramHolderProxyEClass, SubprogramHolderProxy.class, "SubprogramHolderProxy", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(subprogramPrototypeHolderEClass, SubprogramPrototypeHolder.class, "SubprogramPrototypeHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(subprogramSubcomponentHolderEClass, SubprogramSubcomponentHolder.class, "SubprogramSubcomponentHolder", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
op = addEOperation(subprogramSubcomponentHolderEClass, null, "setSubprogramSubcomponent", 1, 1, IS_UNIQUE, IS_ORDERED);
addEParameter(op, theAadl2Package.getSubprogramSubcomponent(), "subprogramSubcomponent", 1, 1, IS_UNIQUE, IS_ORDERED);
addEOperation(subprogramSubcomponentHolderEClass, theAadl2Package.getSubprogramSubcomponent(), "getSubprogramSubcomponent", 1, 1, IS_UNIQUE, IS_ORDERED);
initEClass(targetEClass, Target.class, "Target", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(termEClass, Term.class, "Term", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getTerm_Factors(), this.getFactor(), null, "factors", null, 1, -1, Term.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getTerm_MultiplyingOperators(), this.getMultiplyingOperator(), "multiplyingOperators", null, 0, -1, Term.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(timedActionEClass, TimedAction.class, "TimedAction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getTimedAction_LowerTime(), this.getBehaviorTime(), null, "lowerTime", null, 1, 1, TimedAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getTimedAction_UpperTime(), this.getBehaviorTime(), null, "upperTime", null, 0, 1, TimedAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEReference(getTimedAction_ProcessorClassifier(), theAadl2Package.getProcessorClassifier(), null, "processorClassifier", null, 0, -1, TimedAction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_COMPOSITE, IS_RESOLVE_PROXIES, IS_UNSETTABLE, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(unlockActionEClass, UnlockAction.class, "UnlockAction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(upperBoundEClass, UpperBound.class, "UpperBound", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(valueEClass, Value.class, "Value", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(valueConstantEClass, ValueConstant.class, "ValueConstant", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(valueExpressionEClass, ValueExpression.class, "ValueExpression", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getValueExpression_Relations(), this.getRelation(), null, "relations", null, 0, -1, ValueExpression.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getValueExpression_LogicalOperators(), this.getLogicalOperator(), "logicalOperators", null, 0, -1, ValueExpression.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_UNSETTABLE, !IS_ID, !IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(valueVariableEClass, ValueVariable.class, "ValueVariable", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(whileOrDoUntilStatementEClass, WhileOrDoUntilStatement.class, "WhileOrDoUntilStatement", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getWhileOrDoUntilStatement_LogicalValueExpression(), this.getValueExpression(), null, "logicalValueExpression", null, 1, 1, WhileOrDoUntilStatement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEAttribute(getWhileOrDoUntilStatement_DoUntil(), this.getBoolean(), "doUntil", "false", 0, 1, WhileOrDoUntilStatement.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, !IS_UNSETTABLE, !IS_ID, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(modeSwitchTriggerLogicalExpressionEClass, ModeSwitchTriggerLogicalExpression.class, "ModeSwitchTriggerLogicalExpression", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getModeSwitchTriggerLogicalExpression_ModeSwitchConjunctions(), this.getModeSwitchConjunction(), null, "modeSwitchConjunctions", null, 1, -1, ModeSwitchTriggerLogicalExpression.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, !IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(modeSwitchTriggerConditionEClass, ModeSwitchTriggerCondition.class, "ModeSwitchTriggerCondition", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEClass(modeSwitchConjunctionEClass, ModeSwitchConjunction.class, "ModeSwitchConjunction", !IS_ABSTRACT, !IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
initEReference(getModeSwitchConjunction_ModeSwitchTriggers(), this.getModeSwitchTrigger(), null, "modeSwitchTriggers", null, 1, -1, ModeSwitchConjunction.class, !IS_TRANSIENT, !IS_VOLATILE, IS_CHANGEABLE, IS_COMPOSITE, !IS_RESOLVE_PROXIES, IS_UNSETTABLE, IS_UNIQUE, !IS_DERIVED, IS_ORDERED);
initEClass(modeSwitchTriggerEClass, ModeSwitchTrigger.class, "ModeSwitchTrigger", IS_ABSTRACT, IS_INTERFACE, IS_GENERATED_INSTANCE_CLASS);
// Initialize enums and add enum literals
initEEnum(behaviorFeatureTypeEEnum, BehaviorFeatureType.class, "BehaviorFeatureType");
addEEnumLiteral(behaviorFeatureTypeEEnum, BehaviorFeatureType.NONE);
addEEnumLiteral(behaviorFeatureTypeEEnum, BehaviorFeatureType.BEHAVIOR_VARIABLE);
addEEnumLiteral(behaviorFeatureTypeEEnum, BehaviorFeatureType.ITERATIVE_VARIABLE);
initEEnum(binaryAddingOperatorEEnum, BinaryAddingOperator.class, "BinaryAddingOperator");
addEEnumLiteral(binaryAddingOperatorEEnum, BinaryAddingOperator.NONE);
addEEnumLiteral(binaryAddingOperatorEEnum, BinaryAddingOperator.PLUS);
addEEnumLiteral(binaryAddingOperatorEEnum, BinaryAddingOperator.MINUS);
initEEnum(binaryNumericOperatorEEnum, BinaryNumericOperator.class, "BinaryNumericOperator");
addEEnumLiteral(binaryNumericOperatorEEnum, BinaryNumericOperator.NONE);
addEEnumLiteral(binaryNumericOperatorEEnum, BinaryNumericOperator.MULTIPLY_MULTIPLY);
initEEnum(dataRepresentationEEnum, DataRepresentation.class, "DataRepresentation");
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.UNKNOWN);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.ARRAY);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.BOOLEAN);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.CHARACTER);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.ENUM);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.FIXED);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.FLOAT);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.INTEGER);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.STRING);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.STRUCT);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.UNION);
addEEnumLiteral(dataRepresentationEEnum, DataRepresentation.ENUM_LITERAL);
initEEnum(featureTypeEEnum, FeatureType.class, "FeatureType");
addEEnumLiteral(featureTypeEEnum, FeatureType.NONE);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_DATA_PORT);
addEEnumLiteral(featureTypeEEnum, FeatureType.OUT_DATA_PORT);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_OUT_DATA_PORT);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_EVENT_PORT);
addEEnumLiteral(featureTypeEEnum, FeatureType.OUT_EVENT_PORT);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_OUT_EVENT_PORT);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_EVENT_DATA_PORT);
addEEnumLiteral(featureTypeEEnum, FeatureType.OUT_EVENT_DATA_PORT);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_OUT_EVENT_DATA_PORT);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROVIDES_SUBPROGRAM_ACCESS);
addEEnumLiteral(featureTypeEEnum, FeatureType.REQUIRES_SUBPROGRAM_ACCESS);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROVIDES_SUBPROGRAM_GROUP_ACCESS);
addEEnumLiteral(featureTypeEEnum, FeatureType.REQUIRES_SUBPROGRAM_GROUP_ACCESS);
addEEnumLiteral(featureTypeEEnum, FeatureType.SUBPROGRAM_SUBCOMPONENT);
addEEnumLiteral(featureTypeEEnum, FeatureType.SUBPROGRAM_CLASSIFIER);
addEEnumLiteral(featureTypeEEnum, FeatureType.SUBPROGRAM_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.COMPONENT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.COMPONENT_PROTOTYPE_BINDING);
addEEnumLiteral(featureTypeEEnum, FeatureType.FEATURE_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.FEATURE_PROTOTYPE_BINDING);
addEEnumLiteral(featureTypeEEnum, FeatureType.FEATURE_GROUP_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.FEATURE_GROUP_PROTOTYPE_BINDING);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROVIDES_DATA_ACCESS);
addEEnumLiteral(featureTypeEEnum, FeatureType.REQUIRES_DATA_ACCESS);
addEEnumLiteral(featureTypeEEnum, FeatureType.DATA_SUBCOMPONENT);
addEEnumLiteral(featureTypeEEnum, FeatureType.DATA_CLASSIFIER);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_PARAMETER);
addEEnumLiteral(featureTypeEEnum, FeatureType.OUT_PARAMETER);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_OUT_PARAMETER);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROPERTY_CONSTANT);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROPERTY_VALUE);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROVIDES_BUS_ACCESS);
addEEnumLiteral(featureTypeEEnum, FeatureType.REQUIRES_BUS_ACCESS);
addEEnumLiteral(featureTypeEEnum, FeatureType.FEATURE_GROUP);
addEEnumLiteral(featureTypeEEnum, FeatureType.CLASSIFIER_VALUE);
addEEnumLiteral(featureTypeEEnum, FeatureType.ABSTRACT_FEATURE);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_FEATURE_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.OUT_FEATURE_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_OUT_FEATURE_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.THREAD_GROUP);
addEEnumLiteral(featureTypeEEnum, FeatureType.SUBPROGRAM_GROUP);
addEEnumLiteral(featureTypeEEnum, FeatureType.SUBPROGRAM_GROUP_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.THREAD_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.THREAD_GROUP_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_DATA_PORT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.OUT_DATA_PORT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_OUT_DATA_PORT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_EVENT_PORT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.OUT_EVENT_PORT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_OUT_EVENT_PORT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_EVENT_DATA_PORT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.OUT_EVENT_DATA_PORT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.IN_OUT_EVENT_DATA_PORT_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROVIDES_SUBPROGRAM_ACCESS_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.REQUIRES_SUBPROGRAM_ACCESS_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROVIDES_SUBPROGRAM_GROUP_ACCESS_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.REQUIRES_SUBPROGRAM_GROUP_ACCESS_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROVIDES_DATA_ACCESS_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.REQUIRES_DATA_ACCESS_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROVIDES_BUS_ACCESS_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.REQUIRES_BUS_ACCESS_PROTOTYPE);
addEEnumLiteral(featureTypeEEnum, FeatureType.SYSTEM_SUBCOMPONENT);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROCESSOR_CLASSIFIER);
addEEnumLiteral(featureTypeEEnum, FeatureType.PROCESS_CLASSIFIER);
initEEnum(logicalOperatorEEnum, LogicalOperator.class, "LogicalOperator");
addEEnumLiteral(logicalOperatorEEnum, LogicalOperator.NONE);
addEEnumLiteral(logicalOperatorEEnum, LogicalOperator.AND);
addEEnumLiteral(logicalOperatorEEnum, LogicalOperator.OR);
addEEnumLiteral(logicalOperatorEEnum, LogicalOperator.XOR);
initEEnum(multiplyingOperatorEEnum, MultiplyingOperator.class, "MultiplyingOperator");
addEEnumLiteral(multiplyingOperatorEEnum, MultiplyingOperator.NONE);
addEEnumLiteral(multiplyingOperatorEEnum, MultiplyingOperator.MULTIPLY);
addEEnumLiteral(multiplyingOperatorEEnum, MultiplyingOperator.DIVIDE);
addEEnumLiteral(multiplyingOperatorEEnum, MultiplyingOperator.MOD);
addEEnumLiteral(multiplyingOperatorEEnum, MultiplyingOperator.REM);
initEEnum(relationalOperatorEEnum, RelationalOperator.class, "RelationalOperator");
addEEnumLiteral(relationalOperatorEEnum, RelationalOperator.NONE);
addEEnumLiteral(relationalOperatorEEnum, RelationalOperator.EQUAL);
addEEnumLiteral(relationalOperatorEEnum, RelationalOperator.NOT_EQUAL);
addEEnumLiteral(relationalOperatorEEnum, RelationalOperator.LESS_THAN);
addEEnumLiteral(relationalOperatorEEnum, RelationalOperator.LESS_OR_EQUAL_THAN);
addEEnumLiteral(relationalOperatorEEnum, RelationalOperator.GREATER_THAN);
addEEnumLiteral(relationalOperatorEEnum, RelationalOperator.GREATER_OR_EQUAL_THAN);
initEEnum(unaryAddingOperatorEEnum, UnaryAddingOperator.class, "UnaryAddingOperator");
addEEnumLiteral(unaryAddingOperatorEEnum, UnaryAddingOperator.NONE);
addEEnumLiteral(unaryAddingOperatorEEnum, UnaryAddingOperator.PLUS);
addEEnumLiteral(unaryAddingOperatorEEnum, UnaryAddingOperator.MINUS);
initEEnum(unaryBooleanOperatorEEnum, UnaryBooleanOperator.class, "UnaryBooleanOperator");
addEEnumLiteral(unaryBooleanOperatorEEnum, UnaryBooleanOperator.NONE);
addEEnumLiteral(unaryBooleanOperatorEEnum, UnaryBooleanOperator.NOT);
initEEnum(unaryNumericOperatorEEnum, UnaryNumericOperator.class, "UnaryNumericOperator");
addEEnumLiteral(unaryNumericOperatorEEnum, UnaryNumericOperator.NONE);
addEEnumLiteral(unaryNumericOperatorEEnum, UnaryNumericOperator.ABS);
// Initialize data types
initEDataType(booleanEDataType, boolean.class, "Boolean", IS_SERIALIZABLE, !IS_GENERATED_INSTANCE_CLASS);
initEDataType(integerEDataType, int.class, "Integer", IS_SERIALIZABLE, !IS_GENERATED_INSTANCE_CLASS);
initEDataType(realEDataType, double.class, "Real", IS_SERIALIZABLE, !IS_GENERATED_INSTANCE_CLASS);
initEDataType(stringEDataType, String.class, "String", IS_SERIALIZABLE, !IS_GENERATED_INSTANCE_CLASS);
// Create resource
createResource(eNS_URI);
// Create annotations
// http://www.topcased.org/documentation
createDocumentationAnnotations();
// Documentation
createDocumentation_1Annotations();
// documentation
createDocumentation_2Annotations();
}
Also used :
Aadl2Package(org.osate.aadl2.Aadl2Package)
EOperation(org.eclipse.emf.ecore.EOperation)
Example 4 with DataClassifier
use of org.osate.aadl2.DataClassifier in project osate2 by osate.
the class BehaviorVariableImpl method setDataClassifier.
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public void setDataClassifier(DataClassifier newDataClassifier) {
DataClassifier oldDataClassifier = dataClassifier;
dataClassifier = newDataClassifier;
if (eNotificationRequired())
eNotify(new ENotificationImpl(this, Notification.SET, AadlBaPackage.BEHAVIOR_VARIABLE__DATA_CLASSIFIER, oldDataClassifier, dataClassifier));
}
Also used :
ENotificationImpl(org.eclipse.emf.ecore.impl.ENotificationImpl)
DataClassifier(org.osate.aadl2.DataClassifier)
Example 5 with DataClassifier
use of org.osate.aadl2.DataClassifier in project osate2 by osate.
the class StructUnionElementImpl method setDataClassifier.
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public void setDataClassifier(DataClassifier newDataClassifier) {
DataClassifier oldDataClassifier = dataClassifier;
dataClassifier = newDataClassifier;
if (eNotificationRequired())
eNotify(new ENotificationImpl(this, Notification.SET, AadlBaPackage.STRUCT_UNION_ELEMENT__DATA_CLASSIFIER, oldDataClassifier, dataClassifier));
}
Also used :
ENotificationImpl(org.eclipse.emf.ecore.impl.ENotificationImpl)
DataClassifier(org.osate.aadl2.DataClassifier)
Aggregations
DataClassifier (org.osate.aadl2.DataClassifier)22
NamedElement (org.osate.aadl2.NamedElement)8
ProcessorClassifier (org.osate.aadl2.ProcessorClassifier)7
Classifier (org.osate.aadl2.Classifier)6
ComponentClassifier (org.osate.aadl2.ComponentClassifier)6
Element (org.osate.aadl2.Element)6
ENotificationImpl (org.eclipse.emf.ecore.impl.ENotificationImpl)5
Feature (org.osate.aadl2.Feature)5
AadlString (org.osate.aadl2.AadlString)4
AbstractFeature (org.osate.aadl2.AbstractFeature)4
PropertyExpression (org.osate.aadl2.PropertyExpression)4
BehaviorNamedElement (org.osate.ba.aadlba.BehaviorNamedElement)4
QualifiedNamedElement (org.osate.ba.declarative.QualifiedNamedElement)4
ListValue (org.osate.aadl2.ListValue)3
ProcessClassifier (org.osate.aadl2.ProcessClassifier)3
SubprogramClassifier (org.osate.aadl2.SubprogramClassifier)3
BehaviorElement (org.osate.ba.aadlba.BehaviorElement)3
BehaviorVariable (org.osate.ba.aadlba.BehaviorVariable)3
DataComponentReference (org.osate.ba.aadlba.DataComponentReference)3
ElementHolder (org.osate.ba.aadlba.ElementHolder)3
