Example 1 with CompositeState
use of org.osate.xtext.aadl2.errormodel.errorModel.CompositeState in project osate2 by osate.
the class EMV2Util method getAllCompositeStates.
/**
* return list of CompositeState including those inherited from classifiers being extended
* @param cl Classifier
* @param unnamed Collection of unnamed CompositeState
* @return Collection<CompositeState> list of CompositeState as HashMap for quick lookup of names
*/
private static HashMap<String, CompositeState> getAllCompositeStates(Classifier cl, Collection<CompositeState> unnamed) {
HashMap<String, CompositeState> result = new LinkedHashMap<>();
EList<ErrorModelSubclause> emslist = getAllContainingClassifierEMV2Subclauses(cl);
for (ErrorModelSubclause errorModelSubclause : emslist) {
EList<CompositeState> eslist = errorModelSubclause.getStates();
for (CompositeState es : eslist) {
if (es.getName() == null) {
unnamed.add(es);
} else {
if (!result.containsKey(es.getName())) {
result.put(es.getName(), es);
}
}
}
}
return result;
}
Also used :
ErrorModelSubclause(org.osate.xtext.aadl2.errormodel.errorModel.ErrorModelSubclause)
CompositeState(org.osate.xtext.aadl2.errormodel.errorModel.CompositeState)
LinkedHashMap(java.util.LinkedHashMap)
Example 2 with CompositeState
use of org.osate.xtext.aadl2.errormodel.errorModel.CompositeState in project osate2 by osate.
the class PropagationGraphBackwardTraversal method traverseCompositeErrorState.
public EObject traverseCompositeErrorState(ComponentInstance component, ErrorBehaviorState state, TypeToken type, boolean stateOnly, BigDecimal scale) {
preProcessCompositeErrorStates(component, state, type, scale);
List<EObject> subResults = new LinkedList<EObject>();
// should only match one composite state declaration.
for (CompositeState cs : EMV2Util.getAllCompositeStates(component)) {
if (cs.getState() == state && (type == null || EMV2TypeSetUtil.contains(cs.getTypedToken(), type))) {
EObject res = processCondition(component, cs.getCondition(), null, new BigDecimal(1.0), stateOnly);
if (res != null) {
addSubresult(subResults, res);
}
}
}
if (!subResults.isEmpty()) {
return postProcessCompositeErrorStates(component, state, type, subResults, scale);
}
if (stateOnly) {
return processErrorBehaviorState(component, state, type, scale);
} else {
return traverseErrorBehaviorState(component, state, type, scale);
}
}
Also used :
EObject(org.eclipse.emf.ecore.EObject)
CompositeState(org.osate.xtext.aadl2.errormodel.errorModel.CompositeState)
LinkedList(java.util.LinkedList)
BigDecimal(java.math.BigDecimal)
Example 3 with CompositeState
use of org.osate.xtext.aadl2.errormodel.errorModel.CompositeState in project osate2 by osate.
the class FaultTreeUtils method getEMV2ElementDescription.
public static String getEMV2ElementDescription(Event event) {
// JH looks like the code to do the boxes in FTA
EObject errorModelArtifact = event.getRelatedEMV2Object();
TypeToken type = (TypeToken) event.getRelatedErrorType();
String description;
description = "";
if (errorModelArtifact instanceof ErrorSource) {
ErrorSource errorSource = (ErrorSource) errorModelArtifact;
description = (type != null ? "{" + EMV2Util.getName(type) + "} from " : "") + "error source '" + EMV2Util.getName(errorSource) + "'";
}
if (errorModelArtifact instanceof ErrorEvent) {
ErrorEvent ee = (ErrorEvent) errorModelArtifact;
if (type != null) {
description += "{" + EMV2Util.getName(type) + "} from ";
}
description += "error event '" + EMV2Util.getName(ee) + "'";
}
if (errorModelArtifact instanceof ErrorBehaviorState) {
if (type != null) {
description += "{" + EMV2Util.getName(type) + "} from ";
}
description += "error state '" + ((ErrorBehaviorState) errorModelArtifact).getName() + "'";
}
if (errorModelArtifact instanceof ErrorPropagation) {
String boundaryLabel = "";
if (event.getType() == EventType.EXTERNAL) {
boundaryLabel = "external";
} else if (event.getType() == EventType.UNDEVELOPED) {
boundaryLabel = "undeveloped";
}
if (type != null) {
description = "{" + EMV2Util.getName(type) + "}";
if (!boundaryLabel.isEmpty()) {
description += " from " + boundaryLabel;
}
} else {
description = boundaryLabel;
}
}
if (errorModelArtifact instanceof ConditionExpression) {
// TODO
errorModelArtifact = EMV2Util.getConditionExpressionContext(errorModelArtifact);
String opcontext = "";
if (type instanceof TypeSet) {
opcontext = " on type set " + EMV2Util.getPrintName((TypeSet) type);
} else if (errorModelArtifact instanceof ErrorBehaviorTransition) {
String branch = ((ErrorBehaviorTransition) errorModelArtifact).getDestinationBranches().isEmpty() ? "" : "branch ";
opcontext = " in transition " + branch + EMV2Util.getName(errorModelArtifact);
} else if (errorModelArtifact instanceof OutgoingPropagationCondition) {
opcontext = " in outgoing propagation condition " + EMV2Util.getName(errorModelArtifact);
} else if (errorModelArtifact instanceof ErrorDetection) {
opcontext = " in error detection " + EMV2Util.getName(errorModelArtifact);
} else if (errorModelArtifact instanceof CompositeState) {
opcontext = " in composite state " + EMV2Util.getName(errorModelArtifact);
}
if (event.getSubEventLogic() == LogicOperation.KORMORE) {
description = "'" + event.getSubEventLogic() + "' with k =" + event.getK() + opcontext;
} else {
description = "'" + event.getSubEventLogic() + "'" + opcontext;
}
}
return description;
}
Also used :
ErrorBehaviorState(org.osate.xtext.aadl2.errormodel.errorModel.ErrorBehaviorState)
ErrorDetection(org.osate.xtext.aadl2.errormodel.errorModel.ErrorDetection)
ErrorBehaviorTransition(org.osate.xtext.aadl2.errormodel.errorModel.ErrorBehaviorTransition)
ErrorSource(org.osate.xtext.aadl2.errormodel.errorModel.ErrorSource)
TypeToken(org.osate.xtext.aadl2.errormodel.errorModel.TypeToken)
ConditionExpression(org.osate.xtext.aadl2.errormodel.errorModel.ConditionExpression)
EObject(org.eclipse.emf.ecore.EObject)
TypeSet(org.osate.xtext.aadl2.errormodel.errorModel.TypeSet)
ErrorEvent(org.osate.xtext.aadl2.errormodel.errorModel.ErrorEvent)
CompositeState(org.osate.xtext.aadl2.errormodel.errorModel.CompositeState)
ErrorPropagation(org.osate.xtext.aadl2.errormodel.errorModel.ErrorPropagation)
OutgoingPropagationCondition(org.osate.xtext.aadl2.errormodel.errorModel.OutgoingPropagationCondition)
Example 4 with CompositeState
use of org.osate.xtext.aadl2.errormodel.errorModel.CompositeState in project osate2 by osate.
the class AbstractErrorModelSemanticSequencer method sequence.
@Override
public void sequence(ISerializationContext context, EObject semanticObject) {
EPackage epackage = semanticObject.eClass().getEPackage();
ParserRule rule = context.getParserRule();
Action action = context.getAssignedAction();
Set<Parameter> parameters = context.getEnabledBooleanParameters();
if (epackage == Aadl2Package.eINSTANCE)
switch(semanticObject.eClass().getClassifierID()) {
case Aadl2Package.ARRAY_RANGE:
sequence_ArrayRange(context, (ArrayRange) semanticObject);
return;
case Aadl2Package.BASIC_PROPERTY_ASSOCIATION:
sequence_FieldPropertyAssociation(context, (BasicPropertyAssociation) semanticObject);
return;
case Aadl2Package.BOOLEAN_LITERAL:
sequence_BooleanLiteral(context, (BooleanLiteral) semanticObject);
return;
case Aadl2Package.CLASSIFIER_VALUE:
sequence_ComponentClassifierTerm(context, (ClassifierValue) semanticObject);
return;
case Aadl2Package.COMPUTED_VALUE:
sequence_ComputedTerm(context, (ComputedValue) semanticObject);
return;
case Aadl2Package.CONTAINED_NAMED_ELEMENT:
sequence_ContainmentPath(context, (ContainedNamedElement) semanticObject);
return;
case Aadl2Package.CONTAINMENT_PATH_ELEMENT:
sequence_ContainmentPathElement(context, (ContainmentPathElement) semanticObject);
return;
case Aadl2Package.INTEGER_LITERAL:
sequence_IntegerTerm(context, (IntegerLiteral) semanticObject);
return;
case Aadl2Package.LIST_VALUE:
sequence_ListTerm(context, (ListValue) semanticObject);
return;
case Aadl2Package.MODAL_PROPERTY_VALUE:
if (rule == grammarAccess.getModalPropertyValueRule()) {
sequence_ModalPropertyValue(context, (ModalPropertyValue) semanticObject);
return;
} else if (rule == grammarAccess.getOptionalModalPropertyValueRule()) {
sequence_OptionalModalPropertyValue(context, (ModalPropertyValue) semanticObject);
return;
} else if (rule == grammarAccess.getPropertyValueRule()) {
sequence_PropertyValue(context, (ModalPropertyValue) semanticObject);
return;
} else
break;
case Aadl2Package.NAMED_VALUE:
if (rule == grammarAccess.getConstantValueRule() || rule == grammarAccess.getNumAltRule()) {
sequence_ConstantValue(context, (NamedValue) semanticObject);
return;
} else if (rule == grammarAccess.getPropertyExpressionRule() || rule == grammarAccess.getLiteralorReferenceTermRule()) {
sequence_LiteralorReferenceTerm(context, (NamedValue) semanticObject);
return;
} else
break;
case Aadl2Package.OPERATION:
sequence_SignedConstant(context, (Operation) semanticObject);
return;
case Aadl2Package.PROPERTY_ASSOCIATION:
if (rule == grammarAccess.getBasicPropertyAssociationRule()) {
sequence_BasicPropertyAssociation(context, (PropertyAssociation) semanticObject);
return;
} else if (rule == grammarAccess.getPModelRule() || rule == grammarAccess.getContainedPropertyAssociationRule()) {
sequence_ContainedPropertyAssociation(context, (PropertyAssociation) semanticObject);
return;
} else if (rule == grammarAccess.getPropertyAssociationRule()) {
sequence_PropertyAssociation(context, (PropertyAssociation) semanticObject);
return;
} else
break;
case Aadl2Package.RANGE_VALUE:
sequence_NumericRangeTerm(context, (RangeValue) semanticObject);
return;
case Aadl2Package.REAL_LITERAL:
sequence_RealTerm(context, (RealLiteral) semanticObject);
return;
case Aadl2Package.RECORD_VALUE:
if (rule == grammarAccess.getOldRecordTermRule()) {
sequence_OldRecordTerm(context, (RecordValue) semanticObject);
return;
} else if (rule == grammarAccess.getPropertyExpressionRule() || rule == grammarAccess.getRecordTermRule()) {
sequence_RecordTerm(context, (RecordValue) semanticObject);
return;
} else
break;
case Aadl2Package.REFERENCE_VALUE:
sequence_ReferenceTerm(context, (ReferenceValue) semanticObject);
return;
case Aadl2Package.STRING_LITERAL:
sequence_StringTerm(context, (StringLiteral) semanticObject);
return;
}
else if (epackage == ErrorModelPackage.eINSTANCE)
switch(semanticObject.eClass().getClassifierID()) {
case ErrorModelPackage.ALL_EXPRESSION:
if (rule == grammarAccess.getElementRule() || rule == grammarAccess.getConditionExpressionRule() || action == grammarAccess.getConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getAndExpressionRule() || action == grammarAccess.getAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getAllExpressionRule() || rule == grammarAccess.getConditionTermRule()) {
sequence_AllExpression(context, (AllExpression) semanticObject);
return;
} else if (rule == grammarAccess.getSConditionExpressionRule() || action == grammarAccess.getSConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getSAndExpressionRule() || action == grammarAccess.getSAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getSAllExpressionRule() || rule == grammarAccess.getSConditionTermRule()) {
sequence_SAllExpression(context, (AllExpression) semanticObject);
return;
} else
break;
case ErrorModelPackage.AND_EXPRESSION:
if (rule == grammarAccess.getElementRule() || rule == grammarAccess.getConditionExpressionRule() || action == grammarAccess.getConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getAndExpressionRule() || action == grammarAccess.getAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getConditionTermRule()) {
sequence_AndExpression(context, (AndExpression) semanticObject);
return;
} else if (rule == grammarAccess.getSConditionExpressionRule() || action == grammarAccess.getSConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getSAndExpressionRule() || action == grammarAccess.getSAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getSConditionTermRule()) {
sequence_SAndExpression(context, (AndExpression) semanticObject);
return;
} else
break;
case ErrorModelPackage.BRANCH_VALUE:
sequence_BranchValue(context, (BranchValue) semanticObject);
return;
case ErrorModelPackage.COMPOSITE_STATE:
sequence_CompositeState(context, (CompositeState) semanticObject);
return;
case ErrorModelPackage.CONDITION_ELEMENT:
sequence_ConditionElement(context, (ConditionElement) semanticObject);
return;
case ErrorModelPackage.EMV2_PATH:
if (rule == grammarAccess.getBasicEMV2PathRule()) {
sequence_BasicEMV2Path(context, (EMV2Path) semanticObject);
return;
} else if (rule == grammarAccess.getElementRule() || rule == grammarAccess.getEMV2PathRule()) {
sequence_EMV2Path(context, (EMV2Path) semanticObject);
return;
} else
break;
case ErrorModelPackage.EMV2_PATH_ELEMENT:
if (rule == grammarAccess.getEMV2ErrorPropagationPathRule()) {
sequence_EMV2ErrorPropagationPath(context, (EMV2PathElement) semanticObject);
return;
} else if (rule == grammarAccess.getEMV2PathElementOrKindRule()) {
sequence_EMV2PathElementOrKind(context, (EMV2PathElement) semanticObject);
return;
} else if (rule == grammarAccess.getElementRule() || rule == grammarAccess.getEMV2PathElementRule()) {
sequence_EMV2PathElement(context, (EMV2PathElement) semanticObject);
return;
} else
break;
case ErrorModelPackage.EMV2_PROPERTY_ASSOCIATION:
if (rule == grammarAccess.getBasicEMV2PropertyAssociationRule()) {
sequence_BasicEMV2PropertyAssociation(context, (EMV2PropertyAssociation) semanticObject);
return;
} else if (rule == grammarAccess.getElementRule() || rule == grammarAccess.getEMV2PropertyAssociationRule()) {
sequence_EMV2PropertyAssociation(context, (EMV2PropertyAssociation) semanticObject);
return;
} else
break;
case ErrorModelPackage.EMV2_ROOT:
sequence_EMV2Root(context, (EMV2Root) semanticObject);
return;
case ErrorModelPackage.ERROR_BEHAVIOR_STATE:
sequence_ErrorBehaviorState(context, (ErrorBehaviorState) semanticObject);
return;
case ErrorModelPackage.ERROR_BEHAVIOR_STATE_MACHINE:
sequence_ErrorBehaviorStateMachine(context, (ErrorBehaviorStateMachine) semanticObject);
return;
case ErrorModelPackage.ERROR_BEHAVIOR_TRANSITION:
sequence_ErrorBehaviorTransition(context, (ErrorBehaviorTransition) semanticObject);
return;
case ErrorModelPackage.ERROR_CODE_VALUE:
sequence_ErrorCodeValue(context, (ErrorCodeValue) semanticObject);
return;
case ErrorModelPackage.ERROR_DETECTION:
sequence_ErrorDetection(context, (ErrorDetection) semanticObject);
return;
case ErrorModelPackage.ERROR_EVENT:
sequence_ErrorEvent(context, (ErrorEvent) semanticObject);
return;
case ErrorModelPackage.ERROR_MODEL_LIBRARY:
if (rule == grammarAccess.getEMV2LibraryRule()) {
sequence_EMV2Library(context, (ErrorModelLibrary) semanticObject);
return;
} else if (rule == grammarAccess.getAnnexLibraryRule() || rule == grammarAccess.getNamedElementRule() || rule == grammarAccess.getErrorModelLibraryRule()) {
sequence_ErrorModelLibrary(context, (ErrorModelLibrary) semanticObject);
return;
} else
break;
case ErrorModelPackage.ERROR_MODEL_SUBCLAUSE:
if (rule == grammarAccess.getEMV2SubclauseRule()) {
sequence_EMV2Subclause(context, (ErrorModelSubclause) semanticObject);
return;
} else if (rule == grammarAccess.getAnnexSubclauseRule() || rule == grammarAccess.getModalElementRule() || rule == grammarAccess.getErrorModelSubclauseRule()) {
sequence_ErrorModelSubclause(context, (ErrorModelSubclause) semanticObject);
return;
} else
break;
case ErrorModelPackage.ERROR_PATH:
sequence_ErrorPath(context, (ErrorPath) semanticObject);
return;
case ErrorModelPackage.ERROR_PROPAGATION:
sequence_ErrorPropagation(context, (ErrorPropagation) semanticObject);
return;
case ErrorModelPackage.ERROR_SINK:
sequence_ErrorSink(context, (ErrorSink) semanticObject);
return;
case ErrorModelPackage.ERROR_SOURCE:
sequence_ErrorSource(context, (ErrorSource) semanticObject);
return;
case ErrorModelPackage.ERROR_STATE_TO_MODE_MAPPING:
sequence_ErrorStateToModeMapping(context, (ErrorStateToModeMapping) semanticObject);
return;
case ErrorModelPackage.ERROR_TYPE:
sequence_TypeDefinition(context, (ErrorType) semanticObject);
return;
case ErrorModelPackage.FEATUREOR_PP_REFERENCE:
sequence_FeatureorPPReference(context, (FeatureorPPReference) semanticObject);
return;
case ErrorModelPackage.IF_CONDITION:
sequence_IfCondition(context, (IfCondition) semanticObject);
return;
case ErrorModelPackage.OR_EXPRESSION:
if (rule == grammarAccess.getElementRule() || rule == grammarAccess.getConditionExpressionRule() || action == grammarAccess.getConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getAndExpressionRule() || action == grammarAccess.getAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getConditionTermRule()) {
sequence_ConditionExpression(context, (OrExpression) semanticObject);
return;
} else if (rule == grammarAccess.getSConditionExpressionRule() || action == grammarAccess.getSConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getSAndExpressionRule() || action == grammarAccess.getSAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getSConditionTermRule()) {
sequence_SConditionExpression(context, (OrExpression) semanticObject);
return;
} else
break;
case ErrorModelPackage.ORLESS_EXPRESSION:
if (rule == grammarAccess.getElementRule() || rule == grammarAccess.getConditionExpressionRule() || action == grammarAccess.getConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getAndExpressionRule() || action == grammarAccess.getAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getOrlessExpressionRule() || rule == grammarAccess.getConditionTermRule()) {
sequence_OrlessExpression(context, (OrlessExpression) semanticObject);
return;
} else if (rule == grammarAccess.getSConditionExpressionRule() || action == grammarAccess.getSConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getSAndExpressionRule() || action == grammarAccess.getSAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getSOrlessExpressionRule() || rule == grammarAccess.getSConditionTermRule()) {
sequence_SOrlessExpression(context, (OrlessExpression) semanticObject);
return;
} else
break;
case ErrorModelPackage.ORMORE_EXPRESSION:
if (rule == grammarAccess.getElementRule() || rule == grammarAccess.getConditionExpressionRule() || action == grammarAccess.getConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getAndExpressionRule() || action == grammarAccess.getAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getOrmoreExpressionRule() || rule == grammarAccess.getConditionTermRule()) {
sequence_OrmoreExpression(context, (OrmoreExpression) semanticObject);
return;
} else if (rule == grammarAccess.getSConditionExpressionRule() || action == grammarAccess.getSConditionExpressionAccess().getOrExpressionOperandsAction_1_0() || rule == grammarAccess.getSAndExpressionRule() || action == grammarAccess.getSAndExpressionAccess().getAndExpressionOperandsAction_1_0() || rule == grammarAccess.getSOrmoreExpressionRule() || rule == grammarAccess.getSConditionTermRule()) {
sequence_SOrmoreExpression(context, (OrmoreExpression) semanticObject);
return;
} else
break;
case ErrorModelPackage.OUTGOING_PROPAGATION_CONDITION:
sequence_OutgoingPropagationCondition(context, (OutgoingPropagationCondition) semanticObject);
return;
case ErrorModelPackage.PROPAGATION_PATH:
sequence_PropagationPath(context, (PropagationPath) semanticObject);
return;
case ErrorModelPackage.PROPAGATION_POINT:
sequence_PropagationPoint(context, (PropagationPoint) semanticObject);
return;
case ErrorModelPackage.QUALIFIED_ERROR_BEHAVIOR_STATE:
sequence_QualifiedErrorBehaviorState(context, (QualifiedErrorBehaviorState) semanticObject);
return;
case ErrorModelPackage.QUALIFIED_ERROR_EVENT_OR_PROPAGATION:
sequence_QualifiedErrorEventOrPropagation(context, (QualifiedErrorEventOrPropagation) semanticObject);
return;
case ErrorModelPackage.QUALIFIED_ERROR_PROPAGATION:
sequence_QualifiedErrorPropagation(context, (QualifiedErrorPropagation) semanticObject);
return;
case ErrorModelPackage.QUALIFIED_PROPAGATION_POINT:
sequence_QualifiedPropagationPoint(context, (QualifiedPropagationPoint) semanticObject);
return;
case ErrorModelPackage.RECOVER_EVENT:
sequence_RecoverEvent(context, (RecoverEvent) semanticObject);
return;
case ErrorModelPackage.REPAIR_EVENT:
sequence_RepairEvent(context, (RepairEvent) semanticObject);
return;
case ErrorModelPackage.REPORTING_PORT_REFERENCE:
sequence_ReportingPortReference(context, (ReportingPortReference) semanticObject);
return;
case ErrorModelPackage.SCONDITION_ELEMENT:
sequence_SConditionElement(context, (SConditionElement) semanticObject);
return;
case ErrorModelPackage.SUBCOMPONENT_ELEMENT:
sequence_SubcomponentElement(context, (SubcomponentElement) semanticObject);
return;
case ErrorModelPackage.TRANSITION_BRANCH:
sequence_TransitionBranch(context, (TransitionBranch) semanticObject);
return;
case ErrorModelPackage.TYPE_MAPPING:
sequence_TypeMapping(context, (TypeMapping) semanticObject);
return;
case ErrorModelPackage.TYPE_MAPPING_SET:
sequence_TypeMappingSet(context, (TypeMappingSet) semanticObject);
return;
case ErrorModelPackage.TYPE_SET:
if (rule == grammarAccess.getNoErrorTypeSetRule()) {
sequence_NoErrorTypeSet(context, (TypeSet) semanticObject);
return;
} else if (rule == grammarAccess.getTypeTokenOrNoErrorRule() || rule == grammarAccess.getTypeTokenConstraintNoErrorRule()) {
sequence_NoErrorTypeSet_TypeSetConstructor(context, (TypeSet) semanticObject);
return;
} else if (rule == grammarAccess.getTypeSetConstructorRule() || rule == grammarAccess.getTypeSetReferenceRule() || rule == grammarAccess.getTypeTokenRule() || rule == grammarAccess.getTypeTokenConstraintRule()) {
sequence_TypeSetConstructor(context, (TypeSet) semanticObject);
return;
} else if (rule == grammarAccess.getNamedElementRule() || rule == grammarAccess.getErrorTypesRule() || rule == grammarAccess.getTypeSetDefinitionRule()) {
sequence_TypeSetDefinition(context, (TypeSet) semanticObject);
return;
} else
break;
case ErrorModelPackage.TYPE_TOKEN:
if (rule == grammarAccess.getNoErrorTypeTokenRule()) {
sequence_NoErrorTypeToken(context, (TypeToken) semanticObject);
return;
} else if (rule == grammarAccess.getElementRule() || rule == grammarAccess.getTypeSetElementRule()) {
sequence_TypeSetElement(context, (TypeToken) semanticObject);
return;
} else
break;
case ErrorModelPackage.TYPE_TRANSFORMATION:
sequence_TypeTransformation(context, (TypeTransformation) semanticObject);
return;
case ErrorModelPackage.TYPE_TRANSFORMATION_SET:
sequence_TypeTransformationSet(context, (TypeTransformationSet) semanticObject);
return;
}
if (errorAcceptor != null)
errorAcceptor.accept(diagnosticProvider.createInvalidContextOrTypeDiagnostic(semanticObject, context));
}
Also used :
EMV2PathElement(org.osate.xtext.aadl2.errormodel.errorModel.EMV2PathElement)
ParserRule(org.eclipse.xtext.ParserRule)
ComputedValue(org.osate.aadl2.ComputedValue)
Action(org.eclipse.xtext.Action)
ClassifierValue(org.osate.aadl2.ClassifierValue)
ModalPropertyValue(org.osate.aadl2.ModalPropertyValue)
ErrorModelLibrary(org.osate.xtext.aadl2.errormodel.errorModel.ErrorModelLibrary)
BooleanLiteral(org.osate.aadl2.BooleanLiteral)
EMV2PropertyAssociation(org.osate.xtext.aadl2.errormodel.errorModel.EMV2PropertyAssociation)
PropertyAssociation(org.osate.aadl2.PropertyAssociation)
BasicPropertyAssociation(org.osate.aadl2.BasicPropertyAssociation)
ReferenceValue(org.osate.aadl2.ReferenceValue)
AllExpression(org.osate.xtext.aadl2.errormodel.errorModel.AllExpression)
OrlessExpression(org.osate.xtext.aadl2.errormodel.errorModel.OrlessExpression)
ArrayRange(org.osate.aadl2.ArrayRange)
NamedValue(org.osate.aadl2.NamedValue)
Operation(org.osate.aadl2.Operation)
OrmoreExpression(org.osate.xtext.aadl2.errormodel.errorModel.OrmoreExpression)
OrExpression(org.osate.xtext.aadl2.errormodel.errorModel.OrExpression)
RangeValue(org.osate.aadl2.RangeValue)
EPackage(org.eclipse.emf.ecore.EPackage)
RealLiteral(org.osate.aadl2.RealLiteral)
EMV2Path(org.osate.xtext.aadl2.errormodel.errorModel.EMV2Path)
AndExpression(org.osate.xtext.aadl2.errormodel.errorModel.AndExpression)
BasicPropertyAssociation(org.osate.aadl2.BasicPropertyAssociation)
IntegerLiteral(org.osate.aadl2.IntegerLiteral)
ErrorModelSubclause(org.osate.xtext.aadl2.errormodel.errorModel.ErrorModelSubclause)
ListValue(org.osate.aadl2.ListValue)
ContainmentPathElement(org.osate.aadl2.ContainmentPathElement)
RecordValue(org.osate.aadl2.RecordValue)
EMV2PropertyAssociation(org.osate.xtext.aadl2.errormodel.errorModel.EMV2PropertyAssociation)
StringLiteral(org.osate.aadl2.StringLiteral)
TypeToken(org.osate.xtext.aadl2.errormodel.errorModel.TypeToken)
TypeSet(org.osate.xtext.aadl2.errormodel.errorModel.TypeSet)
Parameter(org.eclipse.xtext.Parameter)
ContainedNamedElement(org.osate.aadl2.ContainedNamedElement)
Example 5 with CompositeState
use of org.osate.xtext.aadl2.errormodel.errorModel.CompositeState in project osate2 by osate.
the class ErrorModelValidator method checkSConditionElementType.
private void checkSConditionElementType(SConditionElement conditionElement) {
// this method handles state part of composite. The incoming propagation is handled by the ConditionElement method.
ErrorBehaviorState es = EMV2Util.getState(conditionElement);
if (es == null) {
return;
}
CompositeState compState;
EObject eo = conditionElement;
while (eo.eContainer() != null) {
eo = eo.eContainer();
if (eo instanceof CompositeState) {
break;
}
}
if (eo instanceof CompositeState) {
compState = (CompositeState) eo;
EList<TypeToken> targetTKs = compState.getTypedToken().getTypeTokens();
// marks error if target state has a typeset or multiple errors associated with it
if ((targetTKs != null && targetTKs.size() > 1) || (targetTKs.get(0).getType() != null && !(targetTKs.get(0).getType().get(0) instanceof ErrorType))) {
error(compState, "Target error type may only have a single error type");
}
}
TypeSet triggerTS = null;
String triggerName = "";
triggerTS = es.getTypeSet();
triggerName = "state " + es.getName();
TypeSet condTS = conditionElement.getConstraint();
if (condTS == null) {
return;
}
if (triggerTS == null && condTS != null) {
// it is ok for a state not to have a type set.
error(conditionElement, "Condition has type constraint but referenced " + triggerName + " does not.");
} else if (!EMV2TypeSetUtil.isNoError(condTS) && !EMV2TypeSetUtil.contains(triggerTS, condTS)) {
error(conditionElement, "Condition type constraint " + EMV2Util.getPrintName(condTS) + "is not contained in type set " + EMV2Util.getPrintName(triggerTS) + "of referenced " + triggerName);
}
}
Also used :
ErrorBehaviorState(org.osate.xtext.aadl2.errormodel.errorModel.ErrorBehaviorState)
ErrorType(org.osate.xtext.aadl2.errormodel.errorModel.ErrorType)
TypeToken(org.osate.xtext.aadl2.errormodel.errorModel.TypeToken)
EObject(org.eclipse.emf.ecore.EObject)
TypeSet(org.osate.xtext.aadl2.errormodel.errorModel.TypeSet)
CompositeState(org.osate.xtext.aadl2.errormodel.errorModel.CompositeState)
Aggregations
CompositeState (org.osate.xtext.aadl2.errormodel.errorModel.CompositeState)4
EObject (org.eclipse.emf.ecore.EObject)3
TypeSet (org.osate.xtext.aadl2.errormodel.errorModel.TypeSet)3
TypeToken (org.osate.xtext.aadl2.errormodel.errorModel.TypeToken)3
ErrorBehaviorState (org.osate.xtext.aadl2.errormodel.errorModel.ErrorBehaviorState)2
ErrorModelSubclause (org.osate.xtext.aadl2.errormodel.errorModel.ErrorModelSubclause)2
BigDecimal (java.math.BigDecimal)1
LinkedHashMap (java.util.LinkedHashMap)1
LinkedList (java.util.LinkedList)1
EPackage (org.eclipse.emf.ecore.EPackage)1
Action (org.eclipse.xtext.Action)1
Parameter (org.eclipse.xtext.Parameter)1
ParserRule (org.eclipse.xtext.ParserRule)1
ArrayRange (org.osate.aadl2.ArrayRange)1
BasicPropertyAssociation (org.osate.aadl2.BasicPropertyAssociation)1
BooleanLiteral (org.osate.aadl2.BooleanLiteral)1
ClassifierValue (org.osate.aadl2.ClassifierValue)1
ComputedValue (org.osate.aadl2.ComputedValue)1
ContainedNamedElement (org.osate.aadl2.ContainedNamedElement)1
ContainmentPathElement (org.osate.aadl2.ContainmentPathElement)1
