use of org.osate.xtext.aadl2.errormodel.errorModel.ErrorSink in project osate2 by osate.
the class ErrorModelValidator method checkErrorSinkTypes.
private void checkErrorSinkTypes(ErrorSink ef) {
if (ef.getTypeTokenConstraint() == null) {
return;
}
ErrorPropagation ep = ef.getIncoming();
if (ep != null) {
if (!EMV2TypeSetUtil.contains(ep.getTypeSet(), ef.getTypeTokenConstraint())) {
error(ef, "Type token constraint is not contained in type set of incoming propagation \"" + EMV2Util.getPrintName(ep) + "\"");
}
} else {
// check containment for all of the incoming propagation points
Classifier cl = ef.getContainingClassifier();
Collection<ErrorPropagation> eps = EMV2Util.getAllIncomingErrorPropagations(cl);
for (ErrorPropagation errorPropagation : eps) {
if (!EMV2TypeSetUtil.contains(errorPropagation.getTypeSet(), ef.getTypeTokenConstraint())) {
error(ef, "Type token constraint is not contained in type set of incoming propagation \"" + EMV2Util.getPrintName(errorPropagation) + "\"");
}
}
}
}
use of org.osate.xtext.aadl2.errormodel.errorModel.ErrorSink in project osate2 by osate.
the class PropagateErrorSources method traceErrorFlows.
/**
* traverse through the destination of the connection instance
* @param conni
*/
protected void traceErrorFlows(ComponentInstance ci, ErrorPropagation ep, TypeToken tt, int depth, String entryText) {
if (ci == null) {
return;
}
/**
* With alreadyTreated, we have a cache that keep track of existing report
* text for each component. For each component, we maintain a list of existing
* entryText already reported. So, we do not duplicate the error report for each component
* and make sure to report each entry only once.
*/
if (!alreadyTreated.containsKey(ci)) {
alreadyTreated.put(ci, new ArrayList<String>());
}
if (alreadyTreated.get(ci).contains(entryText)) {
return;
}
alreadyTreated.get(ci).add(entryText);
boolean handled = false;
Collection<ErrorFlow> outefs = EMV2Util.findErrorFlowFromComponentInstance(ci, ep);
for (ErrorFlow ef : outefs) {
if (ef instanceof ErrorSink && Util.conditionHolds(ef, ci)) {
/**
* We try to find additional error propagation for this error sink.
* For example, if the error sink triggers to switch to
* another behavior state and that states is used to propagate
* an error through an error source. Then, we do not consider
* it as an error sink but as an error path and continue
* to trace the flow using this additional error propagation.
*/
if (EMV2TypeSetUtil.contains(ef.getTypeTokenConstraint(), tt)) {
String maskText = ", " + generateFailureModeText(ci, ep, tt) + " [Masked],";
reportEntry(entryText + maskText, depth);
handled = true;
} else {
Collection<TypeToken> intersection = EMV2TypeSetUtil.getConstrainedTypeTokens(ef.getTypeTokenConstraint(), tt);
for (TypeToken typeToken : intersection) {
String maskText = ", " + generateFailureModeText(ci, ep, typeToken) + " [Masked],";
reportEntry(entryText + maskText, depth);
handled = true;
}
}
} else if (ef instanceof ErrorPath) {
// error path
Collection<ErrorPropagation> eplist = EMV2Util.getOutgoingPropagationOrAll((ErrorPath) ef);
ErrorPropagation inep = ((ErrorPath) ef).getIncoming();
if (ef.getTypeTokenConstraint() != null ? EMV2TypeSetUtil.contains(ef.getTypeTokenConstraint(), tt) : (inep != null ? EMV2TypeSetUtil.contains(inep.getTypeSet(), tt) : ((ErrorPath) ef).isAllIncoming())) {
TypeToken newtt = EMV2Util.mapToken(tt, ef);
for (ErrorPropagation outp : eplist) {
traceErrorPaths(ci, outp, newtt, depth + 1, entryText + ", " + generateFailureModeText(ci, ep, tt));
handled = true;
}
} else {
Collection<TypeToken> intersection = Collections.emptyList();
TypeSet ts = null;
if (ef.getTypeTokenConstraint() != null) {
ts = ef.getTypeTokenConstraint();
} else if (inep != null) {
ts = inep.getTypeSet();
}
if (ts != null) {
intersection = EMV2TypeSetUtil.getConstrainedTypeTokens(ts, tt);
}
for (TypeToken typeToken : intersection) {
TypeToken newtt = EMV2Util.mapToken(typeToken, ef);
for (ErrorPropagation outp : eplist) {
traceErrorPaths(ci, outp, newtt, depth + 1, entryText + ",\"" + generateFailureModeText(ci, ep, typeToken) + " [Subtype]\"");
handled = true;
}
}
}
}
}
if (!handled) {
// no error flows:. and no flows condition
// try flows or propagate to all outgoing error propagations
EList<FlowSpecificationInstance> flowlist = ci.getFlowSpecifications();
if (!flowlist.isEmpty()) {
for (FlowSpecificationInstance flowSpecificationInstance : flowlist) {
if (flowSpecificationInstance.getSource() != null && flowSpecificationInstance.getSource().getFeature() == EMV2Util.getErrorPropagationFeature(ep, ci)) {
FeatureInstance outfi = flowSpecificationInstance.getDestination();
if (outfi != null) {
ErrorPropagation outp = EMV2Util.getOutgoingErrorPropagation(outfi);
if (outp != null) {
TypeToken newtt = EMV2Util.mapToken(tt, flowSpecificationInstance);
if (EMV2TypeSetUtil.contains(outp.getTypeSet(), newtt)) {
traceErrorPaths(ci, outp, newtt, depth + 1, entryText + ", " + generateFailureModeText(ci, ep, tt) + " [FlowPath]");
handled = true;
} else {
Collection<TypeToken> intersection = EMV2TypeSetUtil.getConstrainedTypeTokens(outp.getTypeSet(), newtt);
for (TypeToken typeToken : intersection) {
traceErrorPaths(ci, outp, typeToken, depth + 1, entryText + ", " + generateFailureModeText(ci, ep, tt) + " [FlowPath TypeSubset]");
handled = true;
}
}
}
} else {
// do all since we have a flow sink
EList<FeatureInstance> filist = ci.getFeatureInstances();
boolean res = doAllOutPropagationsOrFeatures(ci, filist, ep, tt, depth, entryText);
if (res) {
handled = true;
}
}
}
}
} else {
// now all outgoing propagations or features since we did not find flows
EList<FeatureInstance> filist = ci.getFeatureInstances();
boolean res = doAllOutPropagationsOrFeatures(ci, filist, ep, tt, depth, entryText);
if (res) {
handled = true;
}
}
}
if (!handled) {
String errorText = "," + generateFailureModeText(ci, ep, tt) + " [Unhandled Failure Effect]";
reportEntry(entryText + errorText, depth);
}
}
use of org.osate.xtext.aadl2.errormodel.errorModel.ErrorSink 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));
}
use of org.osate.xtext.aadl2.errormodel.errorModel.ErrorSink in project osate2 by osate.
the class ErrorFlowHandler method getGraphicalConfiguration.
@Override
public Optional<GraphicalConfiguration> getGraphicalConfiguration(final GetGraphicalConfigurationContext ctx) {
final ErrorFlow bo = ctx.getBusinessObjectContext().getBusinessObject(ErrorFlow.class).get();
final BusinessObjectContext classifierBoc = ctx.getBusinessObjectContext().getParent();
if (classifierBoc == null) {
return Optional.empty();
}
// Determine the type of graphic and the source and destination of the connection
final ErrorFlowEnd src;
final ErrorFlowEnd dst;
final Graphic graphic;
if (bo instanceof ErrorSource) {
graphic = SOURCE_GRAPHIC;
final ErrorSource es = (ErrorSource) bo;
src = getErrorFlowEnd(ctx.getQueryService(), classifierBoc, es.isAll(), es.getSourceModelElement()).orElse(null);
dst = null;
} else if (bo instanceof ErrorSink) {
graphic = SINK_GRAPHIC;
final ErrorSink es = (ErrorSink) bo;
src = getErrorFlowEnd(ctx.getQueryService(), classifierBoc, es.isAllIncoming(), es.getIncoming()).orElse(null);
dst = null;
} else if (bo instanceof ErrorPath) {
graphic = PATH_GRAPHIC;
final ErrorPath ep = (ErrorPath) bo;
src = getErrorFlowEnd(ctx.getQueryService(), classifierBoc, ep.isAllIncoming(), ep.getIncoming()).orElse(null);
dst = getErrorFlowEnd(ctx.getQueryService(), classifierBoc, ep.isAllOutgoing(), ep.getOutgoing()).orElse(null);
} else {
return Optional.empty();
}
// Determine style
final StyleBuilder sb = StyleBuilder.create(GraphicalExtensionUtil.isInherited(ctx.getBusinessObjectContext()) ? GraphicalExtensionUtil.STYLE_INHERITED_ELEMENT : Style.EMPTY).lineWidth(4.0);
final boolean partial = (src != null && src.partial) || (dst != null && dst.partial);
if (partial) {
sb.dotted();
}
return Optional.of(GraphicalConfigurationBuilder.create().graphic(graphic).style(sb.build()).defaultDockingPosition(DockingPosition.ANY).source(src == null ? null : src.boc).destination(dst == null ? null : dst.boc).build());
}
use of org.osate.xtext.aadl2.errormodel.errorModel.ErrorSink in project osate2 by osate.
the class ErrorPropagationHandler method canDelete.
@Override
public boolean canDelete(final CanDeleteContext ctx) {
final ErrorPropagation bo = ctx.getBusinessObject(ErrorPropagation.class).get();
// Don't allow deleting if there exists an error flow that references the error propagation
final CombinedErrorModelSubclause combined = CombinedErrorModelSubclause.create(bo.getContainingClassifier());
return !combined.getFlows().anyMatch(f -> {
if (f instanceof ErrorSource) {
final ErrorSource src = (ErrorSource) f;
return src.getSourceModelElement() == bo;
} else if (f instanceof ErrorSink) {
final ErrorSink snk = (ErrorSink) f;
return snk.getIncoming() == bo;
} else if (f instanceof ErrorPath) {
final ErrorPath path = (ErrorPath) f;
return path.getIncoming() == bo || path.getOutgoing() == bo;
}
return false;
});
}
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