use of com.rockwellcollins.atc.agree.agree.InputStatement in project AMASE by loonwerks.
the class SafetyScopeProvider method getNamedElementsFromSpecs.
private Set<NamedElement> getNamedElementsFromSpecs(EList<SpecStatement> agreeSpecs) {
Set<NamedElement> nelms = new HashSet<>();
for (SpecStatement spec : agreeSpecs) {
if (spec instanceof NamedElement) {
nelms.add((NamedElement) spec);
}
if (spec instanceof EqStatement) {
EqStatement eq = (EqStatement) spec;
nelms.addAll(eq.getLhs());
} else if (spec instanceof InputStatement) {
nelms.addAll(((InputStatement) spec).getLhs());
} else if (spec instanceof EnumStatement) {
nelms.addAll(((EnumStatement) spec).getEnums());
}
}
return nelms;
}
use of com.rockwellcollins.atc.agree.agree.InputStatement in project AMASE by loonwerks.
the class AbstractSafetySemanticSequencer 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 == AgreePackage.eINSTANCE)
switch(semanticObject.eClass().getClassifierID()) {
case AgreePackage.AGREE_CONTRACT:
sequence_AgreeContract(context, (AgreeContract) semanticObject);
return;
case AgreePackage.AGREE_CONTRACT_LIBRARY:
sequence_AgreeLibrary(context, (AgreeContractLibrary) semanticObject);
return;
case AgreePackage.AGREE_CONTRACT_SUBCLAUSE:
sequence_AgreeSubclause(context, (AgreeContractSubclause) semanticObject);
return;
case AgreePackage.ALWAYS_STATEMENT:
sequence_PatternStatement(context, (AlwaysStatement) semanticObject);
return;
case AgreePackage.ARG:
sequence_Arg(context, (Arg) semanticObject);
return;
case AgreePackage.ARRAY_LITERAL_EXPR:
sequence_ArrayLiteralExpr(context, (ArrayLiteralExpr) semanticObject);
return;
case AgreePackage.ARRAY_SUB_EXPR:
sequence_ArraySubExpr(context, (ArraySubExpr) semanticObject);
return;
case AgreePackage.ARRAY_TYPE:
sequence_Type(context, (ArrayType) semanticObject);
return;
case AgreePackage.ARRAY_UPDATE_EXPR:
sequence_ArrayUpdateExpr(context, (ArrayUpdateExpr) semanticObject);
return;
case AgreePackage.ASSERT_STATEMENT:
sequence_NamedSpecStatement(context, (AssertStatement) semanticObject);
return;
case AgreePackage.ASSIGN_STATEMENT:
sequence_AssignStatement(context, (AssignStatement) semanticObject);
return;
case AgreePackage.ASSUME_STATEMENT:
sequence_NamedSpecStatement(context, (AssumeStatement) semanticObject);
return;
case AgreePackage.ASYNCH_STATEMENT:
sequence_SynchStatement(context, (AsynchStatement) semanticObject);
return;
case AgreePackage.BINARY_EXPR:
sequence_AddSubExpr_AndExpr_ArrowExpr_EquivExpr_ImpliesExpr_MultDivExpr_OrExpr_PowerExpr_RelateExpr(context, (BinaryExpr) semanticObject);
return;
case AgreePackage.BOOL_LIT_EXPR:
sequence_TermExpr(context, (BoolLitExpr) semanticObject);
return;
case AgreePackage.CALEN_STATEMENT:
sequence_SynchStatement(context, (CalenStatement) semanticObject);
return;
case AgreePackage.CALL_EXPR:
sequence_TermExpr(context, (CallExpr) semanticObject);
return;
case AgreePackage.CLOSED_TIME_INTERVAL:
sequence_TimeInterval(context, (ClosedTimeInterval) semanticObject);
return;
case AgreePackage.CONST_STATEMENT:
sequence_ConstStatement(context, (ConstStatement) semanticObject);
return;
case AgreePackage.DOUBLE_DOT_REF:
sequence_DoubleDotRef(context, (DoubleDotRef) semanticObject);
return;
case AgreePackage.ENUM_LIT_EXPR:
sequence_TermExpr(context, (EnumLitExpr) semanticObject);
return;
case AgreePackage.ENUM_STATEMENT:
sequence_EnumStatement(context, (EnumStatement) semanticObject);
return;
case AgreePackage.EQ_STATEMENT:
sequence_EqStatement(context, (EqStatement) semanticObject);
return;
case AgreePackage.EVENT_EXPR:
sequence_TermExpr(context, (EventExpr) semanticObject);
return;
case AgreePackage.EXISTS_EXPR:
sequence_ExistsExpr(context, (ExistsExpr) semanticObject);
return;
case AgreePackage.FLATMAP_EXPR:
sequence_FlatmapExpr(context, (FlatmapExpr) semanticObject);
return;
case AgreePackage.FLOOR_CAST:
sequence_TermExpr(context, (FloorCast) semanticObject);
return;
case AgreePackage.FN_DEF:
sequence_FnDef(context, (FnDef) semanticObject);
return;
case AgreePackage.FOLD_LEFT_EXPR:
sequence_FoldLeftExpr(context, (FoldLeftExpr) semanticObject);
return;
case AgreePackage.FOLD_RIGHT_EXPR:
sequence_FoldRightExpr(context, (FoldRightExpr) semanticObject);
return;
case AgreePackage.FORALL_EXPR:
sequence_ForallExpr(context, (ForallExpr) semanticObject);
return;
case AgreePackage.GET_PROPERTY_EXPR:
sequence_PreDefFnExpr(context, (GetPropertyExpr) semanticObject);
return;
case AgreePackage.GUARANTEE_STATEMENT:
sequence_NamedSpecStatement(context, (GuaranteeStatement) semanticObject);
return;
case AgreePackage.IF_THEN_ELSE_EXPR:
sequence_IfThenElseExpr(context, (IfThenElseExpr) semanticObject);
return;
case AgreePackage.INDICES_EXPR:
sequence_TermExpr(context, (IndicesExpr) semanticObject);
return;
case AgreePackage.INPUT_STATEMENT:
sequence_InputStatement(context, (InputStatement) semanticObject);
return;
case AgreePackage.INT_LIT_EXPR:
sequence_TermExpr(context, (IntLitExpr) semanticObject);
return;
case AgreePackage.LATCHED_EXPR:
sequence_TermExpr(context, (LatchedExpr) semanticObject);
return;
case AgreePackage.LATCHED_STATEMENT:
sequence_SynchStatement(context, (LatchedStatement) semanticObject);
return;
case AgreePackage.LEMMA_STATEMENT:
sequence_NamedSpecStatement(context, (LemmaStatement) semanticObject);
return;
case AgreePackage.LIBRARY_FN_DEF:
sequence_LibraryFnDef(context, (LibraryFnDef) semanticObject);
return;
case AgreePackage.LINEARIZATION_DEF:
sequence_LinearizationDef(context, (LinearizationDef) semanticObject);
return;
case AgreePackage.LINEARIZATION_INTERVAL:
sequence_LinearizationInterval(context, (LinearizationInterval) semanticObject);
return;
case AgreePackage.MN_SYNCH_STATEMENT:
sequence_SynchStatement(context, (MNSynchStatement) semanticObject);
return;
case AgreePackage.NAMED_ELM_EXPR:
sequence_TermExpr(context, (NamedElmExpr) semanticObject);
return;
case AgreePackage.NAMED_ID:
sequence_NamedID(context, (NamedID) semanticObject);
return;
case AgreePackage.NODE_BODY_EXPR:
sequence_NodeBodyExpr(context, (NodeBodyExpr) semanticObject);
return;
case AgreePackage.NODE_DEF:
sequence_NodeDef(context, (NodeDef) semanticObject);
return;
case AgreePackage.NODE_EQ:
sequence_NodeStmt(context, (NodeEq) semanticObject);
return;
case AgreePackage.NODE_LEMMA:
sequence_NodeStmt(context, (NodeLemma) semanticObject);
return;
case AgreePackage.OPEN_LEFT_TIME_INTERVAL:
sequence_TimeInterval(context, (OpenLeftTimeInterval) semanticObject);
return;
case AgreePackage.OPEN_RIGHT_TIME_INTERVAL:
sequence_TimeInterval(context, (OpenRightTimeInterval) semanticObject);
return;
case AgreePackage.OPEN_TIME_INTERVAL:
sequence_TimeInterval(context, (OpenTimeInterval) semanticObject);
return;
case AgreePackage.ORDER_STATEMENT:
sequence_OrderStatement(context, (OrderStatement) semanticObject);
return;
case AgreePackage.PERIODIC_STATEMENT:
sequence_RealTimeStatement(context, (PeriodicStatement) semanticObject);
return;
case AgreePackage.PRE_EXPR:
sequence_TermExpr(context, (PreExpr) semanticObject);
return;
case AgreePackage.PREV_EXPR:
sequence_PreDefFnExpr(context, (PrevExpr) semanticObject);
return;
case AgreePackage.PRIM_TYPE:
sequence_BaseType(context, (PrimType) semanticObject);
return;
case AgreePackage.PROPERTY_STATEMENT:
sequence_PropertyStatement(context, (PropertyStatement) semanticObject);
return;
case AgreePackage.REACHABLE_STATEMENT:
sequence_NamedSpecStatement(context, (ReachableStatement) semanticObject);
return;
case AgreePackage.REAL_CAST:
sequence_TermExpr(context, (RealCast) semanticObject);
return;
case AgreePackage.REAL_LIT_EXPR:
sequence_TermExpr(context, (RealLitExpr) semanticObject);
return;
case AgreePackage.RECORD_DEF:
sequence_RecordDef(context, (RecordDef) semanticObject);
return;
case AgreePackage.RECORD_LIT_EXPR:
sequence_TermExpr(context, (RecordLitExpr) semanticObject);
return;
case AgreePackage.RECORD_UPDATE_EXPR:
sequence_RecordUpdateExpr(context, (RecordUpdateExpr) semanticObject);
return;
case AgreePackage.SELECTION_EXPR:
sequence_SelectionExpr(context, (SelectionExpr) semanticObject);
return;
case AgreePackage.SPORADIC_STATEMENT:
sequence_RealTimeStatement(context, (SporadicStatement) semanticObject);
return;
case AgreePackage.SYNCH_STATEMENT:
sequence_SynchStatement(context, (SynchStatement) semanticObject);
return;
case AgreePackage.TAG_EXPR:
sequence_TagExpr(context, (TagExpr) semanticObject);
return;
case AgreePackage.THIS_REF:
sequence_ComponentRef(context, (ThisRef) semanticObject);
return;
case AgreePackage.TIME_EXPR:
sequence_TermExpr(context, (TimeExpr) semanticObject);
return;
case AgreePackage.TIME_FALL_EXPR:
sequence_TermExpr(context, (TimeFallExpr) semanticObject);
return;
case AgreePackage.TIME_OF_EXPR:
sequence_TermExpr(context, (TimeOfExpr) semanticObject);
return;
case AgreePackage.TIME_RISE_EXPR:
sequence_TermExpr(context, (TimeRiseExpr) semanticObject);
return;
case AgreePackage.UNARY_EXPR:
sequence_UnaryExpr(context, (UnaryExpr) semanticObject);
return;
case AgreePackage.UNINTERPRETED_FN_DEF:
sequence_UninterpretedFnDef(context, (UninterpretedFnDef) semanticObject);
return;
case AgreePackage.WHEN_HOLDS_STATEMENT:
sequence_WhenStatement(context, (WhenHoldsStatement) semanticObject);
return;
case AgreePackage.WHEN_OCCURS_STATMENT:
sequence_WhenStatement(context, (WhenOccursStatment) semanticObject);
return;
case AgreePackage.WHENEVER_BECOMES_TRUE_STATEMENT:
sequence_WheneverStatement(context, (WheneverBecomesTrueStatement) semanticObject);
return;
case AgreePackage.WHENEVER_HOLDS_STATEMENT:
sequence_WheneverStatement(context, (WheneverHoldsStatement) semanticObject);
return;
case AgreePackage.WHENEVER_IMPLIES_STATEMENT:
sequence_WheneverStatement(context, (WheneverImpliesStatement) semanticObject);
return;
case AgreePackage.WHENEVER_OCCURS_STATEMENT:
sequence_WheneverStatement(context, (WheneverOccursStatement) semanticObject);
return;
}
else if (epackage == SafetyPackage.eINSTANCE)
switch(semanticObject.eClass().getClassifierID()) {
case SafetyPackage.ACTIVATION_STATEMENT:
sequence_SpecStatement(context, (ActivationStatement) semanticObject);
return;
case SafetyPackage.ANALYSIS_STATEMENT:
sequence_SpecStatement(context, (AnalysisStatement) semanticObject);
return;
case SafetyPackage.CLOSED_SAFETY_INTERVAL:
sequence_SafetyInterval(context, (ClosedSafetyInterval) semanticObject);
return;
case SafetyPackage.DISABLE_STATEMENT:
sequence_FaultSubcomponent(context, (DisableStatement) semanticObject);
return;
case SafetyPackage.DURATION_STATEMENT:
if (rule == grammarAccess.getElementSafetyRule() || rule == grammarAccess.getFaultSubcomponentRule()) {
sequence_FaultSubcomponent(context, (DurationStatement) semanticObject);
return;
} else if (rule == grammarAccess.getHWFaultSubcomponentRule()) {
sequence_HWFaultSubcomponent(context, (DurationStatement) semanticObject);
return;
} else
break;
case SafetyPackage.ENABLER_CONDITION:
sequence_TriggerCondition(context, (EnablerCondition) semanticObject);
return;
case SafetyPackage.EQ_VALUE:
sequence_SafetyEqStatement(context, (EqValue) semanticObject);
return;
case SafetyPackage.FAULT_COUNT_BEHAVIOR:
sequence_AnalysisBehavior(context, (FaultCountBehavior) semanticObject);
return;
case SafetyPackage.FAULT_STATEMENT:
sequence_SpecStatement(context, (FaultStatement) semanticObject);
return;
case SafetyPackage.HW_FAULT_STATEMENT:
sequence_SpecStatement(context, (HWFaultStatement) semanticObject);
return;
case SafetyPackage.INPUT_STATEMENT:
sequence_FaultSubcomponent(context, (edu.umn.cs.crisys.safety.safety.InputStatement) semanticObject);
return;
case SafetyPackage.INTERVAL_EQ:
sequence_SafetyEqStatement(context, (IntervalEq) semanticObject);
return;
case SafetyPackage.OPEN_LEFT_SAFETY_INTERVAL:
sequence_SafetyInterval(context, (OpenLeftSafetyInterval) semanticObject);
return;
case SafetyPackage.OPEN_RIGHT_SAFETY_INTERVAL:
sequence_SafetyInterval(context, (OpenRightSafetyInterval) semanticObject);
return;
case SafetyPackage.OPEN_SAFETY_INTERVAL:
sequence_SafetyInterval(context, (OpenSafetyInterval) semanticObject);
return;
case SafetyPackage.OUTPUT_STATEMENT:
sequence_FaultSubcomponent(context, (OutputStatement) semanticObject);
return;
case SafetyPackage.PERMANENT_CONSTRAINT:
sequence_TemporalConstraint(context, (PermanentConstraint) semanticObject);
return;
case SafetyPackage.PROBABILITY_BEHAVIOR:
sequence_AnalysisBehavior(context, (ProbabilityBehavior) semanticObject);
return;
case SafetyPackage.PROBABILITY_STATEMENT:
if (rule == grammarAccess.getElementSafetyRule() || rule == grammarAccess.getFaultSubcomponentRule()) {
sequence_FaultSubcomponent(context, (ProbabilityStatement) semanticObject);
return;
} else if (rule == grammarAccess.getHWFaultSubcomponentRule()) {
sequence_HWFaultSubcomponent(context, (ProbabilityStatement) semanticObject);
return;
} else
break;
case SafetyPackage.PROPAGATE_STATEMENT:
sequence_SpecStatement(context, (PropagateStatement) semanticObject);
return;
case SafetyPackage.PROPAGATION_TYPE_STATEMENT:
if (rule == grammarAccess.getElementSafetyRule() || rule == grammarAccess.getFaultSubcomponentRule()) {
sequence_FaultSubcomponent(context, (PropagationTypeStatement) semanticObject);
return;
} else if (rule == grammarAccess.getHWFaultSubcomponentRule()) {
sequence_HWFaultSubcomponent(context, (PropagationTypeStatement) semanticObject);
return;
} else
break;
case SafetyPackage.RANGE_EQ:
sequence_SafetyEqStatement(context, (RangeEq) semanticObject);
return;
case SafetyPackage.SAFETY_CONTRACT:
sequence_SafetyContract(context, (SafetyContract) semanticObject);
return;
case SafetyPackage.SAFETY_CONTRACT_LIBRARY:
sequence_SafetyLibrary(context, (SafetyContractLibrary) semanticObject);
return;
case SafetyPackage.SAFETY_CONTRACT_SUBCLAUSE:
sequence_SafetySubclause(context, (SafetyContractSubclause) semanticObject);
return;
case SafetyPackage.SET_EQ:
sequence_SafetyEqStatement(context, (SetEq) semanticObject);
return;
case SafetyPackage.TRANSIENT_CONSTRAINT:
sequence_TemporalConstraint(context, (TransientConstraint) semanticObject);
return;
case SafetyPackage.TRIGGER_STATEMENT:
sequence_FaultSubcomponent(context, (TriggerStatement) semanticObject);
return;
case SafetyPackage.ASYMMETRIC:
sequence_PropagationTypeConstraint(context, (asymmetric) semanticObject);
return;
case SafetyPackage.SYMMETRIC:
sequence_PropagationTypeConstraint(context, (symmetric) semanticObject);
return;
}
if (errorAcceptor != null)
errorAcceptor.accept(diagnosticProvider.createInvalidContextOrTypeDiagnostic(semanticObject, context));
}
use of com.rockwellcollins.atc.agree.agree.InputStatement in project AGREE by loonwerks.
the class RenamingVisitor method getReferenceStr.
private String getReferenceStr(AgreeVar var) {
String prefix = getCategory(rootInstance, var);
if (prefix == null) {
return null;
}
if (var.id.endsWith(AgreeASTBuilder.clockIDSuffix)) {
return null;
}
String seperator = (prefix == "" ? "" : ".");
EObject reference = var.reference;
String suffix = "";
if (var.id.endsWith(AgreeASTBuilder.eventSuffix + AgreeInlineLatchedConnections.LATCHED_SUFFIX)) {
suffix = "._EVENT_._LATCHED_";
} else if (var.id.endsWith(AgreeASTBuilder.eventSuffix)) {
suffix = "._EVENT_";
} else if (var.id.endsWith(AgreeInlineLatchedConnections.LATCHED_SUFFIX)) {
suffix = "._LATCHED_";
}
if (reference instanceof GuaranteeStatement) {
String id = ((GuaranteeStatement) reference).getName();
if (id == null || id.isEmpty()) {
id = "";
} else {
id = "[" + id + "] ";
}
return id + ((GuaranteeStatement) reference).getStr();
} else if (reference instanceof AssumeStatement) {
String id = ((AssumeStatement) reference).getName();
if (id == null || id.isEmpty()) {
id = "";
} else {
id = "[" + id + "] ";
}
return prefix + " assume: " + id + ((AssumeStatement) reference).getStr();
} else if (reference instanceof LemmaStatement) {
String id = ((LemmaStatement) reference).getName();
if (id == null || id.isEmpty()) {
id = "";
} else {
id = "[" + id + "] ";
}
return prefix + " lemma: " + id + ((LemmaStatement) reference).getStr();
} else if (reference instanceof ReachableStatement) {
renaming.addInvertedProperty(var.id);
String id = ((ReachableStatement) reference).getName();
if (id == null || id.isEmpty()) {
id = "";
} else {
id = "[" + id + "] ";
}
return prefix + " reachable: " + id + ((ReachableStatement) reference).getStr();
} else if (reference instanceof AssertStatement) {
throw new AgreeException("We really didn't expect to see an assert statement here");
} else if (reference instanceof Arg) {
return prefix + seperator + ((Arg) reference).getName() + suffix;
} else if (reference instanceof EqStatement) {
return prefix + "eq " + String.join(", ", ((EqStatement) reference).getLhs().stream().map(lhs -> argToString(lhs)).collect(Collectors.toList()));
} else if (reference instanceof InputStatement) {
return prefix + "agree_input " + String.join(", ", ((InputStatement) reference).getLhs().stream().map(lhs -> argToString(lhs)).collect(Collectors.toList()));
} else if (reference instanceof DataPort) {
return prefix + seperator + ((DataPort) reference).getName() + suffix;
} else if (reference instanceof EventPort) {
return prefix + seperator + ((EventPort) reference).getName() + suffix;
} else if (reference instanceof EventDataPort) {
return prefix + seperator + ((EventDataPort) reference).getName() + suffix;
} else if (reference instanceof FeatureGroup) {
String featName = ((FeatureGroup) reference).getName();
String varName = var.toString();
featName = varName.substring(varName.indexOf(featName)).replace("__", ".");
return prefix + seperator + featName;
} else if (reference instanceof PropertyStatement) {
return prefix + seperator + ((PropertyStatement) reference).getName();
} else if (reference instanceof Property) {
return "AADL property " + ((Property) reference).getName();
} else if (reference instanceof GetPropertyExpr) {
return "Get_Property(" + ((GetPropertyExpr) reference).getContainingClassifier().getName() + ", " + ((Property) ((GetPropertyExpr) reference).getProp()).getName() + ")";
} else if (reference instanceof ComponentType || reference instanceof ComponentImplementation || reference instanceof SystemImplementation) {
if (var.id.equals(LustreAstBuilder.assumeHistSufix)) {
return "Subcomponent Assumptions";
}
return "Result";
} else if (reference instanceof AgreeStatement) {
return prefix + reference.toString();
}
throw new AgreeException("Unhandled reference type: '" + reference.getClass().getName() + "'");
}
use of com.rockwellcollins.atc.agree.agree.InputStatement in project AGREE by loonwerks.
the class AgreeTypeSystem method typeDefFromClassifier.
public static TypeDef typeDefFromClassifier(Classifier c) {
if (c instanceof DataType || (c instanceof DataImplementation && ((DataImplementation) c).getAllSubcomponents().isEmpty() && ((DataImplementation) c).getType() != null)) {
// Includes special case for data implementations implementing extensions of primitive types
Classifier classifierType = c instanceof DataImplementation ? ((DataImplementation) c).getType() : c;
List<PropertyAssociation> pas = classifierType.getAllPropertyAssociations();
for (Classifier classType : classifierType.getSelfPlusAllExtended()) {
if (classType != null && hasIntegerDataRepresentation(classType)) {
for (PropertyAssociation choice : pas) {
Property p = choice.getProperty();
PropertyExpression v = choice.getOwnedValues().get(0).getOwnedValue();
String key = p.getQualifiedName();
if (key.equals("Data_Model::Integer_Range")) {
if (v instanceof RangeValue) {
try {
RangeValue rangeValue = (RangeValue) v;
long min = intFromPropExp(rangeValue.getMinimum()).get();
long max = intFromPropExp(rangeValue.getMaximum()).get();
return new RangeIntTypeDef(min, max);
} catch (Exception e) {
return Prim.ErrorTypeDef;
}
}
}
}
return Prim.IntTypeDef;
} else if (classType != null && hasFloatDataRepresentation(classType)) {
for (PropertyAssociation choice : pas) {
Property p = choice.getProperty();
PropertyExpression v = choice.getOwnedValues().get(0).getOwnedValue();
String key = p.getQualifiedName();
if (key.equals("Data_Model::Real_Range")) {
if (v instanceof RangeValue) {
try {
RangeValue rangeValue = (RangeValue) v;
double min = realFromPropExp(rangeValue.getMinimum()).get();
double max = realFromPropExp(rangeValue.getMaximum()).get();
return new RangeRealTypeDef(min, max);
} catch (Exception e) {
return Prim.ErrorTypeDef;
}
}
}
}
return Prim.RealTypeDef;
} else if (classType != null && hasBooleanDataRepresentation(classType)) {
return Prim.BoolTypeDef;
}
}
boolean prop_isArray = false;
int prop_arraySize = 0;
TypeDef prop_arrayBaseType = null;
boolean prop_isEnum = false;
List<String> prop_enumValues = null;
for (PropertyAssociation choice : pas) {
Property p = choice.getProperty();
PropertyExpression v = choice.getOwnedValues().get(0).getOwnedValue();
String key = p.getQualifiedName();
key = key == null ? p.getName() : key;
if (key == null) {
return Prim.ErrorTypeDef;
}
if (key.equalsIgnoreCase("Data_Model::Data_Representation")) {
if (v instanceof NamedValue) {
AbstractNamedValue anv = ((NamedValue) v).getNamedValue();
if (anv instanceof EnumerationLiteral) {
EnumerationLiteral el = (EnumerationLiteral) anv;
prop_isArray = el.getName().equals("Array");
prop_isEnum = el.getName().equals("Enum");
}
}
} else if (key.equalsIgnoreCase("Data_Model::Enumerators")) {
if (v instanceof ListValue) {
EList<PropertyExpression> peList = ((ListValue) v).getOwnedListElements();
String prefix = c.getQualifiedName() + "_";
prop_enumValues = new ArrayList<>();
for (PropertyExpression pe : peList) {
if (pe instanceof StringLiteral) {
String enumString = prefix + ((StringLiteral) pe).getValue();
prop_enumValues.add(enumString);
}
}
}
} else if (key.equalsIgnoreCase("Data_Model::Base_Type")) {
if (v instanceof ListValue) {
ListValue l = (ListValue) v;
PropertyExpression pe = l.getOwnedListElements().get(0);
if (pe instanceof ClassifierValue) {
prop_arrayBaseType = typeDefFromClassifier(((ClassifierValue) pe).getClassifier());
}
}
} else if (key.equalsIgnoreCase("Data_Model::Dimension")) {
if (v instanceof ListValue) {
ListValue l = (ListValue) v;
PropertyExpression pe = l.getOwnedListElements().get(0);
prop_arraySize = Math.toIntExact(intFromPropExp(pe).orElse((long) -1).longValue());
}
}
}
if (prop_isArray && prop_arraySize > 0 && prop_arrayBaseType != null) {
return new ArrayTypeDef(prop_arrayBaseType, prop_arraySize, Optional.of(c));
} else if (prop_isEnum && prop_enumValues != null) {
String name = c.getQualifiedName();
return new EnumTypeDef(name, prop_enumValues, c);
}
} else if (c instanceof ComponentClassifier) {
Map<String, TypeDef> fields = new HashMap<>();
Classifier currClsfr = c;
while (currClsfr != null) {
ComponentType ct = null;
if (currClsfr instanceof ComponentImplementation) {
EList<Subcomponent> subcomps = ((ComponentImplementation) currClsfr).getAllSubcomponents();
for (Subcomponent sub : subcomps) {
String fieldName = sub.getName();
if (sub.getClassifier() != null) {
boolean prop_isArray = false;
int prop_arraySize = 0;
boolean prop_isEnum = false;
List<String> prop_enumValues = null;
for (PropertyAssociation pa : sub.getOwnedPropertyAssociations()) {
Property p = pa.getProperty();
String key = p.getQualifiedName();
key = key == null ? p.getName() : key;
PropertyExpression v = null;
if (!pa.getOwnedValues().isEmpty()) {
v = pa.getOwnedValues().get(0).getOwnedValue();
} else {
continue;
}
if (key.equals("Data_Model::Data_Representation")) {
if (v instanceof NamedValue) {
AbstractNamedValue anv = ((NamedValue) v).getNamedValue();
if (anv instanceof EnumerationLiteral) {
EnumerationLiteral el = (EnumerationLiteral) anv;
prop_isArray = el.getName().equals("Array");
prop_isEnum = el.getName().equals("Enum");
}
}
} else if (key.equals("Data_Model::Dimension")) {
if (v instanceof ListValue) {
ListValue l = (ListValue) v;
PropertyExpression pe = l.getOwnedListElements().get(0);
prop_arraySize = Math.toIntExact(intFromPropExp(pe).orElse((long) -1).longValue());
}
} else if (key.equals("Data_Model::Enumerators")) {
if (v instanceof ListValue) {
EList<PropertyExpression> peList = ((ListValue) v).getOwnedListElements();
String prefix = c.getQualifiedName() + "_";
prop_enumValues = new ArrayList<>();
for (PropertyExpression pe : peList) {
if (pe instanceof StringLiteral) {
String enumString = prefix + ((StringLiteral) pe).getValue();
prop_enumValues.add(enumString);
}
}
}
}
}
if (prop_isArray && prop_arraySize > 0) {
TypeDef typeDef = new ArrayTypeDef(typeDefFromClassifier(sub.getClassifier()), prop_arraySize, Optional.empty());
fields.putIfAbsent(fieldName, typeDef);
} else if (prop_isEnum && prop_enumValues != null) {
String name = c.getQualifiedName();
TypeDef typeDef = new EnumTypeDef(name, prop_enumValues, c);
fields.putIfAbsent(fieldName, typeDef);
} else if (sub.getArrayDimensions().size() == 0) {
TypeDef typeDef = typeDefFromClassifier(sub.getClassifier());
fields.putIfAbsent(fieldName, typeDef);
} else if (sub.getArrayDimensions().size() == 1) {
ArrayDimension ad = sub.getArrayDimensions().get(0);
int size = Math.toIntExact(getArraySize(ad));
TypeDef stem = typeDefFromClassifier(sub.getClassifier());
TypeDef typeDef = new ArrayTypeDef(stem, size, Optional.empty());
fields.putIfAbsent(fieldName, typeDef);
}
}
}
ct = ((ComponentImplementation) currClsfr).getType();
} else if (c instanceof ComponentType) {
ct = (ComponentType) currClsfr;
}
if (ct != null) {
EList<Feature> features = ct.getAllFeatures();
for (Feature feature : features) {
String fieldName = feature.getName();
if (feature.getClassifier() != null) {
if (feature.getArrayDimensions().size() == 0) {
TypeDef typeDef = typeDefFromClassifier(feature.getClassifier());
fields.putIfAbsent(fieldName, typeDef);
} else if (feature.getArrayDimensions().size() == 1) {
ArrayDimension ad = feature.getArrayDimensions().get(0);
int size = Math.toIntExact(getArraySize(ad));
TypeDef stem = typeDefFromClassifier(feature.getClassifier());
TypeDef typeDef = new ArrayTypeDef(stem, size, Optional.empty());
fields.putIfAbsent(fieldName, typeDef);
}
}
}
for (AnnexSubclause annex : AnnexUtil.getAllAnnexSubclauses(currClsfr, AgreePackage.eINSTANCE.getAgreeContractSubclause())) {
AgreeContract contract = (AgreeContract) ((AgreeContractSubclause) annex).getContract();
for (SpecStatement spec : contract.getSpecs()) {
List<Arg> args = new ArrayList<>();
if (spec instanceof EqStatement) {
args = ((EqStatement) spec).getLhs();
} else if (spec instanceof InputStatement) {
args = ((InputStatement) spec).getLhs();
}
for (Arg arg : args) {
String fieldName = arg.getName();
TypeDef typeDef = typeDefFromNE(arg);
fields.putIfAbsent(fieldName, typeDef);
}
if (spec instanceof ConstStatement) {
String fieldName = ((ConstStatement) spec).getName();
TypeDef typeDef = AgreeTypeSystem.typeDefFromType(((ConstStatement) spec).getType());
fields.putIfAbsent(fieldName, typeDef);
}
}
}
}
currClsfr = currClsfr.getExtended();
}
String name = c.getQualifiedName();
return new RecordTypeDef(name, fields, c);
}
return Prim.ErrorTypeDef;
}
use of com.rockwellcollins.atc.agree.agree.InputStatement in project AGREE by loonwerks.
the class AgreeValidator method checkAssign.
@Check(CheckType.FAST)
public void checkAssign(AssignStatement assign) {
if (!(assign.getId() instanceof NamedElement)) {
error(assign.getId(), "The Id on the left hand side of an assignment statement " + "must not contain a \".\"");
return;
}
NamedElement namedEl = assign.getId();
Expr expr = assign.getExpr();
if (namedEl == null || expr == null) {
return;
}
ComponentImplementation compImpl = EcoreUtil2.getContainerOfType(assign, ComponentImplementation.class);
if (compImpl == null) {
error(assign, "Assignment statements are allowed only in component implementations");
return;
}
if (namedEl.eContainer() instanceof InputStatement) {
error(assign, "Assignment to agree_input variables is illegal.");
return;
}
if (compImpl != null) {
List<EObject> assignableElements = new ArrayList<>();
List<AgreeContract> implContracts = EcoreUtil2.getAllContentsOfType(compImpl, AgreeContract.class);
for (AgreeContract ac : implContracts) {
assignableElements.addAll(EcoreUtil2.getAllContentsOfType(ac, EqStatement.class).stream().map(eq -> eq.getLhs()).flatMap(List::stream).collect(Collectors.toList()));
}
ComponentType compType = compImpl.getType();
if (compType != null) {
List<AgreeContract> typeContracts = EcoreUtil2.getAllContentsOfType(compType, AgreeContract.class);
for (AgreeContract ac : typeContracts) {
assignableElements.addAll(EcoreUtil2.getAllContentsOfType(ac, EqStatement.class).stream().map(eq -> eq.getLhs()).flatMap(List::stream).collect(Collectors.toList()));
}
}
assignableElements.addAll(compImpl.getAllFeatures().stream().map(cf -> flattenFeatureGroups(Collections.singletonList(cf))).flatMap(List::stream).filter(feat -> feat instanceof EventDataPort || feat instanceof DataPort).filter(feat -> DirectionType.OUT.equals(((Port) feat).getDirection())).collect(Collectors.toList()));
if (!assignableElements.contains(namedEl)) {
error("LHS of assignment must be an AGREE 'eq' variable or an output port of this component", assign, AgreePackage.Literals.ASSIGN_STATEMENT__ID);
}
}
TypeDef lhsType = (AgreeTypeSystem.inferFromNamedElement(namedEl));
TypeDef rhsType = (AgreeTypeSystem.infer(expr));
if (!AgreeTypeSystem.typesEqual(lhsType, rhsType)) {
error(assign, "The left hand side of the assignment statement is of type '" + nameOfTypeDef(lhsType) + "' but the right hand side is of type '" + nameOfTypeDef(rhsType) + "'");
}
for (EObject container : EcoreUtil2.getAllContainers(assign)) {
if (container instanceof Classifier) {
for (AnnexSubclause annexSubclause : AnnexUtil.getAllAnnexSubclauses((Classifier) container, AgreePackage.eINSTANCE.getAgreeContractSubclause())) {
for (AgreeContract contract : EcoreUtil2.getAllContentsOfType(annexSubclause, AgreeContract.class)) {
if (contract != null) {
for (SpecStatement spec : contract.getSpecs()) {
if (spec instanceof AssignStatement && spec != assign) {
NamedElement otherEl = ((AssignStatement) spec).getId();
if (otherEl.equals(namedEl)) {
error(spec, "Mulitiple assignments to variable '" + namedEl.getName() + "'");
error(assign, "Mulitiple assignments to variable '" + namedEl.getName() + "'");
}
} else if (spec instanceof EqStatement) {
EqStatement eqStmt = (EqStatement) spec;
for (NamedElement otherEl : eqStmt.getLhs()) {
if (eqStmt.getExpr() != null && otherEl.equals(namedEl)) {
error(spec, "Mulitiple assignments to variable '" + namedEl.getName() + "'");
error(assign, "Mulitiple assignments to variable '" + namedEl.getName() + "'");
}
}
}
}
}
}
}
}
}
}
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