Example 6 with Port
use of org.osate.aadl2.Port in project VERDICT by ge-high-assurance.
the class Aadl2Vdm method translateVirtualProcessorTypeObjects.
// End of translateThreadGroupTypeObjects
/**
* Analyzing each virtualProcessorType:
* 1. Determine if it is a lower-level system or higher-level system
* 2. If lower-level, add to componentType list attribute of Model
* 2.1 Populate the port, contract, cyberRel, safetyRel, event, id, compCategory
* fields of componentType of the Model object
* 3. If higher-level, assign to Model
* 3.1 Populate the safetyReq
* cyberReq, mission fields of Model object
* @param virtualProcessorTypes
* @param m1
* @return
*/
public Model translateVirtualProcessorTypeObjects(List<VirtualProcessorType> virtualProcessorTypes, Model m1, HashSet<String> dataTypeDecl) {
for (VirtualProcessorType vprocType : virtualProcessorTypes) {
// variables for unpacking vprocType
List<Event> events = new ArrayList<>();
List<CyberMission> missionReqs = new ArrayList<>();
List<CyberRel> cyberRels = new ArrayList<>();
List<SafetyRel> safetyRels = new ArrayList<>();
List<CyberReq> cyberReqs = new ArrayList<>();
List<SafetyReq> safetyReqs = new ArrayList<>();
// a flag to check if a higher -level component has already been found
boolean higher_flag = false;
// unpacking vprocType
for (AnnexSubclause annex : vprocType.getOwnedAnnexSubclauses()) {
if (annex.getName().equalsIgnoreCase("verdict")) {
Verdict verdictAnnex = VerdictUtil.getVerdict(annex);
for (Statement statement : verdictAnnex.getElements()) {
if (statement instanceof Event) {
events.add((Event) statement);
} else if (statement instanceof CyberMission) {
missionReqs.add((CyberMission) statement);
} else if (statement instanceof CyberReq) {
cyberReqs.add((CyberReq) statement);
} else if (statement instanceof CyberRel) {
cyberRels.add((CyberRel) statement);
} else if (statement instanceof SafetyReq) {
safetyReqs.add((SafetyReq) statement);
} else if (statement instanceof SafetyRel) {
safetyRels.add((SafetyRel) statement);
}
}
}
}
/**
* For every VirtualProcessorType,
* populate the id, name, compCateg, port, event,
* cyberRel, and safetyRel fields of componentType
* and add it to the list of componentType
* of the Model object
*/
if (true) {
// No Filter-- do for all System Types
// to pack the memType as a VDM component
verdict.vdm.vdm_model.ComponentType packComponent = new verdict.vdm.vdm_model.ComponentType();
// Note: Not populating "contract" for now
// ISSUE: There is no getId() function for memoryType
packComponent.setId(vprocType.getQualifiedName());
// populating "name"
packComponent.setName(vprocType.getName());
// populating "compCateg"
packComponent.setCompCateg(vprocType.getCategory().getName());
// get all bus accesses and store them as ports
List<BusAccess> busAccesses = vprocType.getOwnedBusAccesses();
// checking each busAccess's details and adding it to the port list
for (BusAccess busAccess : busAccesses) {
String portName = busAccess.getName();
String modeString = "in";
if (busAccess.getKind() == AccessType.PROVIDES) {
modeString = "providesBusAccess";
} else if (busAccess.getKind() == AccessType.REQUIRES) {
modeString = "requiresBusAccess";
}
verdict.vdm.vdm_model.Port newPort = createVdmPort(portName, modeString, busAccess.getQualifiedName());
// Note: Not populating "type" for now
// ISSUE: "probe", "event", and "id" not found in DataPort class or superclass
// add to port list of component
packComponent.getPort().add(newPort);
}
// End of checking each busAccess
// ISSUE: no getOwnedDataAccesses for virtualProcessorType
// get all ports
List<DataPort> dataPorts = vprocType.getOwnedDataPorts();
// checking each port's mode and name and adding it to the port list
for (DataPort dataPort : dataPorts) {
verdict.vdm.vdm_model.Port newPort = createVdmPort(dataPort, m1, dataTypeDecl);
// Note: Not populating "type" for now
// ISSUE: "probe", "event", and "id" not found in DataPort class or superclass
// add to port list of component
packComponent.getPort().add(newPort);
}
// End of checking each port
// get all event data ports
List<EventDataPort> eventDataPorts = vprocType.getOwnedEventDataPorts();
for (EventDataPort eventDataPort : eventDataPorts) {
verdict.vdm.vdm_model.Port newPort = createVdmPort(eventDataPort, m1, dataTypeDecl);
// add to port list of component
packComponent.getPort().add(newPort);
}
// get all event ports
List<EventPort> eventPorts = vprocType.getOwnedEventPorts();
for (EventPort eventPort : eventPorts) {
verdict.vdm.vdm_model.Port newPort = createVdmEventPort(eventPort);
// add to port list of component
packComponent.getPort().add(newPort);
}
// packing all events and adding to component
for (Event anEvent : events) {
// To pack the event as a VDM event
verdict.vdm.vdm_model.Event packEvent = createVdmEvent(anEvent);
// adding to the list of component's events
packComponent.getEvent().add(packEvent);
}
// packing all cyberRels and adding to component
for (CyberRel aCyberRel : cyberRels) {
// To pack the cyberRel as a VDM event
verdict.vdm.vdm_model.CyberRel packCyberRel = createVdmCyberRel(aCyberRel);
// adding to the list of component's Cyber relations
packComponent.getCyberRel().add(packCyberRel);
}
// packing all safetyRels and adding to component
for (SafetyRel aSafetyRel : safetyRels) {
// To pack the safetyRel as a VDM event
verdict.vdm.vdm_model.SafetyRel packSafetyRel = createVdmSafetyRel(aSafetyRel);
// adding to the list of component's Safety relations
packComponent.getSafetyRel().add(packSafetyRel);
}
// End of packing all safetyRels
// adding to the list of componenmemTypes of the Model object
m1.getComponentType().add(packComponent);
}
/**
* If a high-level system
* populate the name, safetyReq, cyberReq, and mission
* for the model object
*/
if (!cyberReqs.isEmpty() || !safetyReqs.isEmpty() || !missionReqs.isEmpty()) {
// checking if a high-level system has already been found
if (higher_flag == false) {
higher_flag = true;
} else {
System.out.println("Warning: Multiple high-level systems detected!");
}
// populating name
m1.setName(vprocType.getName());
// packing all safetyReqs and adding to model
for (SafetyReq aSafetyReq : safetyReqs) {
// To pack the safettReq as a VDM event
verdict.vdm.vdm_model.SafetyReq packSafetyReq = createVdmSafetyReq(aSafetyReq, vprocType.getFullName());
// adding to the list of model's Safety requirements
m1.getSafetyReq().add(packSafetyReq);
}
// packing all cyberReqs and adding to model
for (CyberReq aCyberReq : cyberReqs) {
// To pack the safettReq as a VDM event
verdict.vdm.vdm_model.CyberReq packCyberReq = createVdmCyberReq(aCyberReq, vprocType.getFullName());
// adding to the list of model's Cyber requirements
m1.getCyberReq().add(packCyberReq);
}
// packing all missionReqs and adding to model
for (CyberMission aMission : missionReqs) {
// To pack the safettReq as a VDM event
verdict.vdm.vdm_model.Mission packMission = createVdmMission(aMission);
// adding to the list of model's Mission
m1.getMission().add(packMission);
}
// End of packing all missionReqs
}
// End of if a higher-level system
}
// returning the populated Model
return m1;
}
Also used :
ArrayList(java.util.ArrayList)
Port(verdict.vdm.vdm_model.Port)
DataPort(org.osate.aadl2.DataPort)
EventDataPort(org.osate.aadl2.EventDataPort)
EventPort(org.osate.aadl2.EventPort)
VirtualProcessorType(org.osate.aadl2.VirtualProcessorType)
EventDataPort(org.osate.aadl2.EventDataPort)
Verdict(com.ge.research.osate.verdict.dsl.verdict.Verdict)
CyberRel(com.ge.research.osate.verdict.dsl.verdict.CyberRel)
CyberMission(com.ge.research.osate.verdict.dsl.verdict.CyberMission)
BusAccess(org.osate.aadl2.BusAccess)
CyberReq(com.ge.research.osate.verdict.dsl.verdict.CyberReq)
Statement(com.ge.research.osate.verdict.dsl.verdict.Statement)
SafetyRel(com.ge.research.osate.verdict.dsl.verdict.SafetyRel)
Event(com.ge.research.osate.verdict.dsl.verdict.Event)
SafetyReq(com.ge.research.osate.verdict.dsl.verdict.SafetyReq)
AnnexSubclause(org.osate.aadl2.AnnexSubclause)
Example 7 with Port
use of org.osate.aadl2.Port in project VERDICT by ge-high-assurance.
the class Aadl2Vdm method createVdmEventPort.
private Port createVdmEventPort(EventPort eventPort) {
String modeString = "in";
if (eventPort.isIn()) {
modeString = "in";
} else if (eventPort.isOut()) {
modeString = "out";
}
verdict.vdm.vdm_model.Port newPort = new verdict.vdm.vdm_model.Port();
newPort.setProbe(false);
newPort.setId(eventPort.getQualifiedName());
newPort.setName(eventPort.getName());
newPort.setMode(convertToVdmPortMode(modeString));
newPort.setEvent(true);
return newPort;
}
Also used :
SLPort(com.ge.research.osate.verdict.dsl.verdict.SLPort)
LPort(com.ge.research.osate.verdict.dsl.verdict.LPort)
EventPort(org.osate.aadl2.EventPort)
DataPort(org.osate.aadl2.DataPort)
Port(verdict.vdm.vdm_model.Port)
EventDataPort(org.osate.aadl2.EventDataPort)
Port(verdict.vdm.vdm_model.Port)
Example 8 with Port
use of org.osate.aadl2.Port in project VERDICT by ge-high-assurance.
the class Aadl2Vdm method populateVDMFromAadlObjects.
/**
* Assume the input is correct without any syntax errors
* Populate mission req, cyber and safety reqs and rels from AADL objects
*
* @param objects a List of AADL objects,
* @param objectsFromFilesInProject
* @param model an empty VDM model to populate
* @return a populated VDM model
* Vidhya: modified function to add and process only objects in the aadl files in the project excluding those in imported aadl files
*/
public Model populateVDMFromAadlObjects(List<EObject> objects, List<EObject> objectsFromFilesInProject, Model model) {
HashSet<String> dataTypeDecl = new HashSet<String>();
// variables for extracting data from the AADL object
List<SystemType> systemTypes = new ArrayList<>();
List<BusType> busTypes = new ArrayList<>();
List<SubprogramType> subprogramTypes = new ArrayList<>();
List<ThreadType> threadTypes = new ArrayList<>();
List<MemoryType> memoryTypes = new ArrayList<>();
List<DeviceType> deviceTypes = new ArrayList<>();
List<AbstractType> abstractTypes = new ArrayList<>();
List<ProcessType> processTypes = new ArrayList<>();
List<ThreadGroupType> threadGroupTypes = new ArrayList<>();
List<VirtualProcessorType> virtualProcessorTypes = new ArrayList<>();
List<ProcessorType> processorTypes = new ArrayList<>();
List<ComponentImplementation> compImpls = new ArrayList<>();
Map<Property, String> connPropertyToName = new LinkedHashMap<>();
Map<Property, String> componentPropertyToName = new LinkedHashMap<>();
// process only those properties defined in files in the project and not in the imported files
HashSet<String> objectNamesFromFilesInProject = getObjectNames(objectsFromFilesInProject);
// extracting data from the AADLObject
for (EObject obj : objects) {
if (obj instanceof SystemType) {
if (objectNamesFromFilesInProject.contains(((SystemType) obj).getName())) {
systemTypes.add((SystemType) obj);
}
} else if (obj instanceof BusType) {
if (objectNamesFromFilesInProject.contains(((BusType) obj).getName())) {
busTypes.add((BusType) obj);
}
} else if (obj instanceof SubprogramType) {
if (objectNamesFromFilesInProject.contains(((SubprogramType) obj).getName())) {
subprogramTypes.add((SubprogramType) obj);
}
} else if (obj instanceof ThreadType) {
if (objectNamesFromFilesInProject.contains(((ThreadType) obj).getName())) {
threadTypes.add((ThreadType) obj);
}
} else if (obj instanceof MemoryType) {
if (objectNamesFromFilesInProject.contains(((MemoryType) obj).getName())) {
memoryTypes.add((MemoryType) obj);
}
} else if (obj instanceof DeviceType) {
if (objectNamesFromFilesInProject.contains(((DeviceType) obj).getName())) {
deviceTypes.add((DeviceType) obj);
}
} else if (obj instanceof AbstractType) {
if (objectNamesFromFilesInProject.contains(((AbstractType) obj).getName())) {
abstractTypes.add((AbstractType) obj);
}
} else if (obj instanceof ProcessType) {
if (objectNamesFromFilesInProject.contains(((ProcessType) obj).getName())) {
processTypes.add((ProcessType) obj);
}
} else if (obj instanceof ThreadGroupType) {
if (objectNamesFromFilesInProject.contains(((ThreadGroupType) obj).getName())) {
threadGroupTypes.add((ThreadGroupType) obj);
}
} else if (obj instanceof VirtualProcessorType) {
if (objectNamesFromFilesInProject.contains(((VirtualProcessorType) obj).getName())) {
virtualProcessorTypes.add((VirtualProcessorType) obj);
}
} else if (obj instanceof ProcessorType) {
if (objectNamesFromFilesInProject.contains(((ProcessorType) obj).getName())) {
processorTypes.add((ProcessorType) obj);
}
} else if (obj instanceof SystemImplementation) {
if (objectNamesFromFilesInProject.contains(((SystemImplementation) obj).getName())) {
compImpls.add((SystemImplementation) obj);
}
} else if (obj instanceof SubprogramImplementation) {
if (objectNamesFromFilesInProject.contains(((SubprogramImplementation) obj).getName())) {
compImpls.add((SubprogramImplementation) obj);
}
} else if (obj instanceof ThreadImplementation) {
if (objectNamesFromFilesInProject.contains(((ThreadImplementation) obj).getName())) {
compImpls.add((ThreadImplementation) obj);
}
} else if (obj instanceof MemoryImplementation) {
if (objectNamesFromFilesInProject.contains(((MemoryImplementation) obj).getName())) {
compImpls.add((MemoryImplementation) obj);
}
} else if (obj instanceof BusImplementation) {
if (objectNamesFromFilesInProject.contains(((BusImplementation) obj).getName())) {
compImpls.add((BusImplementation) obj);
}
} else if (obj instanceof AbstractImplementation) {
if (objectNamesFromFilesInProject.contains(((AbstractImplementation) obj).getName())) {
compImpls.add((AbstractImplementation) obj);
}
} else if (obj instanceof DeviceImplementation) {
if (objectNamesFromFilesInProject.contains(((DeviceImplementation) obj).getName())) {
compImpls.add((DeviceImplementation) obj);
}
} else if (obj instanceof ProcessImplementation) {
if (objectNamesFromFilesInProject.contains(((ProcessImplementation) obj).getName())) {
compImpls.add((ProcessImplementation) obj);
}
} else if (obj instanceof ThreadGroupImplementation) {
if (objectNamesFromFilesInProject.contains(((ThreadGroupImplementation) obj).getName())) {
compImpls.add((ThreadGroupImplementation) obj);
}
} else if (obj instanceof VirtualProcessorImplementation) {
if (objectNamesFromFilesInProject.contains(((VirtualProcessorImplementation) obj).getName())) {
compImpls.add((VirtualProcessorImplementation) obj);
}
} else if (obj instanceof ProcessorImplementation) {
if (objectNamesFromFilesInProject.contains(((ProcessorImplementation) obj).getName())) {
compImpls.add((ProcessorImplementation) obj);
}
} else if (obj instanceof PropertySetImpl) {
Set<Property> compPropSet = new HashSet<Property>();
Set<Property> connPropSet = new HashSet<Property>();
for (Property prop : ((PropertySetImpl) obj).getOwnedProperties()) {
// Save property owner to be used later
for (PropertyOwner po : prop.getAppliesTos()) {
String propCat = ((MetaclassReferenceImpl) po).getMetaclass().getName().toLowerCase();
String propName = prop.getName();
switch(propCat) {
case "system":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "thread":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "processor":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "memory":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "connection":
{
if (objectNamesFromFilesInProject.contains(propName)) {
connPropertyToName.put(prop, propName);
}
connPropSet.add(prop);
break;
}
case "process":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "abstract":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "device":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "threadgroup":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "virtualprocessor":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "bus":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
case "port":
{
if (objectNamesFromFilesInProject.contains(propName)) {
componentPropertyToName.put(prop, propName);
}
compPropSet.add(prop);
break;
}
default:
{
if (objectNamesFromFilesInProject.contains(((PropertySetImpl) obj).getName())) {
System.out.println("Warning: unsupported property: " + propName + ", applies to: " + propCat);
}
break;
}
}
}
}
}
}
/* Translating all Component Types */
if (systemTypes.size() > 0) {
model = translateSystemTypeObjects(systemTypes, model, dataTypeDecl);
}
if (busTypes.size() > 0) {
model = translateBusTypeObjects(busTypes, model, dataTypeDecl);
}
if (subprogramTypes.size() > 0) {
model = translateSubprogramTypeObjects(subprogramTypes, model, dataTypeDecl);
}
if (threadTypes.size() > 0) {
model = translateThreadTypeObjects(threadTypes, model, dataTypeDecl);
}
if (memoryTypes.size() > 0) {
model = translateMemoryTypeObjects(memoryTypes, model, dataTypeDecl);
}
if (deviceTypes.size() > 0) {
model = translateDeviceTypeObjects(deviceTypes, model, dataTypeDecl);
}
if (abstractTypes.size() > 0) {
model = translateAbstractTypeObjects(abstractTypes, model, dataTypeDecl);
}
if (processTypes.size() > 0) {
model = translateProcessTypeObjects(processTypes, model, dataTypeDecl);
}
if (processTypes.size() > 0) {
model = translateProcessorTypeObjects(processorTypes, model, dataTypeDecl);
}
if (threadGroupTypes.size() > 0) {
model = translateThreadGroupTypeObjects(threadGroupTypes, model, dataTypeDecl);
}
if (virtualProcessorTypes.size() > 0) {
model = translateVirtualProcessorTypeObjects(virtualProcessorTypes, model, dataTypeDecl);
}
/* Translating all System Implementations */
// model = translateSystemImplObjects(systemImpls, componentPropertyToName, connPropertyToName,model);
// model = translateComponentImplObjects(compImpls, componentPropertyToName, connPropertyToName,model);
/**
* Translating all component implementations
*/
model = translateComponentImplObjects(compImpls, componentPropertyToName, connPropertyToName, model, dataTypeDecl);
// return the final model
return model;
}
Also used :
ComponentImplementation(org.osate.aadl2.ComponentImplementation)
ProcessImplementation(org.osate.aadl2.ProcessImplementation)
MemoryImplementation(org.osate.aadl2.MemoryImplementation)
PropertyOwner(org.osate.aadl2.PropertyOwner)
BusType(org.osate.aadl2.BusType)
VirtualProcessorType(org.osate.aadl2.VirtualProcessorType)
ProcessorType(org.osate.aadl2.ProcessorType)
ArrayList(java.util.ArrayList)
SystemType(org.osate.aadl2.SystemType)
VirtualProcessorImplementation(org.osate.aadl2.VirtualProcessorImplementation)
LinkedHashMap(java.util.LinkedHashMap)
BusImplementation(org.osate.aadl2.BusImplementation)
MetaclassReferenceImpl(org.osate.aadl2.impl.MetaclassReferenceImpl)
ProcessType(org.osate.aadl2.ProcessType)
ProcessorImplementation(org.osate.aadl2.ProcessorImplementation)
VirtualProcessorImplementation(org.osate.aadl2.VirtualProcessorImplementation)
EObject(org.eclipse.emf.ecore.EObject)
ThreadImplementation(org.osate.aadl2.ThreadImplementation)
VirtualProcessorType(org.osate.aadl2.VirtualProcessorType)
Property(org.osate.aadl2.Property)
HashSet(java.util.HashSet)
MemoryType(org.osate.aadl2.MemoryType)
ThreadGroupType(org.osate.aadl2.ThreadGroupType)
ThreadGroupImplementation(org.osate.aadl2.ThreadGroupImplementation)
SubprogramImplementation(org.osate.aadl2.SubprogramImplementation)
PropertySetImpl(org.osate.aadl2.impl.PropertySetImpl)
DeviceType(org.osate.aadl2.DeviceType)
ThreadType(org.osate.aadl2.ThreadType)
SystemImplementation(org.osate.aadl2.SystemImplementation)
AbstractType(org.osate.aadl2.AbstractType)
SubprogramType(org.osate.aadl2.SubprogramType)
AbstractImplementation(org.osate.aadl2.AbstractImplementation)
DeviceImplementation(org.osate.aadl2.DeviceImplementation)
Example 9 with Port
use of org.osate.aadl2.Port in project VERDICT by ge-high-assurance.
the class Aadl2Vdm method createVdmConnectionPort.
/**
* Creates a new Vdm Port object and returns
* Populates "name", "mode" and "type"
* @param portName
* @param modeString
* @param dSubCompType
* @return vdm port
*/
verdict.vdm.vdm_model.Port createVdmConnectionPort(String portName, String modeString, String qualifiedname, DataSubcomponentType dSubCompType, Model model, HashSet<String> dataTypeDecl) {
// fetching data type information
verdict.vdm.vdm_data.DataType dtype = new verdict.vdm.vdm_data.DataType();
if (dSubCompType instanceof DataTypeImpl) {
org.osate.aadl2.DataType aadlDType = (org.osate.aadl2.DataType) dSubCompType;
dtype = resolveAADLDataType(aadlDType, model, dataTypeDecl);
} else if (dSubCompType instanceof DataImplementationImpl) {
org.osate.aadl2.DataImplementation aadlDImpl = (org.osate.aadl2.DataImplementation) dSubCompType;
dtype = resolveAADLDataImplementationType(aadlDImpl, model, dataTypeDecl);
} else {
System.out.println("Unresolved/unexpected Named Element.");
}
verdict.vdm.vdm_model.Port newPort = new verdict.vdm.vdm_model.Port();
newPort.setProbe(false);
newPort.setId(qualifiedname);
newPort.setName(portName);
newPort.setMode(convertToVdmPortMode(modeString));
newPort.setType(dtype);
return newPort;
}
Also used :
DataImplementationImpl(org.osate.aadl2.impl.DataImplementationImpl)
SLPort(com.ge.research.osate.verdict.dsl.verdict.SLPort)
LPort(com.ge.research.osate.verdict.dsl.verdict.LPort)
EventPort(org.osate.aadl2.EventPort)
DataPort(org.osate.aadl2.DataPort)
Port(verdict.vdm.vdm_model.Port)
EventDataPort(org.osate.aadl2.EventDataPort)
DataImplementation(org.osate.aadl2.DataImplementation)
Port(verdict.vdm.vdm_model.Port)
DataTypeImpl(org.osate.aadl2.impl.DataTypeImpl)
DataType(org.osate.aadl2.DataType)
DataType(org.osate.aadl2.DataType)
Example 10 with Port
use of org.osate.aadl2.Port in project VERDICT by ge-high-assurance.
the class Aadl2Vdm method getConnectionKind.
/**
* Returns the VDM ConnectionKind
* @param kind
* @return
*/
verdict.vdm.vdm_model.ConnectionKind getConnectionKind(Connection aConn) {
String kindString = "port";
if (aConn.getClass().getSimpleName().equalsIgnoreCase("AccessConnectionImpl")) {
AccessConnectionImpl accessConnImpl = (AccessConnectionImpl) aConn;
if (accessConnImpl.getAccessCategory().getName().equalsIgnoreCase("data")) {
kindString = "dataAccess";
} else if (accessConnImpl.getAccessCategory().getName().equalsIgnoreCase("bus")) {
kindString = "busAccess";
}
} else if (aConn.getClass().getSimpleName().equalsIgnoreCase("PortConnectionImpl")) {
kindString = "port";
} else if (aConn.getClass().getSimpleName().equalsIgnoreCase("ParameterConnectionImpl")) {
kindString = "parameter";
}
verdict.vdm.vdm_model.ConnectionKind returnKind = verdict.vdm.vdm_model.ConnectionKind.fromValue(kindString);
return returnKind;
}
Also used :
AccessConnectionImpl(org.osate.aadl2.impl.AccessConnectionImpl)
Aggregations
ArrayList (java.util.ArrayList)29
EventDataPort (org.osate.aadl2.EventDataPort)28
DataPort (org.osate.aadl2.DataPort)26
EventPort (org.osate.aadl2.EventPort)25
Port (verdict.vdm.vdm_model.Port)20
CyberRel (com.ge.research.osate.verdict.dsl.verdict.CyberRel)12
CyberReq (com.ge.research.osate.verdict.dsl.verdict.CyberReq)12
Event (com.ge.research.osate.verdict.dsl.verdict.Event)12
SafetyRel (com.ge.research.osate.verdict.dsl.verdict.SafetyRel)12
SafetyReq (com.ge.research.osate.verdict.dsl.verdict.SafetyReq)12
AnnexSubclause (org.osate.aadl2.AnnexSubclause)12
Feature (org.osate.aadl2.Feature)12
NamedElement (org.osate.aadl2.NamedElement)12
Subcomponent (org.osate.aadl2.Subcomponent)12
ComponentInstance (org.osate.aadl2.instance.ComponentInstance)12
CyberMission (com.ge.research.osate.verdict.dsl.verdict.CyberMission)11
Statement (com.ge.research.osate.verdict.dsl.verdict.Statement)11
Verdict (com.ge.research.osate.verdict.dsl.verdict.Verdict)11
DeployedModelRef (com.google.cloud.aiplatform.v1.DeployedModelRef)10
EnvVar (com.google.cloud.aiplatform.v1.EnvVar)10
