Search in sources :

Example 1 with ProcessorType

use of org.osate.aadl2.ProcessorType in project VERDICT by ge-high-assurance.

the class Aadl2CsvTranslator method populateDataFromAadlObjects.

/**
 * Assume the input model is correct without any syntax errors
 * Populate mission req, cyber and safety reqs and rels from AADL objects
 */
public void populateDataFromAadlObjects(List<EObject> objects) {
    List<ComponentType> componentTypes = new ArrayList<>();
    for (EObject obj : objects) {
        if (obj instanceof SystemType) {
            componentTypes.add((SystemType) obj);
        } else if (obj instanceof BusType) {
            componentTypes.add((BusType) obj);
        } else if (obj instanceof SubprogramType) {
            componentTypes.add((SubprogramType) obj);
        } else if (obj instanceof ThreadType) {
            componentTypes.add((ThreadType) obj);
        } else if (obj instanceof MemoryType) {
            componentTypes.add((MemoryType) obj);
        } else if (obj instanceof DeviceType) {
            componentTypes.add((DeviceType) obj);
        } else if (obj instanceof AbstractType) {
            componentTypes.add((AbstractType) obj);
        } else if (obj instanceof ProcessType) {
            componentTypes.add((ProcessType) obj);
        } else if (obj instanceof ThreadGroupType) {
            componentTypes.add((ThreadGroupType) obj);
        } else if (obj instanceof VirtualProcessorType) {
            componentTypes.add((VirtualProcessorType) obj);
        } else if (obj instanceof ProcessorType) {
            componentTypes.add((ProcessorType) obj);
        } else if (obj instanceof SystemImplementation) {
            compImpls.add((SystemImplementation) obj);
        } else if (obj instanceof SubprogramImplementation) {
            compImpls.add((SubprogramImplementation) obj);
        } else if (obj instanceof ThreadImplementation) {
            compImpls.add((ThreadImplementation) obj);
        } else if (obj instanceof MemoryImplementation) {
            compImpls.add((MemoryImplementation) obj);
        } else if (obj instanceof BusImplementation) {
            compImpls.add((BusImplementation) obj);
        } else if (obj instanceof AbstractImplementation) {
            compImpls.add((AbstractImplementation) obj);
        } else if (obj instanceof DeviceImplementation) {
            compImpls.add((DeviceImplementation) obj);
        } else if (obj instanceof ProcessImplementation) {
            compImpls.add((ProcessImplementation) obj);
        } else if (obj instanceof ThreadGroupImplementation) {
            compImpls.add((ThreadGroupImplementation) obj);
        } else if (obj instanceof VirtualProcessorImplementation) {
            compImpls.add((VirtualProcessorImplementation) obj);
        } else if (obj instanceof ProcessorImplementation) {
            compImpls.add((ProcessorImplementation) obj);
        } else if (obj instanceof PropertySetImpl) {
            // String propertySetName = ((PropertySetImpl)obj).getName();
            // List<Property> compProps = new ArrayList<Property>();
            Set<Property> compPropSet = new HashSet<Property>();
            // List<Property> connProps = new ArrayList<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":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        case "thread":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        case "processor":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        case "memory":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        case "connection":
                            {
                                connPropertyToName.put(prop, propName);
                                connPropSet.add(prop);
                                break;
                            }
                        case "process":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        case "abstract":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        case "device":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        case "threadgroup":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        case "virtualprocessor":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        case "bus":
                            {
                                componentPropertyToName.put(prop, propName);
                                compPropSet.add(prop);
                                break;
                            }
                        default:
                            {
                                System.out.println("Warning: unsupported property applies to: " + propCat);
                                break;
                            }
                    }
                }
            }
        // compProps.addAll(compPropSet);
        // connProps.addAll(connPropSet);
        // propSetNameToCompProps.put(propertySetName, compProps);
        // propSetNameToConnProps.put(propertySetName, connProps);
        }
    }
    for (ComponentType compType : componentTypes) {
        String compTypeName = compType.getName();
        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<>();
        for (AnnexSubclause annex : compType.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);
                    }
                }
            }
        }
        if (!events.isEmpty()) {
            compTypeNameToEvents.put(compTypeName, events);
        }
        if (!missionReqs.isEmpty()) {
            compTypeNameToMissions.put(compTypeName, missionReqs);
        }
        if (!cyberRels.isEmpty()) {
            compTypeNameToCyberRels.put(compTypeName, cyberRels);
        }
        if (!safetyRels.isEmpty()) {
            compTypeNameToSafetyRels.put(compTypeName, safetyRels);
        }
        if (!cyberReqs.isEmpty()) {
            compTypeNameToCyberReqs.put(compTypeName, cyberReqs);
        }
        if (!safetyReqs.isEmpty()) {
            compTypeNameToSafetyReqs.put(compTypeName, safetyReqs);
        }
    }
    for (ComponentImplementation impl : compImpls) {
        compTypeNameToImpl.put(impl.getType().getName(), impl);
        if (!impl.getAllConnections().isEmpty()) {
            sysImplToConns.put(impl, impl.getAllConnections());
        }
    }
}
Also used : ProcessImplementation(org.osate.aadl2.ProcessImplementation) ArrayList(java.util.ArrayList) SystemType(org.osate.aadl2.SystemType) VirtualProcessorImplementation(org.osate.aadl2.VirtualProcessorImplementation) BusImplementation(org.osate.aadl2.BusImplementation) EObject(org.eclipse.emf.ecore.EObject) ThreadImplementation(org.osate.aadl2.ThreadImplementation) HashSet(java.util.HashSet) Verdict(com.ge.research.osate.verdict.dsl.verdict.Verdict) ThreadGroupType(org.osate.aadl2.ThreadGroupType) ThreadGroupImplementation(org.osate.aadl2.ThreadGroupImplementation) PropertySetImpl(org.osate.aadl2.impl.PropertySetImpl) DeviceType(org.osate.aadl2.DeviceType) ThreadType(org.osate.aadl2.ThreadType) AbstractType(org.osate.aadl2.AbstractType) SubprogramType(org.osate.aadl2.SubprogramType) AbstractImplementation(org.osate.aadl2.AbstractImplementation) AnnexSubclause(org.osate.aadl2.AnnexSubclause) ComponentImplementation(org.osate.aadl2.ComponentImplementation) 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) MetaclassReferenceImpl(org.osate.aadl2.impl.MetaclassReferenceImpl) ProcessType(org.osate.aadl2.ProcessType) ProcessorImplementation(org.osate.aadl2.ProcessorImplementation) VirtualProcessorImplementation(org.osate.aadl2.VirtualProcessorImplementation) VirtualProcessorType(org.osate.aadl2.VirtualProcessorType) Property(org.osate.aadl2.Property) MemoryType(org.osate.aadl2.MemoryType) CyberRel(com.ge.research.osate.verdict.dsl.verdict.CyberRel) ComponentType(org.osate.aadl2.ComponentType) CyberMission(com.ge.research.osate.verdict.dsl.verdict.CyberMission) CyberReq(com.ge.research.osate.verdict.dsl.verdict.CyberReq) Statement(com.ge.research.osate.verdict.dsl.verdict.Statement) SubprogramImplementation(org.osate.aadl2.SubprogramImplementation) SystemImplementation(org.osate.aadl2.SystemImplementation) SafetyRel(com.ge.research.osate.verdict.dsl.verdict.SafetyRel) Event(com.ge.research.osate.verdict.dsl.verdict.Event) DeviceImplementation(org.osate.aadl2.DeviceImplementation) SafetyReq(com.ge.research.osate.verdict.dsl.verdict.SafetyReq)

Example 2 with ProcessorType

use of org.osate.aadl2.ProcessorType in project VERDICT by ge-high-assurance.

the class Aadl2Vdm method translateProcessorTypeObjects.

// End of translateVirtualProcessorTypeObjects
/**
 * Analyzing each processorType:
 * 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 processorTypes
 * @param m1
 * @return
 */
public Model translateProcessorTypeObjects(List<ProcessorType> processorTypes, Model m1, HashSet<String> dataTypeDecl) {
    for (ProcessorType proType : processorTypes) {
        // variables for unpacking proType
        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 proType
        for (AnnexSubclause annex : proType.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 ProcessorType,
         *  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(proType.getQualifiedName());
            // populating "name"
            packComponent.setName(proType.getName());
            // populating "compCateg"
            packComponent.setCompCateg(proType.getCategory().getName());
            // get all bus accesses and store them as ports
            List<BusAccess> busAccesses = proType.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 getOwnedDataAccess for processorType
            // get all ports
            List<DataPort> dataPorts = proType.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);
                // 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 = proType.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 = proType.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(proType.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, proType.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, proType.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 : VirtualProcessorType(org.osate.aadl2.VirtualProcessorType) ProcessorType(org.osate.aadl2.ProcessorType) 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) 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 3 with ProcessorType

use of org.osate.aadl2.ProcessorType 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 4 with ProcessorType

use of org.osate.aadl2.ProcessorType in project VERDICT by ge-high-assurance.

the class Aadl2Vdm method getObjectNames.

/**
 * @author Vidhya Tekken Valapil
 * Fetch names of objects and return the list of names
 */
private HashSet<String> getObjectNames(List<EObject> objects) {
    HashSet<String> objNames = new HashSet<String>();
    for (EObject obj : objects) {
        // process only those objects in files in the project and not in the imported files
        if (obj instanceof SystemType) {
            objNames.add(((SystemType) obj).getName());
        } else if (obj instanceof BusType) {
            objNames.add(((BusType) obj).getName());
        } else if (obj instanceof SubprogramType) {
            objNames.add(((SubprogramType) obj).getName());
        } else if (obj instanceof ThreadType) {
            objNames.add(((ThreadType) obj).getName());
        } else if (obj instanceof MemoryType) {
            objNames.add(((MemoryType) obj).getName());
        } else if (obj instanceof DeviceType) {
            objNames.add(((DeviceType) obj).getName());
        } else if (obj instanceof AbstractType) {
            objNames.add(((AbstractType) obj).getName());
        } else if (obj instanceof ProcessType) {
            objNames.add(((ProcessType) obj).getName());
        } else if (obj instanceof ThreadGroupType) {
            objNames.add(((ThreadGroupType) obj).getName());
        } else if (obj instanceof VirtualProcessorType) {
            objNames.add(((VirtualProcessorType) obj).getName());
        } else if (obj instanceof ProcessorType) {
            objNames.add(((ProcessorType) obj).getName());
        } else if (obj instanceof SystemImplementation) {
            objNames.add(((SystemImplementation) obj).getName());
        } else if (obj instanceof SubprogramImplementation) {
            objNames.add(((SubprogramImplementation) obj).getName());
        } else if (obj instanceof ThreadImplementation) {
            objNames.add(((ThreadImplementation) obj).getName());
        } else if (obj instanceof MemoryImplementation) {
            objNames.add(((MemoryImplementation) obj).getName());
        } else if (obj instanceof BusImplementation) {
            objNames.add(((BusImplementation) obj).getName());
        } else if (obj instanceof AbstractImplementation) {
            objNames.add(((AbstractImplementation) obj).getName());
        } else if (obj instanceof DeviceImplementation) {
            objNames.add(((DeviceImplementation) obj).getName());
        } else if (obj instanceof ProcessImplementation) {
            objNames.add(((ProcessImplementation) obj).getName());
        } else if (obj instanceof ThreadGroupImplementation) {
            objNames.add(((ThreadGroupImplementation) obj).getName());
        } else if (obj instanceof VirtualProcessorImplementation) {
            objNames.add(((VirtualProcessorImplementation) obj).getName());
        } else if (obj instanceof ProcessorImplementation) {
            objNames.add(((ProcessorImplementation) obj).getName());
        } else if (obj instanceof PropertySetImpl) {
            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":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "thread":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "processor":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "memory":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "connection":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "process":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "abstract":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "device":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "threadgroup":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "virtualprocessor":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "bus":
                            {
                                objNames.add(propName);
                                break;
                            }
                        case "port":
                            {
                                objNames.add(propName);
                                break;
                            }
                        default:
                            {
                                System.out.println("Warning: unsupported property: " + propName + ", applies to: " + propCat);
                                break;
                            }
                    }
                }
            }
        }
    }
    return objNames;
}
Also used : 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) SystemType(org.osate.aadl2.SystemType) VirtualProcessorImplementation(org.osate.aadl2.VirtualProcessorImplementation) 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 5 with ProcessorType

use of org.osate.aadl2.ProcessorType in project osate2 by osate.

the class AbstractAadl2SemanticSequencer 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.AADL_BOOLEAN:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getBooleanTypeRule()) {
                    sequence_BooleanType(context, (AadlBoolean) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedBooleanTypeRule()) {
                    sequence_UnnamedBooleanType(context, (AadlBoolean) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.AADL_INTEGER:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getIntegerTypeRule()) {
                    sequence_IntegerType(context, (AadlInteger) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedIntegerTypeRule()) {
                    sequence_UnnamedIntegerType(context, (AadlInteger) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.AADL_PACKAGE:
                sequence_AadlPackage(context, (AadlPackage) semanticObject);
                return;
            case Aadl2Package.AADL_REAL:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getRealTypeRule()) {
                    sequence_RealType(context, (AadlReal) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedRealTypeRule()) {
                    sequence_UnnamedRealType(context, (AadlReal) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.AADL_STRING:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getStringTypeRule()) {
                    sequence_StringType(context, (AadlString) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedStringTypeRule()) {
                    sequence_UnnamedStringType(context, (AadlString) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.ABSTRACT_FEATURE:
                sequence_AbstractFeature(context, (AbstractFeature) semanticObject);
                return;
            case Aadl2Package.ABSTRACT_IMPLEMENTATION:
                sequence_AbstractImplementation(context, (AbstractImplementation) semanticObject);
                return;
            case Aadl2Package.ABSTRACT_PROTOTYPE:
                sequence_AbstractPrototype(context, (AbstractPrototype) semanticObject);
                return;
            case Aadl2Package.ABSTRACT_SUBCOMPONENT:
                sequence_AbstractSubcomponent(context, (AbstractSubcomponent) semanticObject);
                return;
            case Aadl2Package.ABSTRACT_TYPE:
                sequence_AbstractType(context, (AbstractType) semanticObject);
                return;
            case Aadl2Package.ACCESS_CONNECTION:
                sequence_AccessConnection(context, (AccessConnection) semanticObject);
                return;
            case Aadl2Package.ACCESS_SPECIFICATION:
                sequence_AccessSpecification(context, (AccessSpecification) semanticObject);
                return;
            case Aadl2Package.ARRAY_DIMENSION:
                sequence_ArrayDimension(context, (ArrayDimension) semanticObject);
                return;
            case Aadl2Package.ARRAY_RANGE:
                sequence_ArrayRange(context, (ArrayRange) semanticObject);
                return;
            case Aadl2Package.ARRAY_SIZE:
                sequence_ArraySize(context, (ArraySize) semanticObject);
                return;
            case Aadl2Package.BASIC_PROPERTY:
                sequence_RecordField(context, (BasicProperty) 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.BUS_ACCESS:
                sequence_BusAccess(context, (BusAccess) semanticObject);
                return;
            case Aadl2Package.BUS_IMPLEMENTATION:
                sequence_BusImplementation(context, (BusImplementation) semanticObject);
                return;
            case Aadl2Package.BUS_PROTOTYPE:
                sequence_BusPrototype(context, (BusPrototype) semanticObject);
                return;
            case Aadl2Package.BUS_SUBCOMPONENT:
                sequence_BusSubcomponent(context, (BusSubcomponent) semanticObject);
                return;
            case Aadl2Package.BUS_TYPE:
                sequence_BusType(context, (BusType) semanticObject);
                return;
            case Aadl2Package.CLASSIFIER_TYPE:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getClassifierTypeRule()) {
                    sequence_ClassifierType(context, (ClassifierType) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedClassifierTypeRule()) {
                    sequence_UnnamedClassifierType(context, (ClassifierType) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.CLASSIFIER_VALUE:
                if (rule == grammarAccess.getConstantPropertyExpressionRule() || rule == grammarAccess.getPropertyExpressionRule() || rule == grammarAccess.getComponentClassifierTermRule()) {
                    sequence_ComponentClassifierTerm(context, (ClassifierValue) semanticObject);
                    return;
                } else if (rule == grammarAccess.getQCReferenceRule() || rule == grammarAccess.getPropertyOwnerRule()) {
                    sequence_QCReference(context, (ClassifierValue) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.COMPONENT_IMPLEMENTATION_REFERENCE:
                sequence_ComponentImplementationReference(context, (ComponentImplementationReference) semanticObject);
                return;
            case Aadl2Package.COMPONENT_PROTOTYPE_ACTUAL:
                sequence_ComponentReference(context, (ComponentPrototypeActual) semanticObject);
                return;
            case Aadl2Package.COMPONENT_PROTOTYPE_BINDING:
                sequence_ComponentPrototypeBinding(context, (ComponentPrototypeBinding) semanticObject);
                return;
            case Aadl2Package.COMPONENT_TYPE_RENAME:
                sequence_CTRename(context, (ComponentTypeRename) semanticObject);
                return;
            case Aadl2Package.COMPUTED_VALUE:
                sequence_ComputedTerm(context, (ComputedValue) semanticObject);
                return;
            case Aadl2Package.CONNECTED_ELEMENT:
                if (rule == grammarAccess.getConnectedElementChainRule()) {
                    sequence_ConnectedElementChain(context, (ConnectedElement) semanticObject);
                    return;
                } else if (rule == grammarAccess.getConnectedElementRule()) {
                    sequence_ConnectedElement(context, (ConnectedElement) semanticObject);
                    return;
                } else if (rule == grammarAccess.getAbstractConnectionEndRule()) {
                    sequence_ConnectedElement_InternalEvent_ProcessorPort(context, (ConnectedElement) semanticObject);
                    return;
                } else if (rule == grammarAccess.getNestedConnectedElementRule()) {
                    sequence_ConnectedElement_NestedConnectedElement(context, (ConnectedElement) semanticObject);
                    return;
                } else if (rule == grammarAccess.getProcessorConnectionEndRule()) {
                    sequence_ConnectedElement_ProcessorPort(context, (ConnectedElement) semanticObject);
                    return;
                } else if (rule == grammarAccess.getAccessConnectionEndRule()) {
                    sequence_ConnectedElement_ProcessorSubprogram(context, (ConnectedElement) semanticObject);
                    return;
                } else if (rule == grammarAccess.getInternalEventRule()) {
                    sequence_InternalEvent(context, (ConnectedElement) semanticObject);
                    return;
                } else if (rule == grammarAccess.getProcessorPortRule()) {
                    sequence_ProcessorPort(context, (ConnectedElement) semanticObject);
                    return;
                } else if (rule == grammarAccess.getProcessorSubprogramRule()) {
                    sequence_ProcessorSubprogram(context, (ConnectedElement) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.CONTAINED_NAMED_ELEMENT:
                sequence_ContainmentPath(context, (ContainedNamedElement) semanticObject);
                return;
            case Aadl2Package.CONTAINMENT_PATH_ELEMENT:
                sequence_ContainmentPathElement(context, (ContainmentPathElement) semanticObject);
                return;
            case Aadl2Package.DATA_ACCESS:
                sequence_DataAccess(context, (DataAccess) semanticObject);
                return;
            case Aadl2Package.DATA_IMPLEMENTATION:
                sequence_DataImplementation(context, (DataImplementation) semanticObject);
                return;
            case Aadl2Package.DATA_PORT:
                sequence_DataPort(context, (DataPort) semanticObject);
                return;
            case Aadl2Package.DATA_PROTOTYPE:
                sequence_DataPrototype(context, (DataPrototype) semanticObject);
                return;
            case Aadl2Package.DATA_SUBCOMPONENT:
                sequence_DataSubcomponent(context, (DataSubcomponent) semanticObject);
                return;
            case Aadl2Package.DATA_TYPE:
                sequence_DataType(context, (DataType) semanticObject);
                return;
            case Aadl2Package.DEFAULT_ANNEX_LIBRARY:
                sequence_DefaultAnnexLibrary(context, (DefaultAnnexLibrary) semanticObject);
                return;
            case Aadl2Package.DEFAULT_ANNEX_SUBCLAUSE:
                sequence_DefaultAnnexSubclause(context, (DefaultAnnexSubclause) semanticObject);
                return;
            case Aadl2Package.DEVICE_IMPLEMENTATION:
                sequence_DeviceImplementation(context, (DeviceImplementation) semanticObject);
                return;
            case Aadl2Package.DEVICE_PROTOTYPE:
                sequence_DevicePrototype(context, (DevicePrototype) semanticObject);
                return;
            case Aadl2Package.DEVICE_SUBCOMPONENT:
                sequence_DeviceSubcomponent(context, (DeviceSubcomponent) semanticObject);
                return;
            case Aadl2Package.DEVICE_TYPE:
                sequence_DeviceType(context, (DeviceType) semanticObject);
                return;
            case Aadl2Package.END_TO_END_FLOW:
                sequence_EndToEndFlow(context, (EndToEndFlow) semanticObject);
                return;
            case Aadl2Package.END_TO_END_FLOW_SEGMENT:
                if (rule == grammarAccess.getETEConnectionFlowRule()) {
                    sequence_ETEConnectionFlow(context, (EndToEndFlowSegment) semanticObject);
                    return;
                } else if (rule == grammarAccess.getETESubcomponentFlowRule()) {
                    sequence_ETESubcomponentFlow(context, (EndToEndFlowSegment) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.ENUMERATION_LITERAL:
                sequence_EnumerationLiteral(context, (EnumerationLiteral) semanticObject);
                return;
            case Aadl2Package.ENUMERATION_TYPE:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getEnumerationTypeRule()) {
                    sequence_EnumerationType(context, (EnumerationType) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedEnumerationTypeRule()) {
                    sequence_UnnamedEnumerationType(context, (EnumerationType) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.EVENT_DATA_PORT:
                sequence_EventDataPort(context, (EventDataPort) semanticObject);
                return;
            case Aadl2Package.EVENT_DATA_SOURCE:
                sequence_EventDataSource(context, (EventDataSource) semanticObject);
                return;
            case Aadl2Package.EVENT_PORT:
                sequence_EventPort(context, (EventPort) semanticObject);
                return;
            case Aadl2Package.EVENT_SOURCE:
                sequence_EventSource(context, (EventSource) semanticObject);
                return;
            case Aadl2Package.FEATURE_CONNECTION:
                sequence_FeatureConnection(context, (FeatureConnection) semanticObject);
                return;
            case Aadl2Package.FEATURE_GROUP:
                sequence_FeatureGroup(context, (FeatureGroup) semanticObject);
                return;
            case Aadl2Package.FEATURE_GROUP_CONNECTION:
                sequence_FeatureGroupConnection(context, (FeatureGroupConnection) semanticObject);
                return;
            case Aadl2Package.FEATURE_GROUP_PROTOTYPE:
                sequence_FeatureGroupPrototype(context, (FeatureGroupPrototype) semanticObject);
                return;
            case Aadl2Package.FEATURE_GROUP_PROTOTYPE_ACTUAL:
                sequence_FeatureGroupPrototypeActual(context, (FeatureGroupPrototypeActual) semanticObject);
                return;
            case Aadl2Package.FEATURE_GROUP_PROTOTYPE_BINDING:
                sequence_FeatureGroupPrototypeBinding(context, (FeatureGroupPrototypeBinding) semanticObject);
                return;
            case Aadl2Package.FEATURE_GROUP_TYPE:
                sequence_FeatureGroupType(context, (FeatureGroupType) semanticObject);
                return;
            case Aadl2Package.FEATURE_GROUP_TYPE_RENAME:
                sequence_FGTRename(context, (FeatureGroupTypeRename) semanticObject);
                return;
            case Aadl2Package.FEATURE_PROTOTYPE:
                sequence_FeaturePrototype(context, (FeaturePrototype) semanticObject);
                return;
            case Aadl2Package.FEATURE_PROTOTYPE_BINDING:
                sequence_FeaturePrototypeBinding(context, (FeaturePrototypeBinding) semanticObject);
                return;
            case Aadl2Package.FEATURE_PROTOTYPE_REFERENCE:
                sequence_FeaturePrototypeReference(context, (FeaturePrototypeReference) semanticObject);
                return;
            case Aadl2Package.FLOW_END:
                sequence_FlowEnd(context, (FlowEnd) semanticObject);
                return;
            case Aadl2Package.FLOW_IMPLEMENTATION:
                if (rule == grammarAccess.getFlowPathImplRule()) {
                    sequence_FlowPathImpl(context, (FlowImplementation) semanticObject);
                    return;
                } else if (rule == grammarAccess.getFlowImplementationRule()) {
                    sequence_FlowPathImpl_FlowSinkImpl_FlowSourceImpl(context, (FlowImplementation) semanticObject);
                    return;
                } else if (rule == grammarAccess.getFlowSinkImplRule()) {
                    sequence_FlowSinkImpl(context, (FlowImplementation) semanticObject);
                    return;
                } else if (rule == grammarAccess.getFlowSourceImplRule()) {
                    sequence_FlowSourceImpl(context, (FlowImplementation) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.FLOW_SEGMENT:
                if (rule == grammarAccess.getConnectionFlowRule()) {
                    sequence_ConnectionFlow(context, (FlowSegment) semanticObject);
                    return;
                } else if (rule == grammarAccess.getSubcomponentFlowRule()) {
                    sequence_SubcomponentFlow(context, (FlowSegment) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.FLOW_SPECIFICATION:
                if (rule == grammarAccess.getFlowSpecificationRule()) {
                    sequence_FlowPathSpec_FlowSinkSpec_FlowSourceSpec_FlowSpecRefinement(context, (FlowSpecification) semanticObject);
                    return;
                } else if (rule == grammarAccess.getFlowPathSpecRule()) {
                    sequence_FlowPathSpec(context, (FlowSpecification) semanticObject);
                    return;
                } else if (rule == grammarAccess.getFlowSinkSpecRule()) {
                    sequence_FlowSinkSpec(context, (FlowSpecification) semanticObject);
                    return;
                } else if (rule == grammarAccess.getFlowSourceSpecRule()) {
                    sequence_FlowSourceSpec(context, (FlowSpecification) semanticObject);
                    return;
                } else if (rule == grammarAccess.getFlowSpecRefinementRule()) {
                    sequence_FlowSpecRefinement(context, (FlowSpecification) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.GROUP_EXTENSION:
                sequence_GroupExtension(context, (GroupExtension) semanticObject);
                return;
            case Aadl2Package.IMPLEMENTATION_EXTENSION:
                sequence_ImplementationExtension(context, (ImplementationExtension) semanticObject);
                return;
            case Aadl2Package.INTEGER_LITERAL:
                if (rule == grammarAccess.getNumberValueRule() || rule == grammarAccess.getIntegerLitRule()) {
                    sequence_IntegerLit(context, (IntegerLiteral) semanticObject);
                    return;
                } else if (rule == grammarAccess.getConstantPropertyExpressionRule() || rule == grammarAccess.getPropertyExpressionRule() || rule == grammarAccess.getIntegerTermRule() || rule == grammarAccess.getNumAltRule()) {
                    sequence_IntegerTerm(context, (IntegerLiteral) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.LIST_TYPE:
                sequence_ListType(context, (ListType) semanticObject);
                return;
            case Aadl2Package.LIST_VALUE:
                sequence_ListTerm(context, (ListValue) semanticObject);
                return;
            case Aadl2Package.MEMORY_IMPLEMENTATION:
                sequence_MemoryImplementation(context, (MemoryImplementation) semanticObject);
                return;
            case Aadl2Package.MEMORY_PROTOTYPE:
                sequence_MemoryPrototype(context, (MemoryPrototype) semanticObject);
                return;
            case Aadl2Package.MEMORY_SUBCOMPONENT:
                sequence_MemorySubcomponent(context, (MemorySubcomponent) semanticObject);
                return;
            case Aadl2Package.MEMORY_TYPE:
                sequence_MemoryType(context, (MemoryType) semanticObject);
                return;
            case Aadl2Package.METACLASS_REFERENCE:
                if (rule == grammarAccess.getAllReferenceRule()) {
                    sequence_AllReference(context, (MetaclassReference) semanticObject);
                    return;
                } else if (rule == grammarAccess.getQMReferenceRule() || rule == grammarAccess.getPropertyOwnerRule()) {
                    sequence_QMReference(context, (MetaclassReference) semanticObject);
                    return;
                } else
                    break;
            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.MODE:
                sequence_Mode(context, (Mode) semanticObject);
                return;
            case Aadl2Package.MODE_BINDING:
                sequence_ModeRef(context, (ModeBinding) semanticObject);
                return;
            case Aadl2Package.MODE_TRANSITION:
                sequence_ModeTransition(context, (ModeTransition) semanticObject);
                return;
            case Aadl2Package.MODE_TRANSITION_TRIGGER:
                sequence_Trigger(context, (ModeTransitionTrigger) semanticObject);
                return;
            case Aadl2Package.NAMED_VALUE:
                if (rule == grammarAccess.getConstantValueRule() || rule == grammarAccess.getNumAltRule()) {
                    sequence_ConstantValue(context, (NamedValue) semanticObject);
                    return;
                } else if (rule == grammarAccess.getConstantPropertyExpressionRule() || rule == grammarAccess.getPropertyExpressionRule() || rule == grammarAccess.getLiteralorReferenceTermRule()) {
                    sequence_LiteralorReferenceTerm(context, (NamedValue) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.NUMERIC_RANGE:
                if (rule == grammarAccess.getIntegerRangeRule()) {
                    sequence_IntegerRange(context, (NumericRange) semanticObject);
                    return;
                } else if (rule == grammarAccess.getRealRangeRule()) {
                    sequence_RealRange(context, (NumericRange) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.OPERATION:
                sequence_SignedConstant(context, (Operation) semanticObject);
                return;
            case Aadl2Package.PACKAGE_RENAME:
                if (rule == grammarAccess.getPackageRenameRule()) {
                    sequence_PackageRename(context, (PackageRename) semanticObject);
                    return;
                } else if (rule == grammarAccess.getRenameAllRule()) {
                    sequence_RenameAll(context, (PackageRename) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.PARAMETER:
                sequence_Parameter(context, (org.osate.aadl2.Parameter) semanticObject);
                return;
            case Aadl2Package.PARAMETER_CONNECTION:
                sequence_ParameterConnection(context, (ParameterConnection) semanticObject);
                return;
            case Aadl2Package.PORT_CONNECTION:
                sequence_PortConnection(context, (PortConnection) semanticObject);
                return;
            case Aadl2Package.PORT_PROXY:
                sequence_PortProxy(context, (PortProxy) semanticObject);
                return;
            case Aadl2Package.PORT_SPECIFICATION:
                sequence_PortSpecification(context, (PortSpecification) semanticObject);
                return;
            case Aadl2Package.PRIVATE_PACKAGE_SECTION:
                sequence_PrivatePackageSection(context, (PrivatePackageSection) semanticObject);
                return;
            case Aadl2Package.PROCESS_IMPLEMENTATION:
                sequence_ProcessImplementation(context, (ProcessImplementation) semanticObject);
                return;
            case Aadl2Package.PROCESS_PROTOTYPE:
                sequence_ProcessPrototype(context, (ProcessPrototype) semanticObject);
                return;
            case Aadl2Package.PROCESS_SUBCOMPONENT:
                sequence_ProcessSubcomponent(context, (ProcessSubcomponent) semanticObject);
                return;
            case Aadl2Package.PROCESS_TYPE:
                sequence_ProcessType(context, (ProcessType) semanticObject);
                return;
            case Aadl2Package.PROCESSOR_IMPLEMENTATION:
                sequence_ProcessorImplementation(context, (ProcessorImplementation) semanticObject);
                return;
            case Aadl2Package.PROCESSOR_PROTOTYPE:
                sequence_ProcessorPrototype(context, (ProcessorPrototype) semanticObject);
                return;
            case Aadl2Package.PROCESSOR_SUBCOMPONENT:
                sequence_ProcessorSubcomponent(context, (ProcessorSubcomponent) semanticObject);
                return;
            case Aadl2Package.PROCESSOR_TYPE:
                sequence_ProcessorType(context, (ProcessorType) semanticObject);
                return;
            case Aadl2Package.PROPERTY:
                sequence_PropertyDefinition(context, (Property) 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.PROPERTY_CONSTANT:
                sequence_PropertyConstant(context, (PropertyConstant) semanticObject);
                return;
            case Aadl2Package.PROPERTY_SET:
                sequence_PropertySet(context, (PropertySet) semanticObject);
                return;
            case Aadl2Package.PUBLIC_PACKAGE_SECTION:
                sequence_PublicPackageSection(context, (PublicPackageSection) semanticObject);
                return;
            case Aadl2Package.RANGE_TYPE:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getRangeTypeRule()) {
                    sequence_RangeType(context, (RangeType) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedRangeTypeRule()) {
                    sequence_UnnamedRangeType(context, (RangeType) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.RANGE_VALUE:
                sequence_NumericRangeTerm(context, (RangeValue) semanticObject);
                return;
            case Aadl2Package.REAL_LITERAL:
                if (rule == grammarAccess.getNumberValueRule() || rule == grammarAccess.getRealLitRule()) {
                    sequence_RealLit(context, (RealLiteral) semanticObject);
                    return;
                } else if (rule == grammarAccess.getConstantPropertyExpressionRule() || rule == grammarAccess.getPropertyExpressionRule() || rule == grammarAccess.getRealTermRule() || rule == grammarAccess.getNumAltRule()) {
                    sequence_RealTerm(context, (RealLiteral) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.REALIZATION:
                sequence_Realization(context, (Realization) semanticObject);
                return;
            case Aadl2Package.RECORD_TYPE:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getRecordTypeRule()) {
                    sequence_RecordType(context, (RecordType) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedRecordTypeRule()) {
                    sequence_UnnamedRecordType(context, (RecordType) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.RECORD_VALUE:
                if (rule == grammarAccess.getOldRecordTermRule()) {
                    sequence_OldRecordTerm(context, (RecordValue) semanticObject);
                    return;
                } else if (rule == grammarAccess.getConstantPropertyExpressionRule() || rule == grammarAccess.getPropertyExpressionRule() || rule == grammarAccess.getRecordTermRule()) {
                    sequence_RecordTerm(context, (RecordValue) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.REFERENCE_TYPE:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getReferenceTypeRule()) {
                    sequence_ReferenceType(context, (ReferenceType) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedReferenceTypeRule()) {
                    sequence_UnnamedReferenceType(context, (ReferenceType) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.REFERENCE_VALUE:
                sequence_ReferenceTerm(context, (ReferenceValue) semanticObject);
                return;
            case Aadl2Package.STRING_LITERAL:
                sequence_StringTerm(context, (StringLiteral) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_ACCESS:
                sequence_SubprogramAccess(context, (SubprogramAccess) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_CALL:
                sequence_SubprogramCall(context, (SubprogramCall) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_CALL_SEQUENCE:
                sequence_SubprogramCallSequence(context, (SubprogramCallSequence) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_GROUP_ACCESS:
                sequence_SubprogramGroupAccess(context, (SubprogramGroupAccess) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_GROUP_IMPLEMENTATION:
                sequence_SubprogramGroupImplementation(context, (SubprogramGroupImplementation) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_GROUP_PROTOTYPE:
                sequence_SubprogramGroupPrototype(context, (SubprogramGroupPrototype) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_GROUP_SUBCOMPONENT:
                sequence_SubprogramGroupSubcomponent(context, (SubprogramGroupSubcomponent) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_GROUP_TYPE:
                sequence_SubprogramGroupType(context, (SubprogramGroupType) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_IMPLEMENTATION:
                sequence_SubprogramImplementation(context, (SubprogramImplementation) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_PROTOTYPE:
                sequence_SubprogramPrototype(context, (SubprogramPrototype) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_PROXY:
                sequence_SubprogramProxy(context, (SubprogramProxy) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_SUBCOMPONENT:
                sequence_SubprogramSubcomponent(context, (SubprogramSubcomponent) semanticObject);
                return;
            case Aadl2Package.SUBPROGRAM_TYPE:
                sequence_SubprogramType(context, (SubprogramType) semanticObject);
                return;
            case Aadl2Package.SYSTEM_IMPLEMENTATION:
                sequence_SystemImplementation(context, (SystemImplementation) semanticObject);
                return;
            case Aadl2Package.SYSTEM_PROTOTYPE:
                sequence_SystemPrototype(context, (SystemPrototype) semanticObject);
                return;
            case Aadl2Package.SYSTEM_SUBCOMPONENT:
                sequence_SystemSubcomponent(context, (SystemSubcomponent) semanticObject);
                return;
            case Aadl2Package.SYSTEM_TYPE:
                sequence_SystemType(context, (SystemType) semanticObject);
                return;
            case Aadl2Package.THREAD_GROUP_IMPLEMENTATION:
                sequence_ThreadGroupImplementation(context, (ThreadGroupImplementation) semanticObject);
                return;
            case Aadl2Package.THREAD_GROUP_PROTOTYPE:
                sequence_ThreadGroupPrototype(context, (ThreadGroupPrototype) semanticObject);
                return;
            case Aadl2Package.THREAD_GROUP_SUBCOMPONENT:
                sequence_ThreadGroupSubcomponent(context, (ThreadGroupSubcomponent) semanticObject);
                return;
            case Aadl2Package.THREAD_GROUP_TYPE:
                sequence_ThreadGroupType(context, (ThreadGroupType) semanticObject);
                return;
            case Aadl2Package.THREAD_IMPLEMENTATION:
                sequence_ThreadImplementation(context, (ThreadImplementation) semanticObject);
                return;
            case Aadl2Package.THREAD_PROTOTYPE:
                sequence_ThreadPrototype(context, (ThreadPrototype) semanticObject);
                return;
            case Aadl2Package.THREAD_SUBCOMPONENT:
                sequence_ThreadSubcomponent(context, (ThreadSubcomponent) semanticObject);
                return;
            case Aadl2Package.THREAD_TYPE:
                sequence_ThreadType(context, (ThreadType) semanticObject);
                return;
            case Aadl2Package.TYPE_EXTENSION:
                sequence_TypeExtension(context, (TypeExtension) semanticObject);
                return;
            case Aadl2Package.UNIT_LITERAL:
                if (rule == grammarAccess.getUnitLiteralConversionRule()) {
                    sequence_UnitLiteralConversion(context, (UnitLiteral) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnitLiteralRule()) {
                    sequence_UnitLiteral(context, (UnitLiteral) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.UNITS_TYPE:
                if (rule == grammarAccess.getPropertyTypeRule() || rule == grammarAccess.getUnitsTypeRule()) {
                    sequence_UnitsType(context, (UnitsType) semanticObject);
                    return;
                } else if (rule == grammarAccess.getUnnamedPropertyTypeRule() || rule == grammarAccess.getUnnamedUnitsTypeRule()) {
                    sequence_UnnamedUnitsType(context, (UnitsType) semanticObject);
                    return;
                } else
                    break;
            case Aadl2Package.VIRTUAL_BUS_IMPLEMENTATION:
                sequence_VirtualBusImplementation(context, (VirtualBusImplementation) semanticObject);
                return;
            case Aadl2Package.VIRTUAL_BUS_PROTOTYPE:
                sequence_VirtualBusPrototype(context, (VirtualBusPrototype) semanticObject);
                return;
            case Aadl2Package.VIRTUAL_BUS_SUBCOMPONENT:
                sequence_VirtualBusSubcomponent(context, (VirtualBusSubcomponent) semanticObject);
                return;
            case Aadl2Package.VIRTUAL_BUS_TYPE:
                sequence_VirtualBusType(context, (VirtualBusType) semanticObject);
                return;
            case Aadl2Package.VIRTUAL_PROCESSOR_IMPLEMENTATION:
                sequence_VirtualProcessorImplementation(context, (VirtualProcessorImplementation) semanticObject);
                return;
            case Aadl2Package.VIRTUAL_PROCESSOR_PROTOTYPE:
                sequence_VirtualProcessorPrototype(context, (VirtualProcessorPrototype) semanticObject);
                return;
            case Aadl2Package.VIRTUAL_PROCESSOR_SUBCOMPONENT:
                sequence_VirtualProcessorSubcomponent(context, (VirtualProcessorSubcomponent) semanticObject);
                return;
            case Aadl2Package.VIRTUAL_PROCESSOR_TYPE:
                sequence_VirtualProcessorType(context, (VirtualProcessorType) semanticObject);
                return;
        }
    if (errorAcceptor != null)
        errorAcceptor.accept(diagnosticProvider.createInvalidContextOrTypeDiagnostic(semanticObject, context));
}
Also used : ProcessImplementation(org.osate.aadl2.ProcessImplementation) SystemPrototype(org.osate.aadl2.SystemPrototype) SubprogramGroupSubcomponent(org.osate.aadl2.SubprogramGroupSubcomponent) SystemType(org.osate.aadl2.SystemType) VirtualProcessorImplementation(org.osate.aadl2.VirtualProcessorImplementation) ReferenceType(org.osate.aadl2.ReferenceType) DataPort(org.osate.aadl2.DataPort) EventDataPort(org.osate.aadl2.EventDataPort) FeatureGroupPrototype(org.osate.aadl2.FeatureGroupPrototype) NumericRange(org.osate.aadl2.NumericRange) BasicProperty(org.osate.aadl2.BasicProperty) DeviceSubcomponent(org.osate.aadl2.DeviceSubcomponent) PublicPackageSection(org.osate.aadl2.PublicPackageSection) SubprogramAccess(org.osate.aadl2.SubprogramAccess) ListType(org.osate.aadl2.ListType) ThreadGroupSubcomponent(org.osate.aadl2.ThreadGroupSubcomponent) ConnectedElement(org.osate.aadl2.ConnectedElement) PrivatePackageSection(org.osate.aadl2.PrivatePackageSection) AadlString(org.osate.aadl2.AadlString) DefaultAnnexSubclause(org.osate.aadl2.DefaultAnnexSubclause) SubprogramCall(org.osate.aadl2.SubprogramCall) DefaultAnnexLibrary(org.osate.aadl2.DefaultAnnexLibrary) ProcessPrototype(org.osate.aadl2.ProcessPrototype) SubprogramSubcomponent(org.osate.aadl2.SubprogramSubcomponent) ThreadGroupImplementation(org.osate.aadl2.ThreadGroupImplementation) FeatureConnection(org.osate.aadl2.FeatureConnection) SubprogramCallSequence(org.osate.aadl2.SubprogramCallSequence) AbstractPrototype(org.osate.aadl2.AbstractPrototype) ImplementationExtension(org.osate.aadl2.ImplementationExtension) DataPrototype(org.osate.aadl2.DataPrototype) PortConnection(org.osate.aadl2.PortConnection) SystemSubcomponent(org.osate.aadl2.SystemSubcomponent) SubprogramGroupImplementation(org.osate.aadl2.SubprogramGroupImplementation) FeatureGroupTypeRename(org.osate.aadl2.FeatureGroupTypeRename) StringLiteral(org.osate.aadl2.StringLiteral) AbstractType(org.osate.aadl2.AbstractType) SubprogramGroupType(org.osate.aadl2.SubprogramGroupType) SubprogramPrototype(org.osate.aadl2.SubprogramPrototype) VirtualProcessorPrototype(org.osate.aadl2.VirtualProcessorPrototype) FlowEnd(org.osate.aadl2.FlowEnd) ClassifierType(org.osate.aadl2.ClassifierType) ArrayRange(org.osate.aadl2.ArrayRange) ModeTransition(org.osate.aadl2.ModeTransition) NamedValue(org.osate.aadl2.NamedValue) RangeValue(org.osate.aadl2.RangeValue) RealLiteral(org.osate.aadl2.RealLiteral) ProcessType(org.osate.aadl2.ProcessType) ProcessorImplementation(org.osate.aadl2.ProcessorImplementation) VirtualProcessorImplementation(org.osate.aadl2.VirtualProcessorImplementation) RangeType(org.osate.aadl2.RangeType) EventPort(org.osate.aadl2.EventPort) PortProxy(org.osate.aadl2.PortProxy) ArraySize(org.osate.aadl2.ArraySize) DataType(org.osate.aadl2.DataType) VirtualProcessorType(org.osate.aadl2.VirtualProcessorType) ComponentTypeRename(org.osate.aadl2.ComponentTypeRename) BasicPropertyAssociation(org.osate.aadl2.BasicPropertyAssociation) EnumerationLiteral(org.osate.aadl2.EnumerationLiteral) BasicProperty(org.osate.aadl2.BasicProperty) Property(org.osate.aadl2.Property) EndToEndFlow(org.osate.aadl2.EndToEndFlow) BusAccess(org.osate.aadl2.BusAccess) FeatureGroupPrototypeBinding(org.osate.aadl2.FeatureGroupPrototypeBinding) SubprogramGroupPrototype(org.osate.aadl2.SubprogramGroupPrototype) ComponentPrototypeBinding(org.osate.aadl2.ComponentPrototypeBinding) SubprogramGroupAccess(org.osate.aadl2.SubprogramGroupAccess) ThreadSubcomponent(org.osate.aadl2.ThreadSubcomponent) FeaturePrototype(org.osate.aadl2.FeaturePrototype) VirtualBusPrototype(org.osate.aadl2.VirtualBusPrototype) PackageRename(org.osate.aadl2.PackageRename) DataSubcomponent(org.osate.aadl2.DataSubcomponent) ParameterConnection(org.osate.aadl2.ParameterConnection) Parameter(org.eclipse.xtext.Parameter) AccessSpecification(org.osate.aadl2.AccessSpecification) PropertySet(org.osate.aadl2.PropertySet) DevicePrototype(org.osate.aadl2.DevicePrototype) ArrayDimension(org.osate.aadl2.ArrayDimension) DeviceImplementation(org.osate.aadl2.DeviceImplementation) ModeTransitionTrigger(org.osate.aadl2.ModeTransitionTrigger) UnitsType(org.osate.aadl2.UnitsType) ParserRule(org.eclipse.xtext.ParserRule) ClassifierValue(org.osate.aadl2.ClassifierValue) ModalPropertyValue(org.osate.aadl2.ModalPropertyValue) ReferenceValue(org.osate.aadl2.ReferenceValue) FeatureGroupPrototypeActual(org.osate.aadl2.FeatureGroupPrototypeActual) EPackage(org.eclipse.emf.ecore.EPackage) DataAccess(org.osate.aadl2.DataAccess) VirtualBusImplementation(org.osate.aadl2.VirtualBusImplementation) BusImplementation(org.osate.aadl2.BusImplementation) FlowSpecification(org.osate.aadl2.FlowSpecification) ComponentPrototypeActual(org.osate.aadl2.ComponentPrototypeActual) FeatureGroupConnection(org.osate.aadl2.FeatureGroupConnection) VirtualBusType(org.osate.aadl2.VirtualBusType) ThreadImplementation(org.osate.aadl2.ThreadImplementation) FeaturePrototypeReference(org.osate.aadl2.FeaturePrototypeReference) EventDataPort(org.osate.aadl2.EventDataPort) MetaclassReference(org.osate.aadl2.MetaclassReference) IntegerLiteral(org.osate.aadl2.IntegerLiteral) MemoryPrototype(org.osate.aadl2.MemoryPrototype) AadlReal(org.osate.aadl2.AadlReal) ThreadGroupType(org.osate.aadl2.ThreadGroupType) ComponentImplementationReference(org.osate.aadl2.ComponentImplementationReference) ListValue(org.osate.aadl2.ListValue) BusSubcomponent(org.osate.aadl2.BusSubcomponent) VirtualBusSubcomponent(org.osate.aadl2.VirtualBusSubcomponent) EndToEndFlowSegment(org.osate.aadl2.EndToEndFlowSegment) AbstractFeature(org.osate.aadl2.AbstractFeature) DeviceType(org.osate.aadl2.DeviceType) EventSource(org.osate.aadl2.EventSource) ProcessSubcomponent(org.osate.aadl2.ProcessSubcomponent) BusPrototype(org.osate.aadl2.BusPrototype) VirtualBusPrototype(org.osate.aadl2.VirtualBusPrototype) Realization(org.osate.aadl2.Realization) ThreadType(org.osate.aadl2.ThreadType) SubprogramType(org.osate.aadl2.SubprogramType) ThreadPrototype(org.osate.aadl2.ThreadPrototype) AbstractImplementation(org.osate.aadl2.AbstractImplementation) ModeBinding(org.osate.aadl2.ModeBinding) ContainedNamedElement(org.osate.aadl2.ContainedNamedElement) EndToEndFlowSegment(org.osate.aadl2.EndToEndFlowSegment) FlowSegment(org.osate.aadl2.FlowSegment) ThreadGroupPrototype(org.osate.aadl2.ThreadGroupPrototype) ComputedValue(org.osate.aadl2.ComputedValue) Action(org.eclipse.xtext.Action) FeatureGroup(org.osate.aadl2.FeatureGroup) MemoryImplementation(org.osate.aadl2.MemoryImplementation) BusType(org.osate.aadl2.BusType) VirtualBusType(org.osate.aadl2.VirtualBusType) VirtualProcessorType(org.osate.aadl2.VirtualProcessorType) ProcessorType(org.osate.aadl2.ProcessorType) BooleanLiteral(org.osate.aadl2.BooleanLiteral) PropertyAssociation(org.osate.aadl2.PropertyAssociation) BasicPropertyAssociation(org.osate.aadl2.BasicPropertyAssociation) AbstractSubcomponent(org.osate.aadl2.AbstractSubcomponent) FlowImplementation(org.osate.aadl2.FlowImplementation) FeatureGroupType(org.osate.aadl2.FeatureGroupType) VirtualBusImplementation(org.osate.aadl2.VirtualBusImplementation) Operation(org.osate.aadl2.Operation) FeaturePrototypeBinding(org.osate.aadl2.FeaturePrototypeBinding) ProcessorPrototype(org.osate.aadl2.ProcessorPrototype) VirtualProcessorPrototype(org.osate.aadl2.VirtualProcessorPrototype) EventDataSource(org.osate.aadl2.EventDataSource) SubprogramProxy(org.osate.aadl2.SubprogramProxy) RecordType(org.osate.aadl2.RecordType) GroupExtension(org.osate.aadl2.GroupExtension) AadlInteger(org.osate.aadl2.AadlInteger) UnitLiteral(org.osate.aadl2.UnitLiteral) ProcessorSubcomponent(org.osate.aadl2.ProcessorSubcomponent) VirtualProcessorSubcomponent(org.osate.aadl2.VirtualProcessorSubcomponent) MemorySubcomponent(org.osate.aadl2.MemorySubcomponent) MemoryType(org.osate.aadl2.MemoryType) AadlPackage(org.osate.aadl2.AadlPackage) VirtualBusSubcomponent(org.osate.aadl2.VirtualBusSubcomponent) VirtualProcessorSubcomponent(org.osate.aadl2.VirtualProcessorSubcomponent) Mode(org.osate.aadl2.Mode) ContainmentPathElement(org.osate.aadl2.ContainmentPathElement) EnumerationType(org.osate.aadl2.EnumerationType) RecordValue(org.osate.aadl2.RecordValue) DataImplementation(org.osate.aadl2.DataImplementation) SubprogramImplementation(org.osate.aadl2.SubprogramImplementation) TypeExtension(org.osate.aadl2.TypeExtension) PropertyConstant(org.osate.aadl2.PropertyConstant) PortSpecification(org.osate.aadl2.PortSpecification) AadlBoolean(org.osate.aadl2.AadlBoolean) SystemImplementation(org.osate.aadl2.SystemImplementation) AccessConnection(org.osate.aadl2.AccessConnection)

Aggregations

ProcessorType (org.osate.aadl2.ProcessorType)6 BusType (org.osate.aadl2.BusType)5 DeviceType (org.osate.aadl2.DeviceType)5 ProcessType (org.osate.aadl2.ProcessType)5 SubprogramType (org.osate.aadl2.SubprogramType)5 SystemType (org.osate.aadl2.SystemType)5 ThreadGroupType (org.osate.aadl2.ThreadGroupType)5 ThreadType (org.osate.aadl2.ThreadType)5 VirtualProcessorType (org.osate.aadl2.VirtualProcessorType)5 AbstractImplementation (org.osate.aadl2.AbstractImplementation)4 AbstractType (org.osate.aadl2.AbstractType)4 BusImplementation (org.osate.aadl2.BusImplementation)4 DeviceImplementation (org.osate.aadl2.DeviceImplementation)4 MemoryImplementation (org.osate.aadl2.MemoryImplementation)4 MemoryType (org.osate.aadl2.MemoryType)4 ProcessImplementation (org.osate.aadl2.ProcessImplementation)4 ProcessorImplementation (org.osate.aadl2.ProcessorImplementation)4 Property (org.osate.aadl2.Property)4 SubprogramImplementation (org.osate.aadl2.SubprogramImplementation)4 SystemImplementation (org.osate.aadl2.SystemImplementation)4