/** * Generated from platform:/resource/hu.bme.mit.inf.dslreasoner.domains.cps/src/hu/bme/mit/inf/dslreasoner/domains/cps/queries/CpsQueries.vql */ package hu.bme.mit.inf.dslreasoner.domains.cps.queries; import hu.bme.mit.inf.dslreasoner.domains.cps.ApplicationInstance; import hu.bme.mit.inf.dslreasoner.domains.cps.CyberPhysicalSystem; import java.util.Arrays; import java.util.Collection; import java.util.LinkedHashSet; import java.util.List; import java.util.Objects; import java.util.Optional; import java.util.Set; import java.util.function.Consumer; import java.util.stream.Collectors; import java.util.stream.Stream; import org.apache.log4j.Logger; import org.eclipse.emf.ecore.EClass; import org.eclipse.viatra.query.runtime.api.IPatternMatch; import org.eclipse.viatra.query.runtime.api.IQuerySpecification; import org.eclipse.viatra.query.runtime.api.ViatraQueryEngine; import org.eclipse.viatra.query.runtime.api.impl.BaseGeneratedEMFPQuery; import org.eclipse.viatra.query.runtime.api.impl.BaseGeneratedEMFQuerySpecification; import org.eclipse.viatra.query.runtime.api.impl.BaseMatcher; import org.eclipse.viatra.query.runtime.api.impl.BasePatternMatch; import org.eclipse.viatra.query.runtime.emf.types.EClassTransitiveInstancesKey; import org.eclipse.viatra.query.runtime.emf.types.EStructuralFeatureInstancesKey; import org.eclipse.viatra.query.runtime.matchers.backend.QueryEvaluationHint; import org.eclipse.viatra.query.runtime.matchers.psystem.PBody; import org.eclipse.viatra.query.runtime.matchers.psystem.PVariable; import org.eclipse.viatra.query.runtime.matchers.psystem.annotations.PAnnotation; import org.eclipse.viatra.query.runtime.matchers.psystem.basicdeferred.Equality; import org.eclipse.viatra.query.runtime.matchers.psystem.basicdeferred.ExportedParameter; import org.eclipse.viatra.query.runtime.matchers.psystem.basicenumerables.TypeConstraint; import org.eclipse.viatra.query.runtime.matchers.psystem.queries.PParameter; import org.eclipse.viatra.query.runtime.matchers.psystem.queries.PParameterDirection; import org.eclipse.viatra.query.runtime.matchers.psystem.queries.PVisibility; import org.eclipse.viatra.query.runtime.matchers.tuple.Tuple; import org.eclipse.viatra.query.runtime.matchers.tuple.Tuples; import org.eclipse.viatra.query.runtime.util.ViatraQueryLoggingUtil; /** * A pattern-specific query specification that can instantiate Matcher in a type-safe way. * *

Original source: * 

 *         {@literal @}QueryBasedFeature(feature = "applications")
 *         pattern cpsApplications(Cps : CyberPhysicalSystem, AppInstance : ApplicationInstance) {
 *         	CyberPhysicalSystem.applicationTypes.instances(Cps, AppInstance);
 *         }
 *
* * @see Matcher * @see Match * */ @SuppressWarnings("all") public final class CpsApplications extends BaseGeneratedEMFQuerySpecification { /** * Pattern-specific match representation of the hu.bme.mit.inf.dslreasoner.domains.cps.queries.cpsApplications pattern, * to be used in conjunction with {@link Matcher}. * *

Class fields correspond to parameters of the pattern. Fields with value null are considered unassigned. * Each instance is a (possibly partial) substitution of pattern parameters, * usable to represent a match of the pattern in the result of a query, * or to specify the bound (fixed) input parameters when issuing a query. * * @see Matcher * */ public static abstract class Match extends BasePatternMatch { private CyberPhysicalSystem fCps; private ApplicationInstance fAppInstance; private static List parameterNames = makeImmutableList("Cps", "AppInstance"); private Match(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { this.fCps = pCps; this.fAppInstance = pAppInstance; } @Override public Object get(final String parameterName) { if ("Cps".equals(parameterName)) return this.fCps; if ("AppInstance".equals(parameterName)) return this.fAppInstance; return null; } public CyberPhysicalSystem getCps() { return this.fCps; } public ApplicationInstance getAppInstance() { return this.fAppInstance; } @Override public boolean set(final String parameterName, final Object newValue) { if (!isMutable()) throw new java.lang.UnsupportedOperationException(); if ("Cps".equals(parameterName) ) { this.fCps = (CyberPhysicalSystem) newValue; return true; } if ("AppInstance".equals(parameterName) ) { this.fAppInstance = (ApplicationInstance) newValue; return true; } return false; } public void setCps(final CyberPhysicalSystem pCps) { if (!isMutable()) throw new java.lang.UnsupportedOperationException(); this.fCps = pCps; } public void setAppInstance(final ApplicationInstance pAppInstance) { if (!isMutable()) throw new java.lang.UnsupportedOperationException(); this.fAppInstance = pAppInstance; } @Override public String patternName() { return "hu.bme.mit.inf.dslreasoner.domains.cps.queries.cpsApplications"; } @Override public List parameterNames() { return CpsApplications.Match.parameterNames; } @Override public Object[] toArray() { return new Object[]{fCps, fAppInstance}; } @Override public CpsApplications.Match toImmutable() { return isMutable() ? newMatch(fCps, fAppInstance) : this; } @Override public String prettyPrint() { StringBuilder result = new StringBuilder(); result.append("\"Cps\"=" + prettyPrintValue(fCps) + ", "); result.append("\"AppInstance\"=" + prettyPrintValue(fAppInstance)); return result.toString(); } @Override public int hashCode() { return Objects.hash(fCps, fAppInstance); } @Override public boolean equals(final Object obj) { if (this == obj) return true; if (obj == null) { return false; } if ((obj instanceof CpsApplications.Match)) { CpsApplications.Match other = (CpsApplications.Match) obj; return Objects.equals(fCps, other.fCps) && Objects.equals(fAppInstance, other.fAppInstance); } else { // this should be infrequent if (!(obj instanceof IPatternMatch)) { return false; } IPatternMatch otherSig = (IPatternMatch) obj; return Objects.equals(specification(), otherSig.specification()) && Arrays.deepEquals(toArray(), otherSig.toArray()); } } @Override public CpsApplications specification() { return CpsApplications.instance(); } /** * Returns an empty, mutable match. * Fields of the mutable match can be filled to create a partial match, usable as matcher input. * * @return the empty match. * */ public static CpsApplications.Match newEmptyMatch() { return new Mutable(null, null); } /** * Returns a mutable (partial) match. * Fields of the mutable match can be filled to create a partial match, usable as matcher input. * * @param pCps the fixed value of pattern parameter Cps, or null if not bound. * @param pAppInstance the fixed value of pattern parameter AppInstance, or null if not bound. * @return the new, mutable (partial) match object. * */ public static CpsApplications.Match newMutableMatch(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { return new Mutable(pCps, pAppInstance); } /** * Returns a new (partial) match. * This can be used e.g. to call the matcher with a partial match. *

The returned match will be immutable. Use {@link #newEmptyMatch()} to obtain a mutable match object. * @param pCps the fixed value of pattern parameter Cps, or null if not bound. * @param pAppInstance the fixed value of pattern parameter AppInstance, or null if not bound. * @return the (partial) match object. * */ public static CpsApplications.Match newMatch(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { return new Immutable(pCps, pAppInstance); } private static final class Mutable extends CpsApplications.Match { Mutable(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { super(pCps, pAppInstance); } @Override public boolean isMutable() { return true; } } private static final class Immutable extends CpsApplications.Match { Immutable(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { super(pCps, pAppInstance); } @Override public boolean isMutable() { return false; } } } /** * Generated pattern matcher API of the hu.bme.mit.inf.dslreasoner.domains.cps.queries.cpsApplications pattern, * providing pattern-specific query methods. * *

Use the pattern matcher on a given model via {@link #on(ViatraQueryEngine)}, * e.g. in conjunction with {@link ViatraQueryEngine#on(QueryScope)}. * *

Matches of the pattern will be represented as {@link Match}. * *

Original source: * 

   * {@literal @}QueryBasedFeature(feature = "applications")
   * pattern cpsApplications(Cps : CyberPhysicalSystem, AppInstance : ApplicationInstance) {
   * 	CyberPhysicalSystem.applicationTypes.instances(Cps, AppInstance);
   * }
   *
* * @see Match * @see CpsApplications * */ public static class Matcher extends BaseMatcher { /** * Initializes the pattern matcher within an existing VIATRA Query engine. * If the pattern matcher is already constructed in the engine, only a light-weight reference is returned. * * @param engine the existing VIATRA Query engine in which this matcher will be created. * @throws ViatraQueryRuntimeException if an error occurs during pattern matcher creation * */ public static CpsApplications.Matcher on(final ViatraQueryEngine engine) { // check if matcher already exists Matcher matcher = engine.getExistingMatcher(querySpecification()); if (matcher == null) { matcher = (Matcher)engine.getMatcher(querySpecification()); } return matcher; } /** * @throws ViatraQueryRuntimeException if an error occurs during pattern matcher creation * @return an initialized matcher * @noreference This method is for internal matcher initialization by the framework, do not call it manually. * */ public static CpsApplications.Matcher create() { return new Matcher(); } private static final int POSITION_CPS = 0; private static final int POSITION_APPINSTANCE = 1; private static final Logger LOGGER = ViatraQueryLoggingUtil.getLogger(CpsApplications.Matcher.class); /** * Initializes the pattern matcher within an existing VIATRA Query engine. * If the pattern matcher is already constructed in the engine, only a light-weight reference is returned. * * @param engine the existing VIATRA Query engine in which this matcher will be created. * @throws ViatraQueryRuntimeException if an error occurs during pattern matcher creation * */ private Matcher() { super(querySpecification()); } /** * Returns the set of all matches of the pattern that conform to the given fixed values of some parameters. * @param pCps the fixed value of pattern parameter Cps, or null if not bound. * @param pAppInstance the fixed value of pattern parameter AppInstance, or null if not bound. * @return matches represented as a Match object. * */ public Collection getAllMatches(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { return rawStreamAllMatches(new Object[]{pCps, pAppInstance}).collect(Collectors.toSet()); } /** * Returns a stream of all matches of the pattern that conform to the given fixed values of some parameters. *

* NOTE: It is important not to modify the source model while the stream is being processed. * If the match set of the pattern changes during processing, the contents of the stream is undefined. * In such cases, either rely on {@link #getAllMatches()} or collect the results of the stream in end-user code. * @param pCps the fixed value of pattern parameter Cps, or null if not bound. * @param pAppInstance the fixed value of pattern parameter AppInstance, or null if not bound. * @return a stream of matches represented as a Match object. * */ public Stream streamAllMatches(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { return rawStreamAllMatches(new Object[]{pCps, pAppInstance}); } /** * Returns an arbitrarily chosen match of the pattern that conforms to the given fixed values of some parameters. * Neither determinism nor randomness of selection is guaranteed. * @param pCps the fixed value of pattern parameter Cps, or null if not bound. * @param pAppInstance the fixed value of pattern parameter AppInstance, or null if not bound. * @return a match represented as a Match object, or null if no match is found. * */ public Optional getOneArbitraryMatch(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { return rawGetOneArbitraryMatch(new Object[]{pCps, pAppInstance}); } /** * Indicates whether the given combination of specified pattern parameters constitute a valid pattern match, * under any possible substitution of the unspecified parameters (if any). * @param pCps the fixed value of pattern parameter Cps, or null if not bound. * @param pAppInstance the fixed value of pattern parameter AppInstance, or null if not bound. * @return true if the input is a valid (partial) match of the pattern. * */ public boolean hasMatch(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { return rawHasMatch(new Object[]{pCps, pAppInstance}); } /** * Returns the number of all matches of the pattern that conform to the given fixed values of some parameters. * @param pCps the fixed value of pattern parameter Cps, or null if not bound. * @param pAppInstance the fixed value of pattern parameter AppInstance, or null if not bound. * @return the number of pattern matches found. * */ public int countMatches(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { return rawCountMatches(new Object[]{pCps, pAppInstance}); } /** * Executes the given processor on an arbitrarily chosen match of the pattern that conforms to the given fixed values of some parameters. * Neither determinism nor randomness of selection is guaranteed. * @param pCps the fixed value of pattern parameter Cps, or null if not bound. * @param pAppInstance the fixed value of pattern parameter AppInstance, or null if not bound. * @param processor the action that will process the selected match. * @return true if the pattern has at least one match with the given parameter values, false if the processor was not invoked * */ public boolean forOneArbitraryMatch(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance, final Consumer processor) { return rawForOneArbitraryMatch(new Object[]{pCps, pAppInstance}, processor); } /** * Returns a new (partial) match. * This can be used e.g. to call the matcher with a partial match. *

The returned match will be immutable. Use {@link #newEmptyMatch()} to obtain a mutable match object. * @param pCps the fixed value of pattern parameter Cps, or null if not bound. * @param pAppInstance the fixed value of pattern parameter AppInstance, or null if not bound. * @return the (partial) match object. * */ public CpsApplications.Match newMatch(final CyberPhysicalSystem pCps, final ApplicationInstance pAppInstance) { return CpsApplications.Match.newMatch(pCps, pAppInstance); } /** * Retrieve the set of values that occur in matches for Cps. * @return the Set of all values or empty set if there are no matches * */ protected Stream rawStreamAllValuesOfCps(final Object[] parameters) { return rawStreamAllValues(POSITION_CPS, parameters).map(CyberPhysicalSystem.class::cast); } /** * Retrieve the set of values that occur in matches for Cps. * @return the Set of all values or empty set if there are no matches * */ public Set getAllValuesOfCps() { return rawStreamAllValuesOfCps(emptyArray()).collect(Collectors.toSet()); } /** * Retrieve the set of values that occur in matches for Cps. * @return the Set of all values or empty set if there are no matches * */ public Stream streamAllValuesOfCps() { return rawStreamAllValuesOfCps(emptyArray()); } /** * Retrieve the set of values that occur in matches for Cps. *

* NOTE: It is important not to modify the source model while the stream is being processed. * If the match set of the pattern changes during processing, the contents of the stream is undefined. * In such cases, either rely on {@link #getAllMatches()} or collect the results of the stream in end-user code. * * @return the Stream of all values or empty set if there are no matches * */ public Stream streamAllValuesOfCps(final CpsApplications.Match partialMatch) { return rawStreamAllValuesOfCps(partialMatch.toArray()); } /** * Retrieve the set of values that occur in matches for Cps. *

* NOTE: It is important not to modify the source model while the stream is being processed. * If the match set of the pattern changes during processing, the contents of the stream is undefined. * In such cases, either rely on {@link #getAllMatches()} or collect the results of the stream in end-user code. * * @return the Stream of all values or empty set if there are no matches * */ public Stream streamAllValuesOfCps(final ApplicationInstance pAppInstance) { return rawStreamAllValuesOfCps(new Object[]{null, pAppInstance}); } /** * Retrieve the set of values that occur in matches for Cps. * @return the Set of all values or empty set if there are no matches * */ public Set getAllValuesOfCps(final CpsApplications.Match partialMatch) { return rawStreamAllValuesOfCps(partialMatch.toArray()).collect(Collectors.toSet()); } /** * Retrieve the set of values that occur in matches for Cps. * @return the Set of all values or empty set if there are no matches * */ public Set getAllValuesOfCps(final ApplicationInstance pAppInstance) { return rawStreamAllValuesOfCps(new Object[]{null, pAppInstance}).collect(Collectors.toSet()); } /** * Retrieve the set of values that occur in matches for AppInstance. * @return the Set of all values or empty set if there are no matches * */ protected Stream rawStreamAllValuesOfAppInstance(final Object[] parameters) { return rawStreamAllValues(POSITION_APPINSTANCE, parameters).map(ApplicationInstance.class::cast); } /** * Retrieve the set of values that occur in matches for AppInstance. * @return the Set of all values or empty set if there are no matches * */ public Set getAllValuesOfAppInstance() { return rawStreamAllValuesOfAppInstance(emptyArray()).collect(Collectors.toSet()); } /** * Retrieve the set of values that occur in matches for AppInstance. * @return the Set of all values or empty set if there are no matches * */ public Stream streamAllValuesOfAppInstance() { return rawStreamAllValuesOfAppInstance(emptyArray()); } /** * Retrieve the set of values that occur in matches for AppInstance. *

* NOTE: It is important not to modify the source model while the stream is being processed. * If the match set of the pattern changes during processing, the contents of the stream is undefined. * In such cases, either rely on {@link #getAllMatches()} or collect the results of the stream in end-user code. * * @return the Stream of all values or empty set if there are no matches * */ public Stream streamAllValuesOfAppInstance(final CpsApplications.Match partialMatch) { return rawStreamAllValuesOfAppInstance(partialMatch.toArray()); } /** * Retrieve the set of values that occur in matches for AppInstance. *

* NOTE: It is important not to modify the source model while the stream is being processed. * If the match set of the pattern changes during processing, the contents of the stream is undefined. * In such cases, either rely on {@link #getAllMatches()} or collect the results of the stream in end-user code. * * @return the Stream of all values or empty set if there are no matches * */ public Stream streamAllValuesOfAppInstance(final CyberPhysicalSystem pCps) { return rawStreamAllValuesOfAppInstance(new Object[]{pCps, null}); } /** * Retrieve the set of values that occur in matches for AppInstance. * @return the Set of all values or empty set if there are no matches * */ public Set getAllValuesOfAppInstance(final CpsApplications.Match partialMatch) { return rawStreamAllValuesOfAppInstance(partialMatch.toArray()).collect(Collectors.toSet()); } /** * Retrieve the set of values that occur in matches for AppInstance. * @return the Set of all values or empty set if there are no matches * */ public Set getAllValuesOfAppInstance(final CyberPhysicalSystem pCps) { return rawStreamAllValuesOfAppInstance(new Object[]{pCps, null}).collect(Collectors.toSet()); } @Override protected CpsApplications.Match tupleToMatch(final Tuple t) { try { return CpsApplications.Match.newMatch((CyberPhysicalSystem) t.get(POSITION_CPS), (ApplicationInstance) t.get(POSITION_APPINSTANCE)); } catch(ClassCastException e) { LOGGER.error("Element(s) in tuple not properly typed!",e); return null; } } @Override protected CpsApplications.Match arrayToMatch(final Object[] match) { try { return CpsApplications.Match.newMatch((CyberPhysicalSystem) match[POSITION_CPS], (ApplicationInstance) match[POSITION_APPINSTANCE]); } catch(ClassCastException e) { LOGGER.error("Element(s) in array not properly typed!",e); return null; } } @Override protected CpsApplications.Match arrayToMatchMutable(final Object[] match) { try { return CpsApplications.Match.newMutableMatch((CyberPhysicalSystem) match[POSITION_CPS], (ApplicationInstance) match[POSITION_APPINSTANCE]); } catch(ClassCastException e) { LOGGER.error("Element(s) in array not properly typed!",e); return null; } } /** * @return the singleton instance of the query specification of this pattern * @throws ViatraQueryRuntimeException if the pattern definition could not be loaded * */ public static IQuerySpecification querySpecification() { return CpsApplications.instance(); } } private CpsApplications() { super(GeneratedPQuery.INSTANCE); } /** * @return the singleton instance of the query specification * @throws ViatraQueryRuntimeException if the pattern definition could not be loaded * */ public static CpsApplications instance() { try{ return LazyHolder.INSTANCE; } catch (ExceptionInInitializerError err) { throw processInitializerError(err); } } @Override protected CpsApplications.Matcher instantiate(final ViatraQueryEngine engine) { return CpsApplications.Matcher.on(engine); } @Override public CpsApplications.Matcher instantiate() { return CpsApplications.Matcher.create(); } @Override public CpsApplications.Match newEmptyMatch() { return CpsApplications.Match.newEmptyMatch(); } @Override public CpsApplications.Match newMatch(final Object... parameters) { return CpsApplications.Match.newMatch((hu.bme.mit.inf.dslreasoner.domains.cps.CyberPhysicalSystem) parameters[0], (hu.bme.mit.inf.dslreasoner.domains.cps.ApplicationInstance) parameters[1]); } /** * Inner class allowing the singleton instance of {@link JvmGenericType: hu.bme.mit.inf.dslreasoner.domains.cps.queries.CpsApplications (visibility: PUBLIC, simpleName: CpsApplications, identifier: hu.bme.mit.inf.dslreasoner.domains.cps.queries.CpsApplications, deprecated: ) (abstract: false, static: false, final: true, packageName: hu.bme.mit.inf.dslreasoner.domains.cps.queries) (interface: false, strictFloatingPoint: false, anonymous: false)} to be created * not at the class load time of the outer class, * but rather at the first call to {@link JvmGenericType: hu.bme.mit.inf.dslreasoner.domains.cps.queries.CpsApplications (visibility: PUBLIC, simpleName: CpsApplications, identifier: hu.bme.mit.inf.dslreasoner.domains.cps.queries.CpsApplications, deprecated: ) (abstract: false, static: false, final: true, packageName: hu.bme.mit.inf.dslreasoner.domains.cps.queries) (interface: false, strictFloatingPoint: false, anonymous: false)#instance()}. * *

This workaround is required e.g. to support recursion. * */ private static class LazyHolder { private static final CpsApplications INSTANCE = new CpsApplications(); /** * Statically initializes the query specification after the field {@link #INSTANCE} is assigned. * This initialization order is required to support indirect recursion. * *

The static initializer is defined using a helper field to work around limitations of the code generator. * */ private static final Object STATIC_INITIALIZER = ensureInitialized(); public static Object ensureInitialized() { INSTANCE.ensureInitializedInternal(); return null; } } private static class GeneratedPQuery extends BaseGeneratedEMFPQuery { private static final CpsApplications.GeneratedPQuery INSTANCE = new GeneratedPQuery(); private final PParameter parameter_Cps = new PParameter("Cps", "hu.bme.mit.inf.dslreasoner.domains.cps.CyberPhysicalSystem", new EClassTransitiveInstancesKey((EClass)getClassifierLiteralSafe("http://www.example.org/cps", "CyberPhysicalSystem")), PParameterDirection.INOUT); private final PParameter parameter_AppInstance = new PParameter("AppInstance", "hu.bme.mit.inf.dslreasoner.domains.cps.ApplicationInstance", new EClassTransitiveInstancesKey((EClass)getClassifierLiteralSafe("http://www.example.org/cps", "ApplicationInstance")), PParameterDirection.INOUT); private final List parameters = Arrays.asList(parameter_Cps, parameter_AppInstance); private GeneratedPQuery() { super(PVisibility.PUBLIC); } @Override public String getFullyQualifiedName() { return "hu.bme.mit.inf.dslreasoner.domains.cps.queries.cpsApplications"; } @Override public List getParameterNames() { return Arrays.asList("Cps","AppInstance"); } @Override public List getParameters() { return parameters; } @Override public Set doGetContainedBodies() { setEvaluationHints(new QueryEvaluationHint(null, QueryEvaluationHint.BackendRequirement.UNSPECIFIED)); Set bodies = new LinkedHashSet<>(); { PBody body = new PBody(this); PVariable var_Cps = body.getOrCreateVariableByName("Cps"); PVariable var_AppInstance = body.getOrCreateVariableByName("AppInstance"); new TypeConstraint(body, Tuples.flatTupleOf(var_Cps), new EClassTransitiveInstancesKey((EClass)getClassifierLiteral("http://www.example.org/cps", "CyberPhysicalSystem"))); new TypeConstraint(body, Tuples.flatTupleOf(var_AppInstance), new EClassTransitiveInstancesKey((EClass)getClassifierLiteral("http://www.example.org/cps", "ApplicationInstance"))); body.setSymbolicParameters(Arrays.asList( new ExportedParameter(body, var_Cps, parameter_Cps), new ExportedParameter(body, var_AppInstance, parameter_AppInstance) )); // CyberPhysicalSystem.applicationTypes.instances(Cps, AppInstance) new TypeConstraint(body, Tuples.flatTupleOf(var_Cps), new EClassTransitiveInstancesKey((EClass)getClassifierLiteral("http://www.example.org/cps", "CyberPhysicalSystem"))); PVariable var__virtual_0_ = body.getOrCreateVariableByName(".virtual{0}"); new TypeConstraint(body, Tuples.flatTupleOf(var_Cps, var__virtual_0_), new EStructuralFeatureInstancesKey(getFeatureLiteral("http://www.example.org/cps", "CyberPhysicalSystem", "applicationTypes"))); new TypeConstraint(body, Tuples.flatTupleOf(var__virtual_0_), new EClassTransitiveInstancesKey((EClass)getClassifierLiteral("http://www.example.org/cps", "ApplicationType"))); PVariable var__virtual_1_ = body.getOrCreateVariableByName(".virtual{1}"); new TypeConstraint(body, Tuples.flatTupleOf(var__virtual_0_, var__virtual_1_), new EStructuralFeatureInstancesKey(getFeatureLiteral("http://www.example.org/cps", "ApplicationType", "instances"))); new TypeConstraint(body, Tuples.flatTupleOf(var__virtual_1_), new EClassTransitiveInstancesKey((EClass)getClassifierLiteral("http://www.example.org/cps", "ApplicationInstance"))); new Equality(body, var__virtual_1_, var_AppInstance); bodies.add(body); } { PAnnotation annotation = new PAnnotation("QueryBasedFeature"); annotation.addAttribute("feature", "applications"); addAnnotation(annotation); } return bodies; } } }