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eclipse / uml2 / org.eclipse.uml2 / b714c1482b70e653332afec22397e832db0a702e / . / plugins / org.eclipse.uml2.uml / src / org / eclipse / uml2 / uml / internal / impl / ConditionalNodeImpl.java
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/*
* Copyright (c) 2005, 2012 IBM Corporation, Embarcadero Technologies, CEA, and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* IBM - initial API and implementation
* Kenn Hussey (Embarcadero Technologies) - 204200
* Kenn Hussey - 286329, 323181
* Kenn Hussey (CEA) - 327039, 351774, 397139
*
*/
package org.eclipse.uml2.uml.internal.impl;
import java.lang.reflect.InvocationTargetException;
import java.util.Collection;
import java.util.Map;
import org.eclipse.emf.common.notify.Notification;
import org.eclipse.emf.common.notify.NotificationChain;
import org.eclipse.emf.common.util.DiagnosticChain;
import org.eclipse.emf.common.util.EList;
import org.eclipse.emf.ecore.EAnnotation;
import org.eclipse.emf.ecore.EClass;
import org.eclipse.emf.ecore.InternalEObject;
import org.eclipse.emf.ecore.impl.ENotificationImpl;
import org.eclipse.emf.ecore.resource.Resource;
import org.eclipse.emf.ecore.util.EObjectContainmentEList;
import org.eclipse.emf.ecore.util.InternalEList;
import org.eclipse.uml2.common.util.CacheAdapter;
import org.eclipse.uml2.common.util.DerivedUnionEObjectEList;
import org.eclipse.uml2.uml.Activity;
import org.eclipse.uml2.uml.ActivityEdge;
import org.eclipse.uml2.uml.ActivityNode;
import org.eclipse.uml2.uml.ActivityPartition;
import org.eclipse.uml2.uml.Clause;
import org.eclipse.uml2.uml.Comment;
import org.eclipse.uml2.uml.ConditionalNode;
import org.eclipse.uml2.uml.Constraint;
import org.eclipse.uml2.uml.Dependency;
import org.eclipse.uml2.uml.Element;
import org.eclipse.uml2.uml.ElementImport;
import org.eclipse.uml2.uml.ExceptionHandler;
import org.eclipse.uml2.uml.InputPin;
import org.eclipse.uml2.uml.InterruptibleActivityRegion;
import org.eclipse.uml2.uml.NamedElement;
import org.eclipse.uml2.uml.Namespace;
import org.eclipse.uml2.uml.OutputPin;
import org.eclipse.uml2.uml.PackageImport;
import org.eclipse.uml2.uml.PackageableElement;
import org.eclipse.uml2.uml.RedefinableElement;
import org.eclipse.uml2.uml.Stereotype;
import org.eclipse.uml2.uml.StringExpression;
import org.eclipse.uml2.uml.StructuredActivityNode;
import org.eclipse.uml2.uml.Type;
import org.eclipse.uml2.uml.UMLPackage;
import org.eclipse.uml2.uml.Variable;
import org.eclipse.uml2.uml.VisibilityKind;
import org.eclipse.uml2.uml.internal.operations.ConditionalNodeOperations;
/**
* <!-- begin-user-doc -->
* An implementation of the model object '<em><b>Conditional Node</b></em>'.
* <!-- end-user-doc -->
* <p>
* The following features are implemented:
* <ul>
* <li>{@link org.eclipse.uml2.uml.internal.impl.ConditionalNodeImpl#getOwnedElements <em>Owned Element</em>}</li>
* <li>{@link org.eclipse.uml2.uml.internal.impl.ConditionalNodeImpl#getClauses <em>Clause</em>}</li>
* <li>{@link org.eclipse.uml2.uml.internal.impl.ConditionalNodeImpl#isAssured <em>Is Assured</em>}</li>
* <li>{@link org.eclipse.uml2.uml.internal.impl.ConditionalNodeImpl#isDeterminate <em>Is Determinate</em>}</li>
* <li>{@link org.eclipse.uml2.uml.internal.impl.ConditionalNodeImpl#getResults <em>Result</em>}</li>
* </ul>
* </p>
*
* @generated
*/
public class ConditionalNodeImpl
extends StructuredActivityNodeImpl
implements ConditionalNode {
/**
* The cached value of the '{@link #getClauses() <em>Clause</em>}' containment reference list.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @see #getClauses()
* @generated
* @ordered
*/
protected EList<Clause> clauses;
/**
* The default value of the '{@link #isAssured() <em>Is Assured</em>}' attribute.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @see #isAssured()
* @generated
* @ordered
*/
protected static final boolean IS_ASSURED_EDEFAULT = false;
/**
* The flag representing the value of the '{@link #isAssured() <em>Is Assured</em>}' attribute.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @see #isAssured()
* @generated
* @ordered
*/
protected static final int IS_ASSURED_EFLAG = 1 << 15;
/**
* The default value of the '{@link #isDeterminate() <em>Is Determinate</em>}' attribute.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @see #isDeterminate()
* @generated
* @ordered
*/
protected static final boolean IS_DETERMINATE_EDEFAULT = false;
/**
* The flag representing the value of the '{@link #isDeterminate() <em>Is Determinate</em>}' attribute.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @see #isDeterminate()
* @generated
* @ordered
*/
protected static final int IS_DETERMINATE_EFLAG = 1 << 16;
/**
* The cached value of the '{@link #getResults() <em>Result</em>}' containment reference list.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @see #getResults()
* @generated
* @ordered
*/
protected EList<OutputPin> results;
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
protected ConditionalNodeImpl() {
super();
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
protected EClass eStaticClass() {
return UMLPackage.Literals.CONDITIONAL_NODE;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public EList<Element> getOwnedElements() {
CacheAdapter cache = getCacheAdapter();
if (cache != null) {
Resource eResource = eResource();
@SuppressWarnings("unchecked")
EList<Element> ownedElements = (EList<Element>) cache.get(
eResource, this, UMLPackage.Literals.ELEMENT__OWNED_ELEMENT);
if (ownedElements == null) {
cache.put(eResource, this,
UMLPackage.Literals.ELEMENT__OWNED_ELEMENT,
ownedElements = new DerivedUnionEObjectEList<Element>(
Element.class, this,
UMLPackage.CONDITIONAL_NODE__OWNED_ELEMENT,
OWNED_ELEMENT_ESUBSETS));
}
return ownedElements;
}
return new DerivedUnionEObjectEList<Element>(Element.class, this,
UMLPackage.CONDITIONAL_NODE__OWNED_ELEMENT, OWNED_ELEMENT_ESUBSETS);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean isDeterminate() {
return (eFlags & IS_DETERMINATE_EFLAG) != 0;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public void setIsDeterminate(boolean newIsDeterminate) {
boolean oldIsDeterminate = (eFlags & IS_DETERMINATE_EFLAG) != 0;
if (newIsDeterminate)
eFlags |= IS_DETERMINATE_EFLAG;
else
eFlags &= ~IS_DETERMINATE_EFLAG;
if (eNotificationRequired())
eNotify(new ENotificationImpl(this, Notification.SET,
UMLPackage.CONDITIONAL_NODE__IS_DETERMINATE, oldIsDeterminate,
newIsDeterminate));
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean isAssured() {
return (eFlags & IS_ASSURED_EFLAG) != 0;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public void setIsAssured(boolean newIsAssured) {
boolean oldIsAssured = (eFlags & IS_ASSURED_EFLAG) != 0;
if (newIsAssured)
eFlags |= IS_ASSURED_EFLAG;
else
eFlags &= ~IS_ASSURED_EFLAG;
if (eNotificationRequired())
eNotify(new ENotificationImpl(this, Notification.SET,
UMLPackage.CONDITIONAL_NODE__IS_ASSURED, oldIsAssured,
newIsAssured));
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public EList<Clause> getClauses() {
if (clauses == null) {
clauses = new EObjectContainmentEList.Resolving<Clause>(
Clause.class, this, UMLPackage.CONDITIONAL_NODE__CLAUSE);
}
return clauses;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public Clause createClause() {
Clause newClause = (Clause) create(UMLPackage.Literals.CLAUSE);
getClauses().add(newClause);
return newClause;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public EList<OutputPin> getResults() {
if (results == null) {
results = new EObjectContainmentEList.Resolving<OutputPin>(
OutputPin.class, this, UMLPackage.CONDITIONAL_NODE__RESULT);
}
return results;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public OutputPin createResult(String name, Type type) {
OutputPin newResult = (OutputPin) create(UMLPackage.Literals.OUTPUT_PIN);
getResults().add(newResult);
if (name != null)
newResult.setName(name);
if (type != null)
newResult.setType(type);
return newResult;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public OutputPin getResult(String name, Type type) {
return getResult(name, type, false, false);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public OutputPin getResult(String name, Type type, boolean ignoreCase,
boolean createOnDemand) {
resultLoop : for (OutputPin result : getResults()) {
if (name != null && !(ignoreCase
? name.equalsIgnoreCase(result.getName())
: name.equals(result.getName())))
continue resultLoop;
if (type != null && !type.equals(result.getType()))
continue resultLoop;
return result;
}
return createOnDemand
? createResult(name, type)
: null;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean isSetResults() {
return results != null && !results.isEmpty();
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean validateResultNoIncoming(DiagnosticChain diagnostics,
Map<Object, Object> context) {
return ConditionalNodeOperations.validateResultNoIncoming(this,
diagnostics, context);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean validateNoInputPins(DiagnosticChain diagnostics,
Map<Object, Object> context) {
return ConditionalNodeOperations.validateNoInputPins(this, diagnostics,
context);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean validateOneClauseWithExecutableNode(
DiagnosticChain diagnostics, Map<Object, Object> context) {
return ConditionalNodeOperations.validateOneClauseWithExecutableNode(
this, diagnostics, context);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean validateMatchingOutputPins(DiagnosticChain diagnostics,
Map<Object, Object> context) {
return ConditionalNodeOperations.validateMatchingOutputPins(this,
diagnostics, context);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean validateExecutableNodes(DiagnosticChain diagnostics,
Map<Object, Object> context) {
return ConditionalNodeOperations.validateExecutableNodes(this,
diagnostics, context);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean validateClauseNoPredecessor(DiagnosticChain diagnostics,
Map<Object, Object> context) {
return ConditionalNodeOperations.validateClauseNoPredecessor(this,
diagnostics, context);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public NotificationChain eInverseRemove(InternalEObject otherEnd,
int featureID, NotificationChain msgs) {
switch (featureID) {
case UMLPackage.CONDITIONAL_NODE__EANNOTATIONS :
return ((InternalEList<?>) getEAnnotations()).basicRemove(
otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__OWNED_COMMENT :
return ((InternalEList<?>) getOwnedComments()).basicRemove(
otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__CLIENT_DEPENDENCY :
return ((InternalEList<?>) getClientDependencies())
.basicRemove(otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__NAME_EXPRESSION :
return basicSetNameExpression(null, msgs);
case UMLPackage.CONDITIONAL_NODE__IN_PARTITION :
return ((InternalEList<?>) getInPartitions()).basicRemove(
otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__IN_STRUCTURED_NODE :
return basicSetInStructuredNode(null, msgs);
case UMLPackage.CONDITIONAL_NODE__IN_INTERRUPTIBLE_REGION :
return ((InternalEList<?>) getInInterruptibleRegions())
.basicRemove(otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__OUTGOING :
return ((InternalEList<?>) getOutgoings()).basicRemove(
otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__INCOMING :
return ((InternalEList<?>) getIncomings()).basicRemove(
otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__HANDLER :
return ((InternalEList<?>) getHandlers()).basicRemove(otherEnd,
msgs);
case UMLPackage.CONDITIONAL_NODE__LOCAL_POSTCONDITION :
return ((InternalEList<?>) getLocalPostconditions())
.basicRemove(otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__LOCAL_PRECONDITION :
return ((InternalEList<?>) getLocalPreconditions())
.basicRemove(otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__ELEMENT_IMPORT :
return ((InternalEList<?>) getElementImports()).basicRemove(
otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__PACKAGE_IMPORT :
return ((InternalEList<?>) getPackageImports()).basicRemove(
otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__OWNED_RULE :
return ((InternalEList<?>) getOwnedRules()).basicRemove(
otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__NODE :
return ((InternalEList<?>) getNodes()).basicRemove(otherEnd,
msgs);
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_INPUT :
return ((InternalEList<?>) getStructuredNodeInputs())
.basicRemove(otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_OUTPUT :
return ((InternalEList<?>) getStructuredNodeOutputs())
.basicRemove(otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__VARIABLE :
return ((InternalEList<?>) getVariables()).basicRemove(
otherEnd, msgs);
case UMLPackage.CONDITIONAL_NODE__EDGE :
return ((InternalEList<?>) getEdges()).basicRemove(otherEnd,
msgs);
case UMLPackage.CONDITIONAL_NODE__CLAUSE :
return ((InternalEList<?>) getClauses()).basicRemove(otherEnd,
msgs);
case UMLPackage.CONDITIONAL_NODE__RESULT :
return ((InternalEList<?>) getResults()).basicRemove(otherEnd,
msgs);
}
return eDynamicInverseRemove(otherEnd, featureID, msgs);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public Object eGet(int featureID, boolean resolve, boolean coreType) {
switch (featureID) {
case UMLPackage.CONDITIONAL_NODE__EANNOTATIONS :
return getEAnnotations();
case UMLPackage.CONDITIONAL_NODE__OWNED_COMMENT :
return getOwnedComments();
case UMLPackage.CONDITIONAL_NODE__OWNED_ELEMENT :
return getOwnedElements();
case UMLPackage.CONDITIONAL_NODE__OWNER :
if (resolve)
return getOwner();
return basicGetOwner();
case UMLPackage.CONDITIONAL_NODE__CLIENT_DEPENDENCY :
return getClientDependencies();
case UMLPackage.CONDITIONAL_NODE__NAME :
return getName();
case UMLPackage.CONDITIONAL_NODE__NAME_EXPRESSION :
if (resolve)
return getNameExpression();
return basicGetNameExpression();
case UMLPackage.CONDITIONAL_NODE__NAMESPACE :
if (resolve)
return getNamespace();
return basicGetNamespace();
case UMLPackage.CONDITIONAL_NODE__QUALIFIED_NAME :
return getQualifiedName();
case UMLPackage.CONDITIONAL_NODE__VISIBILITY :
return getVisibility();
case UMLPackage.CONDITIONAL_NODE__IS_LEAF :
return isLeaf();
case UMLPackage.CONDITIONAL_NODE__REDEFINED_ELEMENT :
return getRedefinedElements();
case UMLPackage.CONDITIONAL_NODE__REDEFINITION_CONTEXT :
return getRedefinitionContexts();
case UMLPackage.CONDITIONAL_NODE__ACTIVITY :
if (resolve)
return getActivity();
return basicGetActivity();
case UMLPackage.CONDITIONAL_NODE__IN_PARTITION :
return getInPartitions();
case UMLPackage.CONDITIONAL_NODE__IN_STRUCTURED_NODE :
if (resolve)
return getInStructuredNode();
return basicGetInStructuredNode();
case UMLPackage.CONDITIONAL_NODE__IN_INTERRUPTIBLE_REGION :
return getInInterruptibleRegions();
case UMLPackage.CONDITIONAL_NODE__OUTGOING :
return getOutgoings();
case UMLPackage.CONDITIONAL_NODE__INCOMING :
return getIncomings();
case UMLPackage.CONDITIONAL_NODE__IN_GROUP :
return getInGroups();
case UMLPackage.CONDITIONAL_NODE__REDEFINED_NODE :
return getRedefinedNodes();
case UMLPackage.CONDITIONAL_NODE__HANDLER :
return getHandlers();
case UMLPackage.CONDITIONAL_NODE__CONTEXT :
if (resolve)
return getContext();
return basicGetContext();
case UMLPackage.CONDITIONAL_NODE__INPUT :
return getInputs();
case UMLPackage.CONDITIONAL_NODE__IS_LOCALLY_REENTRANT :
return isLocallyReentrant();
case UMLPackage.CONDITIONAL_NODE__LOCAL_POSTCONDITION :
return getLocalPostconditions();
case UMLPackage.CONDITIONAL_NODE__LOCAL_PRECONDITION :
return getLocalPreconditions();
case UMLPackage.CONDITIONAL_NODE__OUTPUT :
return getOutputs();
case UMLPackage.CONDITIONAL_NODE__ELEMENT_IMPORT :
return getElementImports();
case UMLPackage.CONDITIONAL_NODE__PACKAGE_IMPORT :
return getPackageImports();
case UMLPackage.CONDITIONAL_NODE__OWNED_RULE :
return getOwnedRules();
case UMLPackage.CONDITIONAL_NODE__OWNED_MEMBER :
return getOwnedMembers();
case UMLPackage.CONDITIONAL_NODE__IMPORTED_MEMBER :
return getImportedMembers();
case UMLPackage.CONDITIONAL_NODE__MEMBER :
return getMembers();
case UMLPackage.CONDITIONAL_NODE__CONTAINED_EDGE :
return getContainedEdges();
case UMLPackage.CONDITIONAL_NODE__CONTAINED_NODE :
return getContainedNodes();
case UMLPackage.CONDITIONAL_NODE__IN_ACTIVITY :
if (resolve)
return getInActivity();
return basicGetInActivity();
case UMLPackage.CONDITIONAL_NODE__SUBGROUP :
return getSubgroups();
case UMLPackage.CONDITIONAL_NODE__SUPER_GROUP :
if (resolve)
return getSuperGroup();
return basicGetSuperGroup();
case UMLPackage.CONDITIONAL_NODE__MUST_ISOLATE :
return isMustIsolate();
case UMLPackage.CONDITIONAL_NODE__NODE :
return getNodes();
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_INPUT :
return getStructuredNodeInputs();
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_OUTPUT :
return getStructuredNodeOutputs();
case UMLPackage.CONDITIONAL_NODE__VARIABLE :
return getVariables();
case UMLPackage.CONDITIONAL_NODE__EDGE :
return getEdges();
case UMLPackage.CONDITIONAL_NODE__CLAUSE :
return getClauses();
case UMLPackage.CONDITIONAL_NODE__IS_ASSURED :
return isAssured();
case UMLPackage.CONDITIONAL_NODE__IS_DETERMINATE :
return isDeterminate();
case UMLPackage.CONDITIONAL_NODE__RESULT :
return getResults();
}
return eDynamicGet(featureID, resolve, coreType);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@SuppressWarnings("unchecked")
@Override
public void eSet(int featureID, Object newValue) {
switch (featureID) {
case UMLPackage.CONDITIONAL_NODE__EANNOTATIONS :
getEAnnotations().clear();
getEAnnotations().addAll(
(Collection<? extends EAnnotation>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__OWNED_COMMENT :
getOwnedComments().clear();
getOwnedComments().addAll(
(Collection<? extends Comment>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__CLIENT_DEPENDENCY :
getClientDependencies().clear();
getClientDependencies().addAll(
(Collection<? extends Dependency>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__NAME :
setName((String) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__NAME_EXPRESSION :
setNameExpression((StringExpression) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__VISIBILITY :
setVisibility((VisibilityKind) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__IS_LEAF :
setIsLeaf((Boolean) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__ACTIVITY :
setActivity((Activity) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__IN_PARTITION :
getInPartitions().clear();
getInPartitions().addAll(
(Collection<? extends ActivityPartition>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__IN_STRUCTURED_NODE :
setInStructuredNode((StructuredActivityNode) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__IN_INTERRUPTIBLE_REGION :
getInInterruptibleRegions().clear();
getInInterruptibleRegions()
.addAll(
(Collection<? extends InterruptibleActivityRegion>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__OUTGOING :
getOutgoings().clear();
getOutgoings().addAll(
(Collection<? extends ActivityEdge>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__INCOMING :
getIncomings().clear();
getIncomings().addAll(
(Collection<? extends ActivityEdge>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__REDEFINED_NODE :
getRedefinedNodes().clear();
getRedefinedNodes().addAll(
(Collection<? extends ActivityNode>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__HANDLER :
getHandlers().clear();
getHandlers().addAll(
(Collection<? extends ExceptionHandler>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__IS_LOCALLY_REENTRANT :
setIsLocallyReentrant((Boolean) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__LOCAL_POSTCONDITION :
getLocalPostconditions().clear();
getLocalPostconditions().addAll(
(Collection<? extends Constraint>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__LOCAL_PRECONDITION :
getLocalPreconditions().clear();
getLocalPreconditions().addAll(
(Collection<? extends Constraint>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__ELEMENT_IMPORT :
getElementImports().clear();
getElementImports().addAll(
(Collection<? extends ElementImport>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__PACKAGE_IMPORT :
getPackageImports().clear();
getPackageImports().addAll(
(Collection<? extends PackageImport>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__OWNED_RULE :
getOwnedRules().clear();
getOwnedRules().addAll(
(Collection<? extends Constraint>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__IN_ACTIVITY :
setInActivity((Activity) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__MUST_ISOLATE :
setMustIsolate((Boolean) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__NODE :
getNodes().clear();
getNodes()
.addAll((Collection<? extends ActivityNode>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_INPUT :
getStructuredNodeInputs().clear();
getStructuredNodeInputs().addAll(
(Collection<? extends InputPin>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_OUTPUT :
getStructuredNodeOutputs().clear();
getStructuredNodeOutputs().addAll(
(Collection<? extends OutputPin>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__VARIABLE :
getVariables().clear();
getVariables()
.addAll((Collection<? extends Variable>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__EDGE :
getEdges().clear();
getEdges()
.addAll((Collection<? extends ActivityEdge>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__CLAUSE :
getClauses().clear();
getClauses().addAll((Collection<? extends Clause>) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__IS_ASSURED :
setIsAssured((Boolean) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__IS_DETERMINATE :
setIsDeterminate((Boolean) newValue);
return;
case UMLPackage.CONDITIONAL_NODE__RESULT :
getResults().clear();
getResults().addAll((Collection<? extends OutputPin>) newValue);
return;
}
eDynamicSet(featureID, newValue);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public void eUnset(int featureID) {
switch (featureID) {
case UMLPackage.CONDITIONAL_NODE__EANNOTATIONS :
getEAnnotations().clear();
return;
case UMLPackage.CONDITIONAL_NODE__OWNED_COMMENT :
getOwnedComments().clear();
return;
case UMLPackage.CONDITIONAL_NODE__CLIENT_DEPENDENCY :
getClientDependencies().clear();
return;
case UMLPackage.CONDITIONAL_NODE__NAME :
unsetName();
return;
case UMLPackage.CONDITIONAL_NODE__NAME_EXPRESSION :
setNameExpression((StringExpression) null);
return;
case UMLPackage.CONDITIONAL_NODE__VISIBILITY :
unsetVisibility();
return;
case UMLPackage.CONDITIONAL_NODE__IS_LEAF :
setIsLeaf(IS_LEAF_EDEFAULT);
return;
case UMLPackage.CONDITIONAL_NODE__ACTIVITY :
setActivity((Activity) null);
return;
case UMLPackage.CONDITIONAL_NODE__IN_PARTITION :
getInPartitions().clear();
return;
case UMLPackage.CONDITIONAL_NODE__IN_STRUCTURED_NODE :
setInStructuredNode((StructuredActivityNode) null);
return;
case UMLPackage.CONDITIONAL_NODE__IN_INTERRUPTIBLE_REGION :
getInInterruptibleRegions().clear();
return;
case UMLPackage.CONDITIONAL_NODE__OUTGOING :
getOutgoings().clear();
return;
case UMLPackage.CONDITIONAL_NODE__INCOMING :
getIncomings().clear();
return;
case UMLPackage.CONDITIONAL_NODE__REDEFINED_NODE :
getRedefinedNodes().clear();
return;
case UMLPackage.CONDITIONAL_NODE__HANDLER :
getHandlers().clear();
return;
case UMLPackage.CONDITIONAL_NODE__IS_LOCALLY_REENTRANT :
setIsLocallyReentrant(IS_LOCALLY_REENTRANT_EDEFAULT);
return;
case UMLPackage.CONDITIONAL_NODE__LOCAL_POSTCONDITION :
getLocalPostconditions().clear();
return;
case UMLPackage.CONDITIONAL_NODE__LOCAL_PRECONDITION :
getLocalPreconditions().clear();
return;
case UMLPackage.CONDITIONAL_NODE__ELEMENT_IMPORT :
getElementImports().clear();
return;
case UMLPackage.CONDITIONAL_NODE__PACKAGE_IMPORT :
getPackageImports().clear();
return;
case UMLPackage.CONDITIONAL_NODE__OWNED_RULE :
getOwnedRules().clear();
return;
case UMLPackage.CONDITIONAL_NODE__IN_ACTIVITY :
setInActivity((Activity) null);
return;
case UMLPackage.CONDITIONAL_NODE__MUST_ISOLATE :
setMustIsolate(MUST_ISOLATE_EDEFAULT);
return;
case UMLPackage.CONDITIONAL_NODE__NODE :
getNodes().clear();
return;
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_INPUT :
getStructuredNodeInputs().clear();
return;
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_OUTPUT :
getStructuredNodeOutputs().clear();
return;
case UMLPackage.CONDITIONAL_NODE__VARIABLE :
getVariables().clear();
return;
case UMLPackage.CONDITIONAL_NODE__EDGE :
getEdges().clear();
return;
case UMLPackage.CONDITIONAL_NODE__CLAUSE :
getClauses().clear();
return;
case UMLPackage.CONDITIONAL_NODE__IS_ASSURED :
setIsAssured(IS_ASSURED_EDEFAULT);
return;
case UMLPackage.CONDITIONAL_NODE__IS_DETERMINATE :
setIsDeterminate(IS_DETERMINATE_EDEFAULT);
return;
case UMLPackage.CONDITIONAL_NODE__RESULT :
getResults().clear();
return;
}
eDynamicUnset(featureID);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public boolean eIsSet(int featureID) {
switch (featureID) {
case UMLPackage.CONDITIONAL_NODE__EANNOTATIONS :
return eAnnotations != null && !eAnnotations.isEmpty();
case UMLPackage.CONDITIONAL_NODE__OWNED_COMMENT :
return ownedComments != null && !ownedComments.isEmpty();
case UMLPackage.CONDITIONAL_NODE__OWNED_ELEMENT :
return isSetOwnedElements();
case UMLPackage.CONDITIONAL_NODE__OWNER :
return isSetOwner();
case UMLPackage.CONDITIONAL_NODE__CLIENT_DEPENDENCY :
return clientDependencies != null
&& !clientDependencies.isEmpty();
case UMLPackage.CONDITIONAL_NODE__NAME :
return isSetName();
case UMLPackage.CONDITIONAL_NODE__NAME_EXPRESSION :
return nameExpression != null;
case UMLPackage.CONDITIONAL_NODE__NAMESPACE :
return isSetNamespace();
case UMLPackage.CONDITIONAL_NODE__QUALIFIED_NAME :
return QUALIFIED_NAME_EDEFAULT == null
? getQualifiedName() != null
: !QUALIFIED_NAME_EDEFAULT.equals(getQualifiedName());
case UMLPackage.CONDITIONAL_NODE__VISIBILITY :
return isSetVisibility();
case UMLPackage.CONDITIONAL_NODE__IS_LEAF :
return ((eFlags & IS_LEAF_EFLAG) != 0) != IS_LEAF_EDEFAULT;
case UMLPackage.CONDITIONAL_NODE__REDEFINED_ELEMENT :
return isSetRedefinedElements();
case UMLPackage.CONDITIONAL_NODE__REDEFINITION_CONTEXT :
return isSetRedefinitionContexts();
case UMLPackage.CONDITIONAL_NODE__ACTIVITY :
return isSetActivity();
case UMLPackage.CONDITIONAL_NODE__IN_PARTITION :
return inPartitions != null && !inPartitions.isEmpty();
case UMLPackage.CONDITIONAL_NODE__IN_STRUCTURED_NODE :
return basicGetInStructuredNode() != null;
case UMLPackage.CONDITIONAL_NODE__IN_INTERRUPTIBLE_REGION :
return inInterruptibleRegions != null
&& !inInterruptibleRegions.isEmpty();
case UMLPackage.CONDITIONAL_NODE__OUTGOING :
return outgoings != null && !outgoings.isEmpty();
case UMLPackage.CONDITIONAL_NODE__INCOMING :
return incomings != null && !incomings.isEmpty();
case UMLPackage.CONDITIONAL_NODE__IN_GROUP :
return isSetInGroups();
case UMLPackage.CONDITIONAL_NODE__REDEFINED_NODE :
return redefinedNodes != null && !redefinedNodes.isEmpty();
case UMLPackage.CONDITIONAL_NODE__HANDLER :
return handlers != null && !handlers.isEmpty();
case UMLPackage.CONDITIONAL_NODE__CONTEXT :
return basicGetContext() != null;
case UMLPackage.CONDITIONAL_NODE__INPUT :
return isSetInputs();
case UMLPackage.CONDITIONAL_NODE__IS_LOCALLY_REENTRANT :
return ((eFlags & IS_LOCALLY_REENTRANT_EFLAG) != 0) != IS_LOCALLY_REENTRANT_EDEFAULT;
case UMLPackage.CONDITIONAL_NODE__LOCAL_POSTCONDITION :
return localPostconditions != null
&& !localPostconditions.isEmpty();
case UMLPackage.CONDITIONAL_NODE__LOCAL_PRECONDITION :
return localPreconditions != null
&& !localPreconditions.isEmpty();
case UMLPackage.CONDITIONAL_NODE__OUTPUT :
return isSetOutputs();
case UMLPackage.CONDITIONAL_NODE__ELEMENT_IMPORT :
return elementImports != null && !elementImports.isEmpty();
case UMLPackage.CONDITIONAL_NODE__PACKAGE_IMPORT :
return packageImports != null && !packageImports.isEmpty();
case UMLPackage.CONDITIONAL_NODE__OWNED_RULE :
return ownedRules != null && !ownedRules.isEmpty();
case UMLPackage.CONDITIONAL_NODE__OWNED_MEMBER :
return isSetOwnedMembers();
case UMLPackage.CONDITIONAL_NODE__IMPORTED_MEMBER :
return !getImportedMembers().isEmpty();
case UMLPackage.CONDITIONAL_NODE__MEMBER :
return isSetMembers();
case UMLPackage.CONDITIONAL_NODE__CONTAINED_EDGE :
return isSetContainedEdges();
case UMLPackage.CONDITIONAL_NODE__CONTAINED_NODE :
return isSetContainedNodes();
case UMLPackage.CONDITIONAL_NODE__IN_ACTIVITY :
return isSetInActivity();
case UMLPackage.CONDITIONAL_NODE__SUBGROUP :
return isSetSubgroups();
case UMLPackage.CONDITIONAL_NODE__SUPER_GROUP :
return isSetSuperGroup();
case UMLPackage.CONDITIONAL_NODE__MUST_ISOLATE :
return ((eFlags & MUST_ISOLATE_EFLAG) != 0) != MUST_ISOLATE_EDEFAULT;
case UMLPackage.CONDITIONAL_NODE__NODE :
return nodes != null && !nodes.isEmpty();
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_INPUT :
return structuredNodeInputs != null
&& !structuredNodeInputs.isEmpty();
case UMLPackage.CONDITIONAL_NODE__STRUCTURED_NODE_OUTPUT :
return isSetStructuredNodeOutputs();
case UMLPackage.CONDITIONAL_NODE__VARIABLE :
return variables != null && !variables.isEmpty();
case UMLPackage.CONDITIONAL_NODE__EDGE :
return edges != null && !edges.isEmpty();
case UMLPackage.CONDITIONAL_NODE__CLAUSE :
return clauses != null && !clauses.isEmpty();
case UMLPackage.CONDITIONAL_NODE__IS_ASSURED :
return ((eFlags & IS_ASSURED_EFLAG) != 0) != IS_ASSURED_EDEFAULT;
case UMLPackage.CONDITIONAL_NODE__IS_DETERMINATE :
return ((eFlags & IS_DETERMINATE_EFLAG) != 0) != IS_DETERMINATE_EDEFAULT;
case UMLPackage.CONDITIONAL_NODE__RESULT :
return isSetResults();
}
return eDynamicIsSet(featureID);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
@SuppressWarnings("unchecked")
public Object eInvoke(int operationID, EList<?> arguments)
throws InvocationTargetException {
switch (operationID) {
case UMLPackage.CONDITIONAL_NODE___GET_EANNOTATION__STRING :
return getEAnnotation((String) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_HAS_OWNER__DIAGNOSTICCHAIN_MAP :
return validateHasOwner((DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_NOT_OWN_SELF__DIAGNOSTICCHAIN_MAP :
return validateNotOwnSelf((DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___ADD_KEYWORD__STRING :
return addKeyword((String) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___APPLY_STEREOTYPE__STEREOTYPE :
return applyStereotype((Stereotype) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___CREATE_EANNOTATION__STRING :
return createEAnnotation((String) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___DESTROY :
destroy();
return null;
case UMLPackage.CONDITIONAL_NODE___GET_KEYWORDS :
return getKeywords();
case UMLPackage.CONDITIONAL_NODE___GET_APPLICABLE_STEREOTYPE__STRING :
return getApplicableStereotype((String) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_APPLICABLE_STEREOTYPES :
return getApplicableStereotypes();
case UMLPackage.CONDITIONAL_NODE___GET_APPLIED_STEREOTYPE__STRING :
return getAppliedStereotype((String) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_APPLIED_STEREOTYPES :
return getAppliedStereotypes();
case UMLPackage.CONDITIONAL_NODE___GET_APPLIED_SUBSTEREOTYPE__STEREOTYPE_STRING :
return getAppliedSubstereotype((Stereotype) arguments.get(0),
(String) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___GET_APPLIED_SUBSTEREOTYPES__STEREOTYPE :
return getAppliedSubstereotypes((Stereotype) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_MODEL :
return getModel();
case UMLPackage.CONDITIONAL_NODE___GET_NEAREST_PACKAGE :
return getNearestPackage();
case UMLPackage.CONDITIONAL_NODE___GET_RELATIONSHIPS :
return getRelationships();
case UMLPackage.CONDITIONAL_NODE___GET_RELATIONSHIPS__ECLASS :
return getRelationships((EClass) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_REQUIRED_STEREOTYPE__STRING :
return getRequiredStereotype((String) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_REQUIRED_STEREOTYPES :
return getRequiredStereotypes();
case UMLPackage.CONDITIONAL_NODE___GET_SOURCE_DIRECTED_RELATIONSHIPS :
return getSourceDirectedRelationships();
case UMLPackage.CONDITIONAL_NODE___GET_SOURCE_DIRECTED_RELATIONSHIPS__ECLASS :
return getSourceDirectedRelationships((EClass) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_STEREOTYPE_APPLICATION__STEREOTYPE :
return getStereotypeApplication((Stereotype) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_STEREOTYPE_APPLICATIONS :
return getStereotypeApplications();
case UMLPackage.CONDITIONAL_NODE___GET_TARGET_DIRECTED_RELATIONSHIPS :
return getTargetDirectedRelationships();
case UMLPackage.CONDITIONAL_NODE___GET_TARGET_DIRECTED_RELATIONSHIPS__ECLASS :
return getTargetDirectedRelationships((EClass) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_VALUE__STEREOTYPE_STRING :
return getValue((Stereotype) arguments.get(0),
(String) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___HAS_KEYWORD__STRING :
return hasKeyword((String) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___HAS_VALUE__STEREOTYPE_STRING :
return hasValue((Stereotype) arguments.get(0),
(String) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___IS_STEREOTYPE_APPLICABLE__STEREOTYPE :
return isStereotypeApplicable((Stereotype) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___IS_STEREOTYPE_APPLIED__STEREOTYPE :
return isStereotypeApplied((Stereotype) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___IS_STEREOTYPE_REQUIRED__STEREOTYPE :
return isStereotypeRequired((Stereotype) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___REMOVE_KEYWORD__STRING :
return removeKeyword((String) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___SET_VALUE__STEREOTYPE_STRING_OBJECT :
setValue((Stereotype) arguments.get(0),
(String) arguments.get(1), arguments.get(2));
return null;
case UMLPackage.CONDITIONAL_NODE___UNAPPLY_STEREOTYPE__STEREOTYPE :
return unapplyStereotype((Stereotype) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___ALL_OWNED_ELEMENTS :
return allOwnedElements();
case UMLPackage.CONDITIONAL_NODE___MUST_BE_OWNED :
return mustBeOwned();
case UMLPackage.CONDITIONAL_NODE___VALIDATE_HAS_QUALIFIED_NAME__DIAGNOSTICCHAIN_MAP :
return validateHasQualifiedName(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_HAS_NO_QUALIFIED_NAME__DIAGNOSTICCHAIN_MAP :
return validateHasNoQualifiedName(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_VISIBILITY_NEEDS_OWNERSHIP__DIAGNOSTICCHAIN_MAP :
return validateVisibilityNeedsOwnership(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___CREATE_DEPENDENCY__NAMEDELEMENT :
return createDependency((NamedElement) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___CREATE_USAGE__NAMEDELEMENT :
return createUsage((NamedElement) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_LABEL :
return getLabel();
case UMLPackage.CONDITIONAL_NODE___GET_LABEL__BOOLEAN :
return getLabel((Boolean) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___ALL_NAMESPACES :
return allNamespaces();
case UMLPackage.CONDITIONAL_NODE___ALL_OWNING_PACKAGES :
return allOwningPackages();
case UMLPackage.CONDITIONAL_NODE___IS_DISTINGUISHABLE_FROM__NAMEDELEMENT_NAMESPACE :
return isDistinguishableFrom((NamedElement) arguments.get(0),
(Namespace) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___GET_NAMESPACE :
return getNamespace();
case UMLPackage.CONDITIONAL_NODE___GET_QUALIFIED_NAME :
return getQualifiedName();
case UMLPackage.CONDITIONAL_NODE___SEPARATOR :
return separator();
case UMLPackage.CONDITIONAL_NODE___VALIDATE_REDEFINITION_CONSISTENT__DIAGNOSTICCHAIN_MAP :
return validateRedefinitionConsistent(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_NON_LEAF_REDEFINITION__DIAGNOSTICCHAIN_MAP :
return validateNonLeafRedefinition(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_REDEFINITION_CONTEXT_VALID__DIAGNOSTICCHAIN_MAP :
return validateRedefinitionContextValid(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___IS_CONSISTENT_WITH__REDEFINABLEELEMENT :
return isConsistentWith((RedefinableElement) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___IS_REDEFINITION_CONTEXT_VALID__REDEFINABLEELEMENT :
return isRedefinitionContextValid((RedefinableElement) arguments
.get(0));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_OWNED__DIAGNOSTICCHAIN_MAP :
return validateOwned((DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_OWNED_STRUCTURED_NODE__DIAGNOSTICCHAIN_MAP :
return validateOwnedStructuredNode(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___GET_CONTEXT :
return getContext();
case UMLPackage.CONDITIONAL_NODE___VALIDATE_MEMBERS_DISTINGUISHABLE__DIAGNOSTICCHAIN_MAP :
return validateMembersDistinguishable(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___CREATE_ELEMENT_IMPORT__PACKAGEABLEELEMENT_VISIBILITYKIND :
return createElementImport(
(PackageableElement) arguments.get(0),
(VisibilityKind) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___CREATE_PACKAGE_IMPORT__PACKAGE_VISIBILITYKIND :
return createPackageImport(
(org.eclipse.uml2.uml.Package) arguments.get(0),
(VisibilityKind) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___GET_IMPORTED_ELEMENTS :
return getImportedElements();
case UMLPackage.CONDITIONAL_NODE___GET_IMPORTED_PACKAGES :
return getImportedPackages();
case UMLPackage.CONDITIONAL_NODE___EXCLUDE_COLLISIONS__ELIST :
return excludeCollisions((EList<PackageableElement>) arguments
.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_NAMES_OF_MEMBER__NAMEDELEMENT :
return getNamesOfMember((NamedElement) arguments.get(0));
case UMLPackage.CONDITIONAL_NODE___IMPORT_MEMBERS__ELIST :
return importMembers((EList<PackageableElement>) arguments
.get(0));
case UMLPackage.CONDITIONAL_NODE___GET_IMPORTED_MEMBERS :
return getImportedMembers();
case UMLPackage.CONDITIONAL_NODE___MEMBERS_ARE_DISTINGUISHABLE :
return membersAreDistinguishable();
case UMLPackage.CONDITIONAL_NODE___GET_OWNED_MEMBERS :
return getOwnedMembers();
case UMLPackage.CONDITIONAL_NODE___VALIDATE_GROUP_OWNED__DIAGNOSTICCHAIN_MAP :
return validateGroupOwned((DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_NOT_CONTAINED__DIAGNOSTICCHAIN_MAP :
return validateNotContained((DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_NODES_AND_EDGES__DIAGNOSTICCHAIN_MAP :
return validateNodesAndEdges(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_INPUT_PIN_EDGES__DIAGNOSTICCHAIN_MAP :
return validateInputPinEdges(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_EDGES__DIAGNOSTICCHAIN_MAP :
return validateEdges((DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_OUTPUT_PIN_EDGES__DIAGNOSTICCHAIN_MAP :
return validateOutputPinEdges(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_EXECUTABLE_NODES__DIAGNOSTICCHAIN_MAP :
return validateExecutableNodes(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_CLAUSE_NO_PREDECESSOR__DIAGNOSTICCHAIN_MAP :
return validateClauseNoPredecessor(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_MATCHING_OUTPUT_PINS__DIAGNOSTICCHAIN_MAP :
return validateMatchingOutputPins(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_ONE_CLAUSE_WITH_EXECUTABLE_NODE__DIAGNOSTICCHAIN_MAP :
return validateOneClauseWithExecutableNode(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_RESULT_NO_INCOMING__DIAGNOSTICCHAIN_MAP :
return validateResultNoIncoming(
(DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
case UMLPackage.CONDITIONAL_NODE___VALIDATE_NO_INPUT_PINS__DIAGNOSTICCHAIN_MAP :
return validateNoInputPins((DiagnosticChain) arguments.get(0),
(Map<Object, Object>) arguments.get(1));
}
return eDynamicInvoke(operationID, arguments);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public String toString() {
if (eIsProxy())
return super.toString();
StringBuffer result = new StringBuffer(super.toString());
result.append(" (isAssured: "); //$NON-NLS-1$
result.append((eFlags & IS_ASSURED_EFLAG) != 0);
result.append(", isDeterminate: "); //$NON-NLS-1$
result.append((eFlags & IS_DETERMINATE_EFLAG) != 0);
result.append(')');
return result.toString();
}
/**
* The array of subset feature identifiers for the '{@link #getOwnedElements() <em>Owned Element</em>}' reference list.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @see #getOwnedElements()
* @generated
* @ordered
*/
protected static final int[] OWNED_ELEMENT_ESUBSETS = new int[]{
UMLPackage.CONDITIONAL_NODE__OWNED_COMMENT,
UMLPackage.CONDITIONAL_NODE__NAME_EXPRESSION,
UMLPackage.CONDITIONAL_NODE__HANDLER,
UMLPackage.CONDITIONAL_NODE__INPUT,
UMLPackage.CONDITIONAL_NODE__LOCAL_POSTCONDITION,
UMLPackage.CONDITIONAL_NODE__LOCAL_PRECONDITION,
UMLPackage.CONDITIONAL_NODE__OUTPUT,
UMLPackage.CONDITIONAL_NODE__ELEMENT_IMPORT,
UMLPackage.CONDITIONAL_NODE__PACKAGE_IMPORT,
UMLPackage.CONDITIONAL_NODE__OWNED_MEMBER,
UMLPackage.CONDITIONAL_NODE__SUBGROUP,
UMLPackage.CONDITIONAL_NODE__NODE, UMLPackage.CONDITIONAL_NODE__EDGE,
UMLPackage.CONDITIONAL_NODE__CLAUSE};
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public boolean isSetOwnedElements() {
return super.isSetOwnedElements()
|| eIsSet(UMLPackage.CONDITIONAL_NODE__CLAUSE);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
@Override
public EList<OutputPin> getStructuredNodeOutputs() {
return getResults();
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean isSetStructuredNodeOutputs() {
return false;
}
protected static final int[] OUTPUT_ESUBSETS = new int[]{UMLPackage.CONDITIONAL_NODE__RESULT};
@Override
public EList<OutputPin> getOutputs() {
CacheAdapter cache = getCacheAdapter();
if (cache != null) {
Resource eResource = eResource();
@SuppressWarnings("unchecked")
EList<OutputPin> outputs = (EList<OutputPin>) cache.get(eResource,
this, UMLPackage.Literals.ACTION__OUTPUT);
if (outputs == null) {
cache.put(eResource, this, UMLPackage.Literals.ACTION__OUTPUT,
outputs = new DerivedUnionEObjectEList<OutputPin>(
OutputPin.class, this,
UMLPackage.CONDITIONAL_NODE__OUTPUT, OUTPUT_ESUBSETS));
}
return outputs;
}
return new DerivedUnionEObjectEList<OutputPin>(OutputPin.class, this,
UMLPackage.CONDITIONAL_NODE__OUTPUT, OUTPUT_ESUBSETS);
}
} //ConditionalNodeImpl