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eclipse / uml2 / org.eclipse.uml2 / 583804e81f165b8865488b0c32634765b0ab4210 / . / plugins / org.eclipse.uml2.uml / src / org / eclipse / uml2 / uml / internal / impl / SequenceNodeImpl.java
blob: 5161e2bc5118e2e0e37215cf4ca135428a6aff47 [file] [log] [blame]
/*
* Copyright (c) 2005, 2006 IBM Corporation 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
*
* $Id: SequenceNodeImpl.java,v 1.15 2006/03/01 17:56:37 khussey Exp $
*/
package org.eclipse.uml2.uml.internal.impl;
import java.util.Collection;
import java.util.Iterator;
import org.eclipse.emf.common.notify.NotificationChain;
import org.eclipse.emf.common.util.EList;
import org.eclipse.emf.ecore.EClass;
import org.eclipse.emf.ecore.InternalEObject;
import org.eclipse.emf.ecore.util.EObjectContainmentEList;
import org.eclipse.emf.ecore.util.EcoreUtil;
import org.eclipse.emf.ecore.util.InternalEList;
import org.eclipse.uml2.uml.Activity;
import org.eclipse.uml2.uml.ExecutableNode;
import org.eclipse.uml2.uml.SequenceNode;
import org.eclipse.uml2.uml.StringExpression;
import org.eclipse.uml2.uml.StructuredActivityNode;
import org.eclipse.uml2.uml.UMLPackage;
import org.eclipse.uml2.uml.VisibilityKind;
/**
* <!-- begin-user-doc -->
* An implementation of the model object '<em><b>Sequence Node</b></em>'.
* <!-- end-user-doc -->
* <p>
* The following features are implemented:
* <ul>
* <li>{@link org.eclipse.uml2.uml.internal.impl.SequenceNodeImpl#getExecutableNodes <em>Executable Node</em>}</li>
* </ul>
* </p>
*
* @generated
*/
public class SequenceNodeImpl
extends StructuredActivityNodeImpl
implements SequenceNode {
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
protected SequenceNodeImpl() {
super();
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
protected EClass eStaticClass() {
return UMLPackage.Literals.SEQUENCE_NODE;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public EList getExecutableNodes() {
EList executableNode = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__EXECUTABLE_NODE);
if (executableNode == null) {
eVirtualSet(UMLPackage.SEQUENCE_NODE__EXECUTABLE_NODE,
executableNode = new EObjectContainmentEList.Resolving(
ExecutableNode.class, this,
UMLPackage.SEQUENCE_NODE__EXECUTABLE_NODE));
}
return executableNode;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public ExecutableNode createExecutableNode(String name, EClass eClass) {
ExecutableNode newExecutableNode = (ExecutableNode) EcoreUtil
.create(eClass);
if (name != null)
newExecutableNode.setName(name);
getExecutableNodes().add(newExecutableNode);
return newExecutableNode;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public ExecutableNode getExecutableNode(String name) {
return getExecutableNode(name, false, null, false);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public ExecutableNode getExecutableNode(String name, boolean ignoreCase,
EClass eClass, boolean createOnDemand) {
executableNodeLoop : for (Iterator i = getExecutableNodes().iterator(); i
.hasNext();) {
ExecutableNode executableNode = (ExecutableNode) i.next();
if (eClass != null && !eClass.isInstance(executableNode))
continue executableNodeLoop;
if (name != null && !(ignoreCase
? name.equalsIgnoreCase(executableNode.getName())
: name.equals(executableNode.getName())))
continue executableNodeLoop;
return executableNode;
}
return createOnDemand && eClass != null
? createExecutableNode(name, eClass)
: null;
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean isSetExecutableNodes() {
EList executableNode = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__EXECUTABLE_NODE);
return executableNode != null && !executableNode.isEmpty();
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public NotificationChain eInverseRemove(InternalEObject otherEnd,
int featureID, NotificationChain msgs) {
switch (featureID) {
case UMLPackage.SEQUENCE_NODE__EANNOTATIONS :
return ((InternalEList) getEAnnotations()).basicRemove(
otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__OWNED_COMMENT :
return ((InternalEList) getOwnedComments()).basicRemove(
otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__CLIENT_DEPENDENCY :
return ((InternalEList) getClientDependencies()).basicRemove(
otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__NAME_EXPRESSION :
return basicSetNameExpression(null, msgs);
case UMLPackage.SEQUENCE_NODE__IN_STRUCTURED_NODE :
return basicSetInStructuredNode(null, msgs);
case UMLPackage.SEQUENCE_NODE__ACTIVITY :
return basicSetActivity(null, msgs);
case UMLPackage.SEQUENCE_NODE__OUTGOING :
return ((InternalEList) getOutgoings()).basicRemove(otherEnd,
msgs);
case UMLPackage.SEQUENCE_NODE__INCOMING :
return ((InternalEList) getIncomings()).basicRemove(otherEnd,
msgs);
case UMLPackage.SEQUENCE_NODE__IN_PARTITION :
return ((InternalEList) getInPartitions()).basicRemove(
otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__IN_INTERRUPTIBLE_REGION :
return ((InternalEList) getInInterruptibleRegions())
.basicRemove(otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__HANDLER :
return ((InternalEList) getHandlers()).basicRemove(otherEnd,
msgs);
case UMLPackage.SEQUENCE_NODE__LOCAL_PRECONDITION :
return ((InternalEList) getLocalPreconditions()).basicRemove(
otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__LOCAL_POSTCONDITION :
return ((InternalEList) getLocalPostconditions()).basicRemove(
otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__ELEMENT_IMPORT :
return ((InternalEList) getElementImports()).basicRemove(
otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__PACKAGE_IMPORT :
return ((InternalEList) getPackageImports()).basicRemove(
otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__OWNED_RULE :
return ((InternalEList) getOwnedRules()).basicRemove(otherEnd,
msgs);
case UMLPackage.SEQUENCE_NODE__IN_ACTIVITY :
return basicSetInActivity(null, msgs);
case UMLPackage.SEQUENCE_NODE__VARIABLE :
return ((InternalEList) getVariables()).basicRemove(otherEnd,
msgs);
case UMLPackage.SEQUENCE_NODE__EDGE :
return ((InternalEList) getEdges()).basicRemove(otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__NODE :
return ((InternalEList) getNodes()).basicRemove(otherEnd, msgs);
case UMLPackage.SEQUENCE_NODE__EXECUTABLE_NODE :
return ((InternalEList) getExecutableNodes()).basicRemove(
otherEnd, msgs);
}
return eDynamicInverseRemove(otherEnd, featureID, msgs);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public Object eGet(int featureID, boolean resolve, boolean coreType) {
switch (featureID) {
case UMLPackage.SEQUENCE_NODE__EANNOTATIONS :
return getEAnnotations();
case UMLPackage.SEQUENCE_NODE__OWNED_ELEMENT :
return getOwnedElements();
case UMLPackage.SEQUENCE_NODE__OWNER :
if (resolve)
return getOwner();
return basicGetOwner();
case UMLPackage.SEQUENCE_NODE__OWNED_COMMENT :
return getOwnedComments();
case UMLPackage.SEQUENCE_NODE__NAME :
return getName();
case UMLPackage.SEQUENCE_NODE__VISIBILITY :
return getVisibility();
case UMLPackage.SEQUENCE_NODE__QUALIFIED_NAME :
return getQualifiedName();
case UMLPackage.SEQUENCE_NODE__CLIENT_DEPENDENCY :
return getClientDependencies();
case UMLPackage.SEQUENCE_NODE__NAMESPACE :
if (resolve)
return getNamespace();
return basicGetNamespace();
case UMLPackage.SEQUENCE_NODE__NAME_EXPRESSION :
if (resolve)
return getNameExpression();
return basicGetNameExpression();
case UMLPackage.SEQUENCE_NODE__IS_LEAF :
return isLeaf()
? Boolean.TRUE
: Boolean.FALSE;
case UMLPackage.SEQUENCE_NODE__REDEFINED_ELEMENT :
return getRedefinedElements();
case UMLPackage.SEQUENCE_NODE__REDEFINITION_CONTEXT :
return getRedefinitionContexts();
case UMLPackage.SEQUENCE_NODE__IN_STRUCTURED_NODE :
return getInStructuredNode();
case UMLPackage.SEQUENCE_NODE__ACTIVITY :
return getActivity();
case UMLPackage.SEQUENCE_NODE__OUTGOING :
return getOutgoings();
case UMLPackage.SEQUENCE_NODE__INCOMING :
return getIncomings();
case UMLPackage.SEQUENCE_NODE__IN_PARTITION :
return getInPartitions();
case UMLPackage.SEQUENCE_NODE__IN_INTERRUPTIBLE_REGION :
return getInInterruptibleRegions();
case UMLPackage.SEQUENCE_NODE__IN_GROUP :
return getInGroups();
case UMLPackage.SEQUENCE_NODE__REDEFINED_NODE :
return getRedefinedNodes();
case UMLPackage.SEQUENCE_NODE__HANDLER :
return getHandlers();
case UMLPackage.SEQUENCE_NODE__OUTPUT :
return getOutputs();
case UMLPackage.SEQUENCE_NODE__INPUT :
return getInputs();
case UMLPackage.SEQUENCE_NODE__CONTEXT :
return getContext();
case UMLPackage.SEQUENCE_NODE__LOCAL_PRECONDITION :
return getLocalPreconditions();
case UMLPackage.SEQUENCE_NODE__LOCAL_POSTCONDITION :
return getLocalPostconditions();
case UMLPackage.SEQUENCE_NODE__ELEMENT_IMPORT :
return getElementImports();
case UMLPackage.SEQUENCE_NODE__PACKAGE_IMPORT :
return getPackageImports();
case UMLPackage.SEQUENCE_NODE__OWNED_RULE :
return getOwnedRules();
case UMLPackage.SEQUENCE_NODE__MEMBER :
return getMembers();
case UMLPackage.SEQUENCE_NODE__IMPORTED_MEMBER :
return getImportedMembers();
case UMLPackage.SEQUENCE_NODE__OWNED_MEMBER :
return getOwnedMembers();
case UMLPackage.SEQUENCE_NODE__SUBGROUP :
return getSubgroups();
case UMLPackage.SEQUENCE_NODE__SUPER_GROUP :
return getSuperGroup();
case UMLPackage.SEQUENCE_NODE__IN_ACTIVITY :
return getInActivity();
case UMLPackage.SEQUENCE_NODE__CONTAINED_EDGE :
return getContainedEdges();
case UMLPackage.SEQUENCE_NODE__CONTAINED_NODE :
return getContainedNodes();
case UMLPackage.SEQUENCE_NODE__VARIABLE :
return getVariables();
case UMLPackage.SEQUENCE_NODE__EDGE :
return getEdges();
case UMLPackage.SEQUENCE_NODE__MUST_ISOLATE :
return isMustIsolate()
? Boolean.TRUE
: Boolean.FALSE;
case UMLPackage.SEQUENCE_NODE__NODE :
return getNodes();
case UMLPackage.SEQUENCE_NODE__EXECUTABLE_NODE :
return getExecutableNodes();
}
return eDynamicGet(featureID, resolve, coreType);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public void eSet(int featureID, Object newValue) {
switch (featureID) {
case UMLPackage.SEQUENCE_NODE__EANNOTATIONS :
getEAnnotations().clear();
getEAnnotations().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__OWNED_COMMENT :
getOwnedComments().clear();
getOwnedComments().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__NAME :
setName((String) newValue);
return;
case UMLPackage.SEQUENCE_NODE__VISIBILITY :
setVisibility((VisibilityKind) newValue);
return;
case UMLPackage.SEQUENCE_NODE__CLIENT_DEPENDENCY :
getClientDependencies().clear();
getClientDependencies().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__NAME_EXPRESSION :
setNameExpression((StringExpression) newValue);
return;
case UMLPackage.SEQUENCE_NODE__IS_LEAF :
setIsLeaf(((Boolean) newValue).booleanValue());
return;
case UMLPackage.SEQUENCE_NODE__IN_STRUCTURED_NODE :
setInStructuredNode((StructuredActivityNode) newValue);
return;
case UMLPackage.SEQUENCE_NODE__ACTIVITY :
setActivity((Activity) newValue);
return;
case UMLPackage.SEQUENCE_NODE__OUTGOING :
getOutgoings().clear();
getOutgoings().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__INCOMING :
getIncomings().clear();
getIncomings().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__IN_PARTITION :
getInPartitions().clear();
getInPartitions().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__IN_INTERRUPTIBLE_REGION :
getInInterruptibleRegions().clear();
getInInterruptibleRegions().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__REDEFINED_NODE :
getRedefinedNodes().clear();
getRedefinedNodes().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__HANDLER :
getHandlers().clear();
getHandlers().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__LOCAL_PRECONDITION :
getLocalPreconditions().clear();
getLocalPreconditions().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__LOCAL_POSTCONDITION :
getLocalPostconditions().clear();
getLocalPostconditions().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__ELEMENT_IMPORT :
getElementImports().clear();
getElementImports().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__PACKAGE_IMPORT :
getPackageImports().clear();
getPackageImports().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__OWNED_RULE :
getOwnedRules().clear();
getOwnedRules().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__IN_ACTIVITY :
setInActivity((Activity) newValue);
return;
case UMLPackage.SEQUENCE_NODE__VARIABLE :
getVariables().clear();
getVariables().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__EDGE :
getEdges().clear();
getEdges().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__MUST_ISOLATE :
setMustIsolate(((Boolean) newValue).booleanValue());
return;
case UMLPackage.SEQUENCE_NODE__NODE :
getNodes().clear();
getNodes().addAll((Collection) newValue);
return;
case UMLPackage.SEQUENCE_NODE__EXECUTABLE_NODE :
getExecutableNodes().clear();
getExecutableNodes().addAll((Collection) newValue);
return;
}
eDynamicSet(featureID, newValue);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public void eUnset(int featureID) {
switch (featureID) {
case UMLPackage.SEQUENCE_NODE__EANNOTATIONS :
getEAnnotations().clear();
return;
case UMLPackage.SEQUENCE_NODE__OWNED_COMMENT :
getOwnedComments().clear();
return;
case UMLPackage.SEQUENCE_NODE__NAME :
unsetName();
return;
case UMLPackage.SEQUENCE_NODE__VISIBILITY :
unsetVisibility();
return;
case UMLPackage.SEQUENCE_NODE__CLIENT_DEPENDENCY :
getClientDependencies().clear();
return;
case UMLPackage.SEQUENCE_NODE__NAME_EXPRESSION :
setNameExpression((StringExpression) null);
return;
case UMLPackage.SEQUENCE_NODE__IS_LEAF :
setIsLeaf(IS_LEAF_EDEFAULT);
return;
case UMLPackage.SEQUENCE_NODE__IN_STRUCTURED_NODE :
setInStructuredNode((StructuredActivityNode) null);
return;
case UMLPackage.SEQUENCE_NODE__ACTIVITY :
setActivity((Activity) null);
return;
case UMLPackage.SEQUENCE_NODE__OUTGOING :
getOutgoings().clear();
return;
case UMLPackage.SEQUENCE_NODE__INCOMING :
getIncomings().clear();
return;
case UMLPackage.SEQUENCE_NODE__IN_PARTITION :
getInPartitions().clear();
return;
case UMLPackage.SEQUENCE_NODE__IN_INTERRUPTIBLE_REGION :
getInInterruptibleRegions().clear();
return;
case UMLPackage.SEQUENCE_NODE__REDEFINED_NODE :
getRedefinedNodes().clear();
return;
case UMLPackage.SEQUENCE_NODE__HANDLER :
getHandlers().clear();
return;
case UMLPackage.SEQUENCE_NODE__LOCAL_PRECONDITION :
getLocalPreconditions().clear();
return;
case UMLPackage.SEQUENCE_NODE__LOCAL_POSTCONDITION :
getLocalPostconditions().clear();
return;
case UMLPackage.SEQUENCE_NODE__ELEMENT_IMPORT :
getElementImports().clear();
return;
case UMLPackage.SEQUENCE_NODE__PACKAGE_IMPORT :
getPackageImports().clear();
return;
case UMLPackage.SEQUENCE_NODE__OWNED_RULE :
getOwnedRules().clear();
return;
case UMLPackage.SEQUENCE_NODE__IN_ACTIVITY :
setInActivity((Activity) null);
return;
case UMLPackage.SEQUENCE_NODE__VARIABLE :
getVariables().clear();
return;
case UMLPackage.SEQUENCE_NODE__EDGE :
getEdges().clear();
return;
case UMLPackage.SEQUENCE_NODE__MUST_ISOLATE :
setMustIsolate(MUST_ISOLATE_EDEFAULT);
return;
case UMLPackage.SEQUENCE_NODE__NODE :
getNodes().clear();
return;
case UMLPackage.SEQUENCE_NODE__EXECUTABLE_NODE :
getExecutableNodes().clear();
return;
}
eDynamicUnset(featureID);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean eIsSet(int featureID) {
switch (featureID) {
case UMLPackage.SEQUENCE_NODE__EANNOTATIONS :
EList eAnnotations = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__EANNOTATIONS);
return eAnnotations != null && !eAnnotations.isEmpty();
case UMLPackage.SEQUENCE_NODE__OWNED_ELEMENT :
return isSetOwnedElements();
case UMLPackage.SEQUENCE_NODE__OWNER :
return isSetOwner();
case UMLPackage.SEQUENCE_NODE__OWNED_COMMENT :
EList ownedComment = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__OWNED_COMMENT);
return ownedComment != null && !ownedComment.isEmpty();
case UMLPackage.SEQUENCE_NODE__NAME :
return isSetName();
case UMLPackage.SEQUENCE_NODE__VISIBILITY :
return isSetVisibility();
case UMLPackage.SEQUENCE_NODE__QUALIFIED_NAME :
return QUALIFIED_NAME_EDEFAULT == null
? getQualifiedName() != null
: !QUALIFIED_NAME_EDEFAULT.equals(getQualifiedName());
case UMLPackage.SEQUENCE_NODE__CLIENT_DEPENDENCY :
EList clientDependency = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__CLIENT_DEPENDENCY);
return clientDependency != null && !clientDependency.isEmpty();
case UMLPackage.SEQUENCE_NODE__NAMESPACE :
return isSetNamespace();
case UMLPackage.SEQUENCE_NODE__NAME_EXPRESSION :
return eVirtualGet(UMLPackage.SEQUENCE_NODE__NAME_EXPRESSION) != null;
case UMLPackage.SEQUENCE_NODE__IS_LEAF :
return ((eFlags & IS_LEAF_EFLAG) != 0) != IS_LEAF_EDEFAULT;
case UMLPackage.SEQUENCE_NODE__REDEFINED_ELEMENT :
return isSetRedefinedElements();
case UMLPackage.SEQUENCE_NODE__REDEFINITION_CONTEXT :
return isSetRedefinitionContexts();
case UMLPackage.SEQUENCE_NODE__IN_STRUCTURED_NODE :
return getInStructuredNode() != null;
case UMLPackage.SEQUENCE_NODE__ACTIVITY :
return isSetActivity();
case UMLPackage.SEQUENCE_NODE__OUTGOING :
EList outgoing = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__OUTGOING);
return outgoing != null && !outgoing.isEmpty();
case UMLPackage.SEQUENCE_NODE__INCOMING :
EList incoming = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__INCOMING);
return incoming != null && !incoming.isEmpty();
case UMLPackage.SEQUENCE_NODE__IN_PARTITION :
EList inPartition = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__IN_PARTITION);
return inPartition != null && !inPartition.isEmpty();
case UMLPackage.SEQUENCE_NODE__IN_INTERRUPTIBLE_REGION :
EList inInterruptibleRegion = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__IN_INTERRUPTIBLE_REGION);
return inInterruptibleRegion != null
&& !inInterruptibleRegion.isEmpty();
case UMLPackage.SEQUENCE_NODE__IN_GROUP :
return isSetInGroups();
case UMLPackage.SEQUENCE_NODE__REDEFINED_NODE :
EList redefinedNode = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__REDEFINED_NODE);
return redefinedNode != null && !redefinedNode.isEmpty();
case UMLPackage.SEQUENCE_NODE__HANDLER :
EList handler = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__HANDLER);
return handler != null && !handler.isEmpty();
case UMLPackage.SEQUENCE_NODE__OUTPUT :
return isSetOutputs();
case UMLPackage.SEQUENCE_NODE__INPUT :
return isSetInputs();
case UMLPackage.SEQUENCE_NODE__CONTEXT :
return getContext() != null;
case UMLPackage.SEQUENCE_NODE__LOCAL_PRECONDITION :
EList localPrecondition = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__LOCAL_PRECONDITION);
return localPrecondition != null
&& !localPrecondition.isEmpty();
case UMLPackage.SEQUENCE_NODE__LOCAL_POSTCONDITION :
EList localPostcondition = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__LOCAL_POSTCONDITION);
return localPostcondition != null
&& !localPostcondition.isEmpty();
case UMLPackage.SEQUENCE_NODE__ELEMENT_IMPORT :
EList elementImport = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__ELEMENT_IMPORT);
return elementImport != null && !elementImport.isEmpty();
case UMLPackage.SEQUENCE_NODE__PACKAGE_IMPORT :
EList packageImport = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__PACKAGE_IMPORT);
return packageImport != null && !packageImport.isEmpty();
case UMLPackage.SEQUENCE_NODE__OWNED_RULE :
EList ownedRule = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__OWNED_RULE);
return ownedRule != null && !ownedRule.isEmpty();
case UMLPackage.SEQUENCE_NODE__MEMBER :
return isSetMembers();
case UMLPackage.SEQUENCE_NODE__IMPORTED_MEMBER :
return !getImportedMembers().isEmpty();
case UMLPackage.SEQUENCE_NODE__OWNED_MEMBER :
return isSetOwnedMembers();
case UMLPackage.SEQUENCE_NODE__SUBGROUP :
return isSetSubgroups();
case UMLPackage.SEQUENCE_NODE__SUPER_GROUP :
return isSetSuperGroup();
case UMLPackage.SEQUENCE_NODE__IN_ACTIVITY :
return isSetInActivity();
case UMLPackage.SEQUENCE_NODE__CONTAINED_EDGE :
return isSetContainedEdges();
case UMLPackage.SEQUENCE_NODE__CONTAINED_NODE :
return isSetContainedNodes();
case UMLPackage.SEQUENCE_NODE__VARIABLE :
EList variable = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__VARIABLE);
return variable != null && !variable.isEmpty();
case UMLPackage.SEQUENCE_NODE__EDGE :
EList edge = (EList) eVirtualGet(UMLPackage.SEQUENCE_NODE__EDGE);
return edge != null && !edge.isEmpty();
case UMLPackage.SEQUENCE_NODE__MUST_ISOLATE :
return ((eFlags & MUST_ISOLATE_EFLAG) != 0) != MUST_ISOLATE_EDEFAULT;
case UMLPackage.SEQUENCE_NODE__NODE :
return isSetNodes();
case UMLPackage.SEQUENCE_NODE__EXECUTABLE_NODE :
return isSetExecutableNodes();
}
return eDynamicIsSet(featureID);
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public EList getNodes() {
return getExecutableNodes();
}
/**
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public boolean isSetNodes() {
return false;
}
} //SequenceNodeImpl