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/*****************************************************************************
* Copyright (c) 2013 CEA
*
*
* 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:
* Soyatec - Initial API and implementation
*
*****************************************************************************/
package org.eclipse.papyrus.uml.diagram.sequence.tests.bug.m7;
import java.util.List;
import org.eclipse.draw2d.geometry.Dimension;
import org.eclipse.draw2d.geometry.Point;
import org.eclipse.gef.RequestConstants;
import org.eclipse.gef.commands.Command;
import org.eclipse.gef.requests.GroupRequest;
import org.eclipse.papyrus.uml.diagram.sequence.edit.parts.AbstractExecutionSpecificationEditPart;
import org.eclipse.papyrus.uml.diagram.sequence.edit.parts.AbstractMessageEditPart;
import org.eclipse.papyrus.uml.diagram.sequence.edit.parts.ExecutionSpecificationEndEditPart;
import org.eclipse.papyrus.uml.diagram.sequence.edit.parts.LifelineEditPart;
import org.eclipse.papyrus.uml.diagram.sequence.providers.UMLElementTypes;
import org.eclipse.papyrus.uml.diagram.sequence.util.SequenceUtil;
import org.eclipse.uml2.uml.ExecutionSpecification;
import org.eclipse.uml2.uml.Message;
import org.eclipse.uml2.uml.OccurrenceSpecification;
import org.junit.Test;
/**
* Test Execution ends(one is MessageOccurrenceSpecification of linked message) when the message reconnected or deleted.
*
* @author Jin Liu (jin.liu@soyatec.com)
*/
public class TestExecutionEndsWithMessageOccurrenceSpecification extends AbstractNodeTest {
private AbstractExecutionSpecificationEditPart createExecutionSpecificationWithLifeline(Point lifelineLocation, Dimension executionSize) {
LifelineEditPart lifeline = (LifelineEditPart)createNode(UMLElementTypes.Lifeline_3001, getRootEditPart(), lifelineLocation, null);
assertNotNull("create ExecutionSpecification's Lifeline", lifeline);
AbstractExecutionSpecificationEditPart es = (AbstractExecutionSpecificationEditPart)createNode(UMLElementTypes.ActionExecutionSpecification_3006, lifeline, getAbsoluteBounds(lifeline).getCenter(), executionSize);
assertNotNull("create ExecutionSpecification", es);
return es;
}
@SuppressWarnings("rawtypes")
private ExecutionSpecificationEndEditPart findEndEditPart(AbstractExecutionSpecificationEditPart parent, boolean startEnd) {
if(parent == null) {
return null;
}
ExecutionSpecification execution = (ExecutionSpecification)parent.resolveSemanticElement();
OccurrenceSpecification end = startEnd ? execution.getStart() : execution.getFinish();
List children = parent.getChildren();
for(Object object : children) {
if(object instanceof ExecutionSpecificationEndEditPart && ((ExecutionSpecificationEndEditPart)object).resolveSemanticElement() == end) {
return (ExecutionSpecificationEndEditPart)object;
}
}
return null;
}
private void checkExecutionEnds(ExecutionSpecification execution, OccurrenceSpecification start, OccurrenceSpecification finish) {
checkExecutionValid(execution);
assertNotNull("start", start);
assertNotNull("finish", finish);
assertEquals("execution start", start, execution.getStart());
assertEquals("execution finish", finish, execution.getFinish());
}
private void checkExecutionValid(ExecutionSpecification execution) {
assertNotNull("execution", execution);
assertNotNull("start", execution.getStart());
assertNotNull("finish", execution.getFinish());
}
@Test
public void testReconnectSourceToExecution() {
AbstractExecutionSpecificationEditPart execution1 = createExecutionSpecificationWithLifeline(new Point(100, 100), null);
AbstractExecutionSpecificationEditPart execution2 = createExecutionSpecificationWithLifeline(new Point(300, 100), null);
//1. create message: execution1.start ----message----> execution2
ExecutionSpecificationEndEditPart source = findEndEditPart(execution1, true);
AbstractMessageEditPart message = (AbstractMessageEditPart)createLink(UMLElementTypes.Message_4004, execution1.getViewer(), SequenceUtil.getAbsoluteBounds(execution1).getTop(), source, SequenceUtil.getAbsoluteBounds(execution2).getCenter(), execution2);
assertNotNull("Message", message);
Message umlMsg = (Message)message.resolveSemanticElement();
ExecutionSpecification umlExecution = (ExecutionSpecification)execution1.resolveSemanticElement();
// result: execution1.start == message.sendEvent
checkExecutionEnds(umlExecution, (OccurrenceSpecification)umlMsg.getSendEvent(), umlExecution.getFinish());
//2. reconnect message: execution1 ----message----> execution2
reconnectSource(message, execution1, SequenceUtil.getAbsoluteBounds(execution1).getCenter().getTranslated(0, -5));
// result: execution1.start != message.sendEvent && execution1.start = executionOccurrenceSpecification
checkExecutionValid(umlExecution);
assertNotSame("should not same: execution start", umlMsg.getSendEvent(), umlExecution.getStart());
assertNotSame("should not same: execution finish", umlMsg.getSendEvent(), umlExecution.getFinish());
//3. reconnect message: execution1.finish ----message----> execution2
reconnectSource(message, findEndEditPart(execution1, false), SequenceUtil.getAbsoluteBounds(execution1).getBottom());
//result: execution1.finish = message.sendEvent
checkExecutionEnds(umlExecution, umlExecution.getStart(), (OccurrenceSpecification)umlMsg.getSendEvent());
//4. REPEAT: reconnect message : execution1 ----message----> execution2
reconnectSource(message, execution1, SequenceUtil.getAbsoluteBounds(execution1).getCenter().getTranslated(0, -5));
// result: execution1.start != message.sendEvent && execution1.start = executionOccurrenceSpecification
checkExecutionValid(umlExecution);
assertNotSame("should not same: execution start", umlMsg.getSendEvent(), umlExecution.getStart());
assertNotSame("should not same: execution finish", umlMsg.getSendEvent(), umlExecution.getFinish());
}
@Test
public void testReconnectTargetToExecution() {
AbstractExecutionSpecificationEditPart execution1 = createExecutionSpecificationWithLifeline(new Point(100, 100), null);
AbstractExecutionSpecificationEditPart execution2 = createExecutionSpecificationWithLifeline(new Point(300, 100), null);
//1. create message: execution1 ----message----> execution2.start
ExecutionSpecificationEndEditPart target = findEndEditPart(execution2, true);
AbstractMessageEditPart message = (AbstractMessageEditPart)createLink(UMLElementTypes.Message_4004, execution1.getViewer(), SequenceUtil.getAbsoluteBounds(execution1).getCenter(), execution1, SequenceUtil.getAbsoluteBounds(execution2).getTop(), target);
assertNotNull("Message", message);
Message umlMsg = (Message)message.resolveSemanticElement();
ExecutionSpecification umlExecution = (ExecutionSpecification)execution2.resolveSemanticElement();
// result: execution2.start == message.receiveEvent
checkExecutionEnds(umlExecution, (OccurrenceSpecification)umlMsg.getReceiveEvent(), umlExecution.getFinish());
//2. reconnect message: execution1 ----message----> execution2
reconnectTarget(message, execution2, SequenceUtil.getAbsoluteBounds(execution2).getCenter().getTranslated(0, 5));
// result: execution2.start != message.receiveEvent && execution2.start = executionOccurrenceSpecification
// result: execution2.finish != message.receiveEvent && execution2.finish = executionOccurrenceSpecification
checkExecutionValid(umlExecution);
assertNotSame("should not same: execution start", umlMsg.getReceiveEvent(), umlExecution.getStart());
assertNotSame("should not same: execution finish", umlMsg.getReceiveEvent(), umlExecution.getFinish());
//3. reconnect message: execution1 ----message----> execution2.finish
reconnectTarget(message, findEndEditPart(execution2, false), SequenceUtil.getAbsoluteBounds(execution2).getBottom());
//result: execution2.finish = message.receiveEvent
checkExecutionEnds(umlExecution, umlExecution.getStart(), (OccurrenceSpecification)umlMsg.getReceiveEvent());
//4. REPEAT: reconnect message : execution1 ----message----> execution2
reconnectTarget(message, execution2, SequenceUtil.getAbsoluteBounds(execution2).getCenter().getTranslated(0, 5));
// result: execution2.start != message.receiveEvent && execution2.start = executionOccurrenceSpecification
// result: execution2.finish != message.receiveEvent && execution2.finish = executionOccurrenceSpecification
checkExecutionValid(umlExecution);
assertNotSame("should not same: execution start", umlMsg.getReceiveEvent(), umlExecution.getStart());
assertNotSame("should not same: execution finish", umlMsg.getReceiveEvent(), umlExecution.getFinish());
}
@Test
public void testReconnectSourceToChildExecution() {
AbstractExecutionSpecificationEditPart execution1 = createExecutionSpecificationWithLifeline(new Point(100, 100), new Dimension(16, 80));
AbstractExecutionSpecificationEditPart execution2 = createExecutionSpecificationWithLifeline(new Point(300, 100), new Dimension(16, 150));
AbstractExecutionSpecificationEditPart execution3 = (AbstractExecutionSpecificationEditPart)createNode(UMLElementTypes.ActionExecutionSpecification_3006, execution1.getParent(), SequenceUtil.getAbsoluteBounds(execution1).getCenter(), null);
//1. create message: execution1.start ----message----> execution2
ExecutionSpecificationEndEditPart source = findEndEditPart(execution1, true);
AbstractMessageEditPart message = (AbstractMessageEditPart)createLink(UMLElementTypes.Message_4004, execution1.getViewer(), SequenceUtil.getAbsoluteBounds(execution1).getTop(), source, SequenceUtil.getAbsoluteBounds(execution2).getCenter(), execution2);
assertNotNull("Message", message);
Message umlMsg = (Message)message.resolveSemanticElement();
ExecutionSpecification umlExecution = (ExecutionSpecification)execution1.resolveSemanticElement();
// result: execution1.start == message.sendEvent
checkExecutionEnds(umlExecution, (OccurrenceSpecification)umlMsg.getSendEvent(), umlExecution.getFinish());
//2. reconnect message: execution3 ----message----> execution2
reconnectSource(message, execution3, SequenceUtil.getAbsoluteBounds(execution3).getCenter());
//result: execution1.start != message.sendEvent
checkExecutionValid(umlExecution);
assertNotSame("should not same: execution start", umlMsg.getSendEvent(), umlExecution.getStart());
}
@Test
public void testReconnectTargetToChildExecution() {
AbstractExecutionSpecificationEditPart execution1 = createExecutionSpecificationWithLifeline(new Point(100, 100), new Dimension(16, 100));
AbstractExecutionSpecificationEditPart execution2 = createExecutionSpecificationWithLifeline(new Point(300, 100), new Dimension(16, 80));
AbstractExecutionSpecificationEditPart execution3 = (AbstractExecutionSpecificationEditPart)createNode(UMLElementTypes.ActionExecutionSpecification_3006, execution1.getParent(), SequenceUtil.getAbsoluteBounds(execution1).getCenter(), null);
//1. create message: execution2 ----message----> execution1.start
ExecutionSpecificationEndEditPart target = findEndEditPart(execution1, true);
AbstractMessageEditPart message = (AbstractMessageEditPart)createLink(UMLElementTypes.Message_4004, execution1.getViewer(), SequenceUtil.getAbsoluteBounds(execution2).getCenter(), execution2, SequenceUtil.getAbsoluteBounds(execution1).getTop(), target);
assertNotNull("Message", message);
Message umlMsg = (Message)message.resolveSemanticElement();
ExecutionSpecification umlExecution = (ExecutionSpecification)execution1.resolveSemanticElement();
// result: execution1.start == message.receiveEvent
checkExecutionEnds(umlExecution, (OccurrenceSpecification)umlMsg.getReceiveEvent(), umlExecution.getFinish());
//2. reconnect message: execution2 ----message----> execution3
reconnectTarget(message, execution3, SequenceUtil.getAbsoluteBounds(execution3).getCenter());
//result: execution1.start != message.receiveEvent
checkExecutionValid(umlExecution);
assertNotSame("should not same: execution start", umlMsg.getReceiveEvent(), umlExecution.getStart());
}
@Test
public void testDeleteMessage() {
AbstractExecutionSpecificationEditPart execution1 = createExecutionSpecificationWithLifeline(new Point(100, 100), null);
AbstractExecutionSpecificationEditPart execution2 = createExecutionSpecificationWithLifeline(new Point(300, 100), null);
//1. create message: execution1.start ----message----> execution2.start
ExecutionSpecificationEndEditPart source = findEndEditPart(execution1, true);
ExecutionSpecificationEndEditPart target = findEndEditPart(execution2, true);
AbstractMessageEditPart message = (AbstractMessageEditPart)createLink(UMLElementTypes.Message_4004, execution1.getViewer(), SequenceUtil.getAbsoluteBounds(execution1).getTop(), source, SequenceUtil.getAbsoluteBounds(execution2).getTop(), target);
assertNotNull("Message", message);
Message umlMsg = (Message)message.resolveSemanticElement();
ExecutionSpecification umlExecution1 = (ExecutionSpecification)execution1.resolveSemanticElement();
ExecutionSpecification umlExecution2 = (ExecutionSpecification)execution2.resolveSemanticElement();
checkExecutionEnds(umlExecution1, (OccurrenceSpecification)umlMsg.getSendEvent(), umlExecution1.getFinish());
checkExecutionEnds(umlExecution2, (OccurrenceSpecification)umlMsg.getReceiveEvent(), umlExecution2.getFinish());
//2. delete the message
GroupRequest deleteReq = new GroupRequest(RequestConstants.REQ_DELETE);
deleteReq.setEditParts(message);
Command command = message.getCommand(deleteReq);
assertNotNull("delete command", command);
assertTrue("command can be executed", command.canExecute());
getDiagramCommandStack().execute(command);
checkExecutionValid(umlExecution1);
checkExecutionValid(umlExecution2);
}
@Test
public void testDeleteSourceExecution() {
AbstractExecutionSpecificationEditPart execution1 = createExecutionSpecificationWithLifeline(new Point(100, 100), null);
AbstractExecutionSpecificationEditPart execution2 = createExecutionSpecificationWithLifeline(new Point(300, 100), null);
//1. create message: execution1.start ----message----> execution2.start
ExecutionSpecificationEndEditPart source = findEndEditPart(execution1, true);
ExecutionSpecificationEndEditPart target = findEndEditPart(execution2, true);
AbstractMessageEditPart message = (AbstractMessageEditPart)createLink(UMLElementTypes.Message_4004, execution1.getViewer(), SequenceUtil.getAbsoluteBounds(execution1).getTop(), source, SequenceUtil.getAbsoluteBounds(execution2).getTop(), target);
assertNotNull("Message", message);
Message umlMsg = (Message)message.resolveSemanticElement();
ExecutionSpecification umlExecution1 = (ExecutionSpecification)execution1.resolveSemanticElement();
ExecutionSpecification umlExecution2 = (ExecutionSpecification)execution2.resolveSemanticElement();
checkExecutionEnds(umlExecution1, (OccurrenceSpecification)umlMsg.getSendEvent(), umlExecution1.getFinish());
checkExecutionEnds(umlExecution2, (OccurrenceSpecification)umlMsg.getReceiveEvent(), umlExecution2.getFinish());
//2. delete execution1
GroupRequest deleteReq = new GroupRequest(RequestConstants.REQ_DELETE);
deleteReq.setEditParts(execution1);
Command command = execution1.getCommand(deleteReq);
assertNotNull("delete command", command);
assertTrue("command can be executed", command.canExecute());
getDiagramCommandStack().execute(command);
checkExecutionValid(umlExecution2);
}
@Test
public void testDeleteTargetExecution() {
AbstractExecutionSpecificationEditPart execution1 = createExecutionSpecificationWithLifeline(new Point(100, 100), null);
AbstractExecutionSpecificationEditPart execution2 = createExecutionSpecificationWithLifeline(new Point(300, 100), null);
//1. create message: execution1.start ----message----> execution2.start
ExecutionSpecificationEndEditPart source = findEndEditPart(execution1, true);
ExecutionSpecificationEndEditPart target = findEndEditPart(execution2, true);
AbstractMessageEditPart message = (AbstractMessageEditPart)createLink(UMLElementTypes.Message_4004, execution1.getViewer(), SequenceUtil.getAbsoluteBounds(execution1).getTop(), source, SequenceUtil.getAbsoluteBounds(execution2).getTop(), target);
assertNotNull("Message", message);
Message umlMsg = (Message)message.resolveSemanticElement();
ExecutionSpecification umlExecution1 = (ExecutionSpecification)execution1.resolveSemanticElement();
ExecutionSpecification umlExecution2 = (ExecutionSpecification)execution2.resolveSemanticElement();
checkExecutionEnds(umlExecution1, (OccurrenceSpecification)umlMsg.getSendEvent(), umlExecution1.getFinish());
checkExecutionEnds(umlExecution2, (OccurrenceSpecification)umlMsg.getReceiveEvent(), umlExecution2.getFinish());
//2. delete execution2
GroupRequest deleteReq = new GroupRequest(RequestConstants.REQ_DELETE);
deleteReq.setEditParts(execution2);
Command command = execution2.getCommand(deleteReq);
assertNotNull("delete command", command);
assertTrue("command can be executed", command.canExecute());
getDiagramCommandStack().execute(command);
checkExecutionValid(umlExecution1);
}
}
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