taverna-scufl2-validation-correctness/src/test/java/org/apache/taverna/scufl2/validation/correctness/TestDataLink.java - incubator-taverna-language - Git at Google

 package org.apache.taverna.scufl2.validation.correctness;
 /*
  *
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License.  You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied.  See the License for the
  * specific language governing permissions and limitations
  * under the License.
  *
 */


 import static org.junit.Assert.*;

 import java.util.Collections;
 import java.util.Set;

 import org.apache.taverna.scufl2.api.core.DataLink;
 import org.apache.taverna.scufl2.api.core.Processor;
 import org.apache.taverna.scufl2.api.core.Workflow;
 import org.apache.taverna.scufl2.api.port.InputProcessorPort;
 import org.apache.taverna.scufl2.api.port.InputWorkflowPort;
 import org.apache.taverna.scufl2.api.port.OutputProcessorPort;
 import org.apache.taverna.scufl2.api.port.OutputWorkflowPort;
 import org.apache.taverna.scufl2.validation.correctness.CorrectnessValidator;
 import org.apache.taverna.scufl2.validation.correctness.ReportCorrectnessValidationListener;
 import org.apache.taverna.scufl2.validation.correctness.report.NegativeValueProblem;
 import org.apache.taverna.scufl2.validation.correctness.report.NullFieldProblem;
 import org.apache.taverna.scufl2.validation.correctness.report.OutOfScopeValueProblem;
 import org.junit.Test;


 public class TestDataLink {

 	@Test
 	public void testCorrectnessOfMissingSendsTo() {
 		DataLink dataLink = new DataLink();
 		InputWorkflowPort iwp = new InputWorkflowPort();
 		dataLink.setReceivesFrom(iwp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, false, rcvl);

 		Set<NullFieldProblem> nullFieldProblems = rcvl.getNullFieldProblems();
 		assertEquals(0, nullFieldProblems.size()); // only done when completeness check

 	}

 	@Test
 	public void testCompletenessOfMissingSendsTo() {
 		DataLink dataLink = new DataLink();
 		InputWorkflowPort iwp = new InputWorkflowPort();
 		dataLink.setReceivesFrom(iwp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, true, rcvl);

 		Set<NullFieldProblem> nullFieldProblems = rcvl.getNullFieldProblems();
 		assertFalse(nullFieldProblems.isEmpty()); // only done when completeness check

 		boolean fieldProblem = false;
 		for (NullFieldProblem nlp : nullFieldProblems) {
 			if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("sendsTo")) {
 				fieldProblem = true;
 			}
 		}
 		assertTrue(fieldProblem);
 	}

 	@Test
 	public void testCorrectnessOfMissingReceivesFrom() {
 		DataLink dataLink = new DataLink();
 		OutputWorkflowPort owp = new OutputWorkflowPort();
 		dataLink.setSendsTo(owp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, false, rcvl);

 		Set<NullFieldProblem> nullFieldProblems = rcvl.getNullFieldProblems();
 		assertEquals(0, nullFieldProblems.size()); // only done when completeness check

 	}

 	@Test
 	public void testCompletenessOfMissingReceivesFrom() {
 		DataLink dataLink = new DataLink();
 		OutputWorkflowPort owp = new OutputWorkflowPort();
 		dataLink.setSendsTo(owp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, true, rcvl);

 		Set<NullFieldProblem> nullFieldProblems = rcvl.getNullFieldProblems();
 		assertFalse(nullFieldProblems.isEmpty()); // only done when completeness check

 		boolean fieldProblem = false;
 		for (NullFieldProblem nlp : nullFieldProblems) {
 			if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("receivesFrom")) {
 				fieldProblem = true;
 			}
 		}
 		assertTrue(fieldProblem);
 	}

 	@Test
 	public void testInScopePorts() {
 		Workflow w = new Workflow();
 		DataLink dataLink = new DataLink();
 		dataLink.setParent(w);

 		InputWorkflowPort iwp = new InputWorkflowPort();
 		iwp.setParent(w);

 		OutputWorkflowPort owp = new OutputWorkflowPort();
 		owp.setParent(w);

 		dataLink.setReceivesFrom(iwp);
 		dataLink.setSendsTo(owp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, true, rcvl);

 		Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
 		assertEquals(Collections.EMPTY_SET, outOfScopeValueProblems);
 	}

 	@Test
 	public void testOutOfScopeReceivesFrom() {
 		Workflow w = new Workflow();

 		Workflow otherWorkflow = new Workflow();

 		DataLink dataLink = new DataLink();
 		dataLink.setParent(w);

 		InputWorkflowPort iwp = new InputWorkflowPort();
 		iwp.setParent(otherWorkflow);

 		OutputWorkflowPort owp = new OutputWorkflowPort();
 		owp.setParent(w);

 		dataLink.setReceivesFrom(iwp);
 		dataLink.setSendsTo(owp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, true, rcvl);

 		Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
 		assertFalse(outOfScopeValueProblems.isEmpty());

 		boolean problem = false;
 		for (OutOfScopeValueProblem nlp : outOfScopeValueProblems) {
 			if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("receivesFrom") && nlp.getValue().equals(iwp)) {
 				problem = true;
 			}
 		}
 		assertTrue(problem);
 	}

 	@Test
 	public void testOutOfScopeSendsTo() {
 		Workflow w = new Workflow();

 		Workflow otherWorkflow = new Workflow();

 		DataLink dataLink = new DataLink();
 		dataLink.setParent(w);

 		InputWorkflowPort iwp = new InputWorkflowPort();
 		iwp.setParent(w);

 		OutputWorkflowPort owp = new OutputWorkflowPort();
 		owp.setParent(otherWorkflow);

 		dataLink.setReceivesFrom(iwp);
 		dataLink.setSendsTo(owp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, true, rcvl);

 		Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
 		assertFalse(outOfScopeValueProblems.isEmpty());

 		boolean problem = false;
 		for (OutOfScopeValueProblem nlp : outOfScopeValueProblems) {
 			if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("sendsTo") && nlp.getValue().equals(owp)) {
 				problem = true;
 			}
 		}
 		assertTrue(problem);
 	}

 	@Test
 	public void testInScopeProcessorPorts() {
 		Workflow w = new Workflow();
 		DataLink dataLink = new DataLink();
 		dataLink.setParent(w);

 		Processor p1 = new Processor();
 		p1.setParent(w);

 		InputProcessorPort ipp = new InputProcessorPort();
 		ipp.setParent(p1);

 		Processor p2 = new Processor();
 		p2.setParent(w);

 		OutputProcessorPort opp = new OutputProcessorPort();
 		opp.setParent(p2);

 		dataLink.setReceivesFrom(opp);
 		dataLink.setSendsTo(ipp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, true, rcvl);

 		Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
 		assertEquals(Collections.EMPTY_SET, outOfScopeValueProblems);
 	}

 	@Test
 	public void testOutOfScopeReceivesFromProcessorPort() {
 		Workflow w = new Workflow();
 		Workflow otherWorkflow = new Workflow();

 		DataLink dataLink = new DataLink();
 		dataLink.setParent(w);

 		Processor p1 = new Processor();
 		p1.setParent(w);

 		InputProcessorPort ipp = new InputProcessorPort();
 		ipp.setParent(p1);

 		Processor p2 = new Processor();
 		p2.setParent(otherWorkflow);

 		OutputProcessorPort opp = new OutputProcessorPort();
 		opp.setParent(p2);

 		dataLink.setReceivesFrom(opp);
 		dataLink.setSendsTo(ipp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, true, rcvl);

 		Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
 		assertFalse(outOfScopeValueProblems.isEmpty());

 		boolean problem = false;
 		for (OutOfScopeValueProblem nlp : outOfScopeValueProblems) {
 			if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("receivesFrom") && nlp.getValue().equals(opp)) {
 				problem = true;
 			}
 		}
 		assertTrue(problem);
 	}

 	@Test
 	public void testOutOfScopeSendsToProcessorPort() {
 		Workflow w = new Workflow();
 		Workflow otherWorkflow = new Workflow();

 		DataLink dataLink = new DataLink();
 		dataLink.setParent(w);

 		Processor p1 = new Processor();
 		p1.setParent(otherWorkflow);

 		InputProcessorPort ipp = new InputProcessorPort();
 		ipp.setParent(p1);

 		Processor p2 = new Processor();
 		p2.setParent(w);

 		OutputProcessorPort opp = new OutputProcessorPort();
 		opp.setParent(p2);

 		dataLink.setReceivesFrom(opp);
 		dataLink.setSendsTo(ipp);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, true, rcvl);

 		Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
 		assertFalse(outOfScopeValueProblems.isEmpty());

 		boolean problem = false;
 		for (OutOfScopeValueProblem nlp : outOfScopeValueProblems) {
 			if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("sendsTo") && nlp.getValue().equals(ipp)) {
 				problem = true;
 			}
 		}
 		assertTrue(problem);
 	}

 	@Test
 	public void testCorrectnessOfMergePositionSpecifiedIncorrectly() {
 		Workflow w = new Workflow();
 		DataLink dataLink = new DataLink();
 		dataLink.setParent(w);

 		InputWorkflowPort iwp = new InputWorkflowPort();
 		iwp.setParent(w);

 		OutputWorkflowPort owp = new OutputWorkflowPort();
 		owp.setParent(w);

 		dataLink.setReceivesFrom(iwp);
 		dataLink.setSendsTo(owp);

 		Integer mergePosition = Integer.valueOf(-3);
 		dataLink.setMergePosition(mergePosition);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, false, rcvl);

 		Set<NegativeValueProblem> negativeValueProblems = rcvl.getNegativeValueProblems();
 		assertEquals(1, negativeValueProblems.size());
 		if (!negativeValueProblems.isEmpty()) {
 			NegativeValueProblem problem = negativeValueProblems.iterator().next();
 			assertEquals(problem.getBean(), dataLink);
 			assertEquals(problem.getFieldName(), "mergePosition");
 			assertEquals(problem.getFieldValue(), mergePosition);
 		}
 	}

 	@Test
 	public void testCorrectnessOfMergePositionSpecifiedCorrectly() {
 		Workflow w = new Workflow();
 		DataLink dataLink = new DataLink();
 		dataLink.setParent(w);

 		InputWorkflowPort iwp = new InputWorkflowPort();
 		iwp.setParent(w);

 		OutputWorkflowPort owp = new OutputWorkflowPort();
 		owp.setParent(w);

 		dataLink.setReceivesFrom(iwp);
 		dataLink.setSendsTo(owp);

 		Integer mergePosition = Integer.valueOf(3);
 		dataLink.setMergePosition(mergePosition);

 		CorrectnessValidator cv = new CorrectnessValidator();
 		ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

 		cv.checkCorrectness(dataLink, false, rcvl);

 		Set<NegativeValueProblem> negativeValueProblems = rcvl.getNegativeValueProblems();
 		assertEquals(Collections.EMPTY_SET, negativeValueProblems);
 	}

 }
	package org.apache.taverna.scufl2.validation.correctness;
	/*
	*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*
	*/


	import static org.junit.Assert.*;

	import java.util.Collections;
	import java.util.Set;

	import org.apache.taverna.scufl2.api.core.DataLink;
	import org.apache.taverna.scufl2.api.core.Processor;
	import org.apache.taverna.scufl2.api.core.Workflow;
	import org.apache.taverna.scufl2.api.port.InputProcessorPort;
	import org.apache.taverna.scufl2.api.port.InputWorkflowPort;
	import org.apache.taverna.scufl2.api.port.OutputProcessorPort;
	import org.apache.taverna.scufl2.api.port.OutputWorkflowPort;
	import org.apache.taverna.scufl2.validation.correctness.CorrectnessValidator;
	import org.apache.taverna.scufl2.validation.correctness.ReportCorrectnessValidationListener;
	import org.apache.taverna.scufl2.validation.correctness.report.NegativeValueProblem;
	import org.apache.taverna.scufl2.validation.correctness.report.NullFieldProblem;
	import org.apache.taverna.scufl2.validation.correctness.report.OutOfScopeValueProblem;
	import org.junit.Test;



	public class TestDataLink {

	@Test
	public void testCorrectnessOfMissingSendsTo() {
	DataLink dataLink = new DataLink();
	InputWorkflowPort iwp = new InputWorkflowPort();
	dataLink.setReceivesFrom(iwp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, false, rcvl);

	Set<NullFieldProblem> nullFieldProblems = rcvl.getNullFieldProblems();
	assertEquals(0, nullFieldProblems.size()); // only done when completeness check

	}

	@Test
	public void testCompletenessOfMissingSendsTo() {
	DataLink dataLink = new DataLink();
	InputWorkflowPort iwp = new InputWorkflowPort();
	dataLink.setReceivesFrom(iwp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, true, rcvl);

	Set<NullFieldProblem> nullFieldProblems = rcvl.getNullFieldProblems();
	assertFalse(nullFieldProblems.isEmpty()); // only done when completeness check

	boolean fieldProblem = false;
	for (NullFieldProblem nlp : nullFieldProblems) {
	if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("sendsTo")) {
	fieldProblem = true;
	}
	}
	assertTrue(fieldProblem);
	}

	@Test
	public void testCorrectnessOfMissingReceivesFrom() {
	DataLink dataLink = new DataLink();
	OutputWorkflowPort owp = new OutputWorkflowPort();
	dataLink.setSendsTo(owp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, false, rcvl);

	Set<NullFieldProblem> nullFieldProblems = rcvl.getNullFieldProblems();
	assertEquals(0, nullFieldProblems.size()); // only done when completeness check

	}

	@Test
	public void testCompletenessOfMissingReceivesFrom() {
	DataLink dataLink = new DataLink();
	OutputWorkflowPort owp = new OutputWorkflowPort();
	dataLink.setSendsTo(owp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, true, rcvl);

	Set<NullFieldProblem> nullFieldProblems = rcvl.getNullFieldProblems();
	assertFalse(nullFieldProblems.isEmpty()); // only done when completeness check

	boolean fieldProblem = false;
	for (NullFieldProblem nlp : nullFieldProblems) {
	if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("receivesFrom")) {
	fieldProblem = true;
	}
	}
	assertTrue(fieldProblem);
	}

	@Test
	public void testInScopePorts() {
	Workflow w = new Workflow();
	DataLink dataLink = new DataLink();
	dataLink.setParent(w);

	InputWorkflowPort iwp = new InputWorkflowPort();
	iwp.setParent(w);

	OutputWorkflowPort owp = new OutputWorkflowPort();
	owp.setParent(w);

	dataLink.setReceivesFrom(iwp);
	dataLink.setSendsTo(owp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, true, rcvl);

	Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
	assertEquals(Collections.EMPTY_SET, outOfScopeValueProblems);
	}

	@Test
	public void testOutOfScopeReceivesFrom() {
	Workflow w = new Workflow();

	Workflow otherWorkflow = new Workflow();

	DataLink dataLink = new DataLink();
	dataLink.setParent(w);

	InputWorkflowPort iwp = new InputWorkflowPort();
	iwp.setParent(otherWorkflow);

	OutputWorkflowPort owp = new OutputWorkflowPort();
	owp.setParent(w);

	dataLink.setReceivesFrom(iwp);
	dataLink.setSendsTo(owp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, true, rcvl);

	Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
	assertFalse(outOfScopeValueProblems.isEmpty());

	boolean problem = false;
	for (OutOfScopeValueProblem nlp : outOfScopeValueProblems) {
	if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("receivesFrom") && nlp.getValue().equals(iwp)) {
	problem = true;
	}
	}
	assertTrue(problem);
	}

	@Test
	public void testOutOfScopeSendsTo() {
	Workflow w = new Workflow();

	Workflow otherWorkflow = new Workflow();

	DataLink dataLink = new DataLink();
	dataLink.setParent(w);

	InputWorkflowPort iwp = new InputWorkflowPort();
	iwp.setParent(w);

	OutputWorkflowPort owp = new OutputWorkflowPort();
	owp.setParent(otherWorkflow);

	dataLink.setReceivesFrom(iwp);
	dataLink.setSendsTo(owp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, true, rcvl);

	Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
	assertFalse(outOfScopeValueProblems.isEmpty());

	boolean problem = false;
	for (OutOfScopeValueProblem nlp : outOfScopeValueProblems) {
	if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("sendsTo") && nlp.getValue().equals(owp)) {
	problem = true;
	}
	}
	assertTrue(problem);
	}

	@Test
	public void testInScopeProcessorPorts() {
	Workflow w = new Workflow();
	DataLink dataLink = new DataLink();
	dataLink.setParent(w);

	Processor p1 = new Processor();
	p1.setParent(w);

	InputProcessorPort ipp = new InputProcessorPort();
	ipp.setParent(p1);

	Processor p2 = new Processor();
	p2.setParent(w);

	OutputProcessorPort opp = new OutputProcessorPort();
	opp.setParent(p2);

	dataLink.setReceivesFrom(opp);
	dataLink.setSendsTo(ipp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, true, rcvl);

	Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
	assertEquals(Collections.EMPTY_SET, outOfScopeValueProblems);
	}

	@Test
	public void testOutOfScopeReceivesFromProcessorPort() {
	Workflow w = new Workflow();
	Workflow otherWorkflow = new Workflow();

	DataLink dataLink = new DataLink();
	dataLink.setParent(w);

	Processor p1 = new Processor();
	p1.setParent(w);

	InputProcessorPort ipp = new InputProcessorPort();
	ipp.setParent(p1);

	Processor p2 = new Processor();
	p2.setParent(otherWorkflow);

	OutputProcessorPort opp = new OutputProcessorPort();
	opp.setParent(p2);

	dataLink.setReceivesFrom(opp);
	dataLink.setSendsTo(ipp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, true, rcvl);

	Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
	assertFalse(outOfScopeValueProblems.isEmpty());

	boolean problem = false;
	for (OutOfScopeValueProblem nlp : outOfScopeValueProblems) {
	if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("receivesFrom") && nlp.getValue().equals(opp)) {
	problem = true;
	}
	}
	assertTrue(problem);
	}

	@Test
	public void testOutOfScopeSendsToProcessorPort() {
	Workflow w = new Workflow();
	Workflow otherWorkflow = new Workflow();

	DataLink dataLink = new DataLink();
	dataLink.setParent(w);

	Processor p1 = new Processor();
	p1.setParent(otherWorkflow);

	InputProcessorPort ipp = new InputProcessorPort();
	ipp.setParent(p1);

	Processor p2 = new Processor();
	p2.setParent(w);

	OutputProcessorPort opp = new OutputProcessorPort();
	opp.setParent(p2);

	dataLink.setReceivesFrom(opp);
	dataLink.setSendsTo(ipp);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, true, rcvl);

	Set<OutOfScopeValueProblem> outOfScopeValueProblems = rcvl.getOutOfScopeValueProblems();
	assertFalse(outOfScopeValueProblems.isEmpty());

	boolean problem = false;
	for (OutOfScopeValueProblem nlp : outOfScopeValueProblems) {
	if (nlp.getBean().equals(dataLink) && nlp.getFieldName().equals("sendsTo") && nlp.getValue().equals(ipp)) {
	problem = true;
	}
	}
	assertTrue(problem);
	}

	@Test
	public void testCorrectnessOfMergePositionSpecifiedIncorrectly() {
	Workflow w = new Workflow();
	DataLink dataLink = new DataLink();
	dataLink.setParent(w);

	InputWorkflowPort iwp = new InputWorkflowPort();
	iwp.setParent(w);

	OutputWorkflowPort owp = new OutputWorkflowPort();
	owp.setParent(w);

	dataLink.setReceivesFrom(iwp);
	dataLink.setSendsTo(owp);

	Integer mergePosition = Integer.valueOf(-3);
	dataLink.setMergePosition(mergePosition);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, false, rcvl);

	Set<NegativeValueProblem> negativeValueProblems = rcvl.getNegativeValueProblems();
	assertEquals(1, negativeValueProblems.size());
	if (!negativeValueProblems.isEmpty()) {
	NegativeValueProblem problem = negativeValueProblems.iterator().next();
	assertEquals(problem.getBean(), dataLink);
	assertEquals(problem.getFieldName(), "mergePosition");
	assertEquals(problem.getFieldValue(), mergePosition);
	}
	}

	@Test
	public void testCorrectnessOfMergePositionSpecifiedCorrectly() {
	Workflow w = new Workflow();
	DataLink dataLink = new DataLink();
	dataLink.setParent(w);

	InputWorkflowPort iwp = new InputWorkflowPort();
	iwp.setParent(w);

	OutputWorkflowPort owp = new OutputWorkflowPort();
	owp.setParent(w);

	dataLink.setReceivesFrom(iwp);
	dataLink.setSendsTo(owp);

	Integer mergePosition = Integer.valueOf(3);
	dataLink.setMergePosition(mergePosition);

	CorrectnessValidator cv = new CorrectnessValidator();
	ReportCorrectnessValidationListener rcvl = new ReportCorrectnessValidationListener();

	cv.checkCorrectness(dataLink, false, rcvl);

	Set<NegativeValueProblem> negativeValueProblems = rcvl.getNegativeValueProblems();
	assertEquals(Collections.EMPTY_SET, negativeValueProblems);
	}

	}