use of org.palladiosimulator.pcm.usagemodel.AbstractUserAction in project iobserve-analysis by research-iobserve.
the class TUsageModelToBehaviorModel method traverseAction.
private Map<EntryCallNode, Double> traverseAction(final BehaviorModel behaviorModel, final Optional<Map<EntryCallNode, Double>> optPreviousNodes, final AbstractUserAction action) {
if (action instanceof Branch) {
final Branch branch = (Branch) action;
return this.traverseBranch(behaviorModel, optPreviousNodes, branch);
} else if (action instanceof Loop) {
final Loop loop = (Loop) action;
return this.traverseLoop(behaviorModel, optPreviousNodes, loop);
} else if (action instanceof EntryLevelSystemCall) {
final Map<EntryCallNode, Double> endNodes = new HashMap<>();
final EntryLevelSystemCall entryLevelSystemCall = (EntryLevelSystemCall) action;
final EntryCallNode entryCallNode = this.createEntryCallNode(entryLevelSystemCall);
behaviorModel.addNode(entryCallNode);
if (optPreviousNodes.isPresent()) {
optPreviousNodes.get().keySet().stream().map(previousNode -> new EntryCallEdge(previousNode, entryCallNode, optPreviousNodes.get().get(previousNode))).forEach(behaviorModel::addEdge);
}
endNodes.put(entryCallNode, 1.0);
return this.traverseAction(behaviorModel, Optional.of(endNodes), action.getSuccessor());
} else if (action instanceof Stop) {
return optPreviousNodes.isPresent() ? optPreviousNodes.get() : new HashMap<>();
} else {
// skip action
return this.traverseAction(behaviorModel, optPreviousNodes, action.getSuccessor());
}
}
use of org.palladiosimulator.pcm.usagemodel.AbstractUserAction in project iobserve-analysis by research-iobserve.
the class BranchWithinBranchReference method createTheReferenceModel.
/**
* Creates the reference model.
*
* @param usageModelBuilder
* @param repositoryLookupModel
* @param correspondenceModel
* @param numberOfTransitionsOfExteriorBranch
* @param numberOfTransitionsOfInteriorBranches
* @param numberOfConcurrentUsers
* @param branchTransitionCounter
* @param listOfbranchTransitionCounterInterior
* @return
*/
private static UsageModel createTheReferenceModel(final UsageModelFactory usageModelBuilder, final RepositoryLookupModelProvider repositoryLookupModel, final ICorrespondence correspondenceModel, final int numberOfTransitionsOfExteriorBranch, final int numberOfTransitionsOfInteriorBranches, final int numberOfConcurrentUsers, final List<Integer> branchTransitionCounter, final List<List<Integer>> listOfbranchTransitionCounterInterior) {
// In the following the reference usage model is created
AbstractUserAction lastAction;
Optional<Correspondent> optionCorrespondent;
final UsageModel usageModel = UsageModelFactory.createUsageModel();
final UsageScenario usageScenario = UsageModelFactory.createUsageScenario("", usageModel);
final ScenarioBehaviour scenarioBehaviour = usageScenario.getScenarioBehaviour_UsageScenario();
final Start start = UsageModelFactory.createAddStartAction("", scenarioBehaviour);
final Stop stop = UsageModelFactory.createAddStopAction("", scenarioBehaviour);
lastAction = start;
// The exterior branch is created
final org.palladiosimulator.pcm.usagemodel.Branch branch = UsageModelFactory.createBranch("", scenarioBehaviour);
UsageModelFactory.connect(lastAction, branch);
UsageModelFactory.connect(branch, stop);
// Creates branch transitions according to the random countOfBranchTransitions
for (int i = 0; i < numberOfTransitionsOfExteriorBranch; i++) {
final BranchTransition branchTransition = UsageModelFactory.createBranchTransition(branch);
final ScenarioBehaviour branchTransitionBehaviour = branchTransition.getBranchedBehaviour_BranchTransition();
branchTransition.setBranchProbability((double) branchTransitionCounter.get(i) / (double) numberOfConcurrentUsers);
final Start startBranchTransition = UsageModelFactory.createStart("");
UsageModelFactory.addUserAction(branchTransitionBehaviour, startBranchTransition);
final Stop stopBranchTransition = UsageModelFactory.createStop("");
UsageModelFactory.addUserAction(branchTransitionBehaviour, stopBranchTransition);
lastAction = startBranchTransition;
if (i >= 0 && i < 3) {
optionCorrespondent = correspondenceModel.getCorrespondent(ReferenceUsageModelBuilder.CLASS_SIGNATURE[i], ReferenceUsageModelBuilder.OPERATION_SIGNATURE[i]);
} else {
throw new IllegalArgumentException("Illegal value of model element parameter");
}
if (optionCorrespondent.isPresent()) {
final EntryLevelSystemCall entryLevelSystemCall = UsageModelFactory.createEntryLevelSystemCall(repositoryLookupModel, optionCorrespondent.get());
UsageModelFactory.addUserAction(branchTransitionBehaviour, entryLevelSystemCall);
UsageModelFactory.connect(lastAction, entryLevelSystemCall);
lastAction = entryLevelSystemCall;
}
// The interior branch is created
final org.palladiosimulator.pcm.usagemodel.Branch branchInterior = UsageModelFactory.createBranch("", branchTransitionBehaviour);
UsageModelFactory.connect(lastAction, branchInterior);
UsageModelFactory.connect(branchInterior, stopBranchTransition);
for (int j = 0; j < numberOfTransitionsOfInteriorBranches; j++) {
final BranchTransition branchTransitionInterior = UsageModelFactory.createBranchTransition(branchInterior);
final ScenarioBehaviour branchTransitionBehaviourInterior = branchTransitionInterior.getBranchedBehaviour_BranchTransition();
branchTransitionInterior.setBranchProbability((double) listOfbranchTransitionCounterInterior.get(i).get(j) / (double) branchTransitionCounter.get(i));
final Start startBranchTransitionInterior = UsageModelFactory.createAddStartAction("", branchTransitionBehaviourInterior);
final Stop stopBranchTransitionInterior = UsageModelFactory.createAddStopAction("", branchTransitionBehaviourInterior);
lastAction = startBranchTransitionInterior;
optionCorrespondent = BranchWithinBranchReference.getOptionCorrespondent(correspondenceModel, j);
if (optionCorrespondent.isPresent()) {
final Correspondent correspondent = optionCorrespondent.get();
final EntryLevelSystemCall entryLevelSystemCall = UsageModelFactory.createEntryLevelSystemCall(repositoryLookupModel, correspondent);
UsageModelFactory.addUserAction(branchTransitionBehaviourInterior, entryLevelSystemCall);
UsageModelFactory.connect(lastAction, entryLevelSystemCall);
lastAction = entryLevelSystemCall;
}
UsageModelFactory.connect(lastAction, stopBranchTransitionInterior);
}
}
return usageModel;
}
use of org.palladiosimulator.pcm.usagemodel.AbstractUserAction in project iobserve-analysis by research-iobserve.
the class BranchWithinLoopReference method getModel.
/**
* It creates a reference usage model that contains branches within loops. Accordingly, user
* sessions whose call sequences differ from each other are iterated in a row. Thereby, at each
* iteration of a branched call sequences the probabilities have to be equal because otherwise
* it would not be an iteration (RQ-1.8)
*
* @param referenceUsageModelFileName
* reference usage model file name
* @param repositoryLookupModel
* repository model builder
* @param correspondenceModel
* correspondence model
*
* @return reference usage model and corresponding user sessions
* @throws IOException
* on error
*/
public static ReferenceElements getModel(final String referenceUsageModelFileName, final RepositoryLookupModelProvider repositoryLookupModel, final ICorrespondence correspondenceModel) throws IOException {
// The number of model element parameters are created randomly. The number of user sessions
// must be created accordingly to the number of branch transitions, because it must be
// ensured that at each iteration of an branch the branch transition probabilities are
// equal. This can be achieved by the same number of user sessions representing the branch
// transition at each iteration
final int numberOfLoops = TestHelper.getRandomInteger(3, 3);
final int numberOfConcurrentUsers = (int) Math.pow(2, numberOfLoops) * 5;
final EntryCallSequenceModel entryCallSequenceModel = new EntryCallSequenceModel(TestHelper.getUserSessions(numberOfConcurrentUsers));
final ReferenceElements testElements = new ReferenceElements();
// In the following the reference usage model is created
final UsageModel usageModel = UsageModelFactory.createUsageModel();
final UsageScenario usageScenario = UsageModelFactory.createUsageScenario("", usageModel);
final ScenarioBehaviour scenarioBehaviour = usageScenario.getScenarioBehaviour_UsageScenario();
final Start start = UsageModelFactory.createAddStartAction("", scenarioBehaviour);
final Stop stop = UsageModelFactory.createAddStopAction("", scenarioBehaviour);
final AbstractUserAction lastAction = start;
// The loop element is created that contains the iterated branch
final Loop loop = UsageModelFactory.createLoop("", scenarioBehaviour);
final ScenarioBehaviour loopScenarioBehaviour = loop.getBodyBehaviour_Loop();
UsageModelFactory.connect(lastAction, loop);
final PCMRandomVariable pcmLoopIteration = CoreFactory.eINSTANCE.createPCMRandomVariable();
pcmLoopIteration.setSpecification(String.valueOf(numberOfLoops));
// Set number of loops
loop.setLoopIteration_Loop(pcmLoopIteration);
UsageModelFactory.connect(loop, stop);
final Start loopStart = UsageModelFactory.createAddStartAction("", loopScenarioBehaviour);
final Stop loopStop = UsageModelFactory.createAddStopAction("", loopScenarioBehaviour);
// The branch that is contained within the loop element is created
final org.palladiosimulator.pcm.usagemodel.Branch branch = UsageModelFactory.createBranch("", loopScenarioBehaviour);
UsageModelFactory.connect(loopStart, branch);
// The branch transition 1 is created
final BranchTransition branchTransition1 = BranchWithinLoopReference.createBranchTransition(2, repositoryLookupModel, branch, correspondenceModel);
// The branch transition 2 is created
final BranchTransition branchTransition2 = BranchWithinLoopReference.createBranchTransition(3, repositoryLookupModel, branch, correspondenceModel);
final Optional<Correspondent> optionCorrespondent = correspondenceModel.getCorrespondent(ReferenceUsageModelBuilder.CLASS_SIGNATURE[4], ReferenceUsageModelBuilder.OPERATION_SIGNATURE[4]);
if (optionCorrespondent.isPresent()) {
final Correspondent correspondent = optionCorrespondent.get();
final EntryLevelSystemCall entryLevelSystemCall = UsageModelFactory.createEntryLevelSystemCall(repositoryLookupModel, correspondent);
UsageModelFactory.addUserAction(loopScenarioBehaviour, entryLevelSystemCall);
UsageModelFactory.connect(branch, entryLevelSystemCall);
UsageModelFactory.connect(entryLevelSystemCall, loopStop);
}
// User sessions according to the reference usage model are created. Thereby, it must be
// ensured that each iteration of the branch the branch probabilities stay the same because
// the branch is iterated. This can be achieved by an equal number of user sessions for each
// branch transition at each iteration of the branch
int countOfCallEvent3 = 0;
int countOfCallEvent4 = 0;
int entryTime = 1;
int exitTime = 2;
boolean branchDecision = false;
// At each iteration the user sessions are distributed equally between the branch
// transitions to ensure that the probabilities of the branch transitions stay equally
final Map<Integer, List<List<UserSession>>> userSessionGroups = new HashMap<>();
final List<List<UserSession>> startList = new ArrayList<>();
startList.add(entryCallSequenceModel.getUserSessions());
userSessionGroups.put(0, startList);
// The loop that contains the branch
for (int j = 0; j < numberOfLoops; j++) {
countOfCallEvent3 = 0;
countOfCallEvent4 = 0;
final List<List<UserSession>> newUserSessionGroups = new ArrayList<>();
// Ensures that the user sessions distribution stays equally
for (int k = 0; k < userSessionGroups.get(j).size(); k++) {
for (int i = 0; i < 2; i++) {
final List<UserSession> userSessions = new ArrayList<>();
newUserSessionGroups.add(userSessions);
}
final int indexGroupCallEvent3 = newUserSessionGroups.size() - 2;
final int indexGroupCallEvent4 = newUserSessionGroups.size() - 1;
for (int i = 0; i < userSessionGroups.get(j).get(k).size(); i++) {
if (newUserSessionGroups.get(indexGroupCallEvent3).size() > newUserSessionGroups.get(indexGroupCallEvent4).size()) {
branchDecision = false;
} else {
branchDecision = true;
}
// The branch within the loop
if (branchDecision) {
BranchWithinLoopReference.createEntryCall(entryTime, exitTime, 2, k, j, i, userSessionGroups, newUserSessionGroups, indexGroupCallEvent3);
countOfCallEvent3++;
entryTime += 2;
exitTime += 2;
} else {
BranchWithinLoopReference.createEntryCall(entryTime, exitTime, 3, k, j, i, userSessionGroups, newUserSessionGroups, indexGroupCallEvent4);
countOfCallEvent4++;
entryTime += 2;
exitTime += 2;
}
final EntryCallEvent entryCallEvent5 = new EntryCallEvent(entryTime, exitTime, ReferenceUsageModelBuilder.OPERATION_SIGNATURE[4], ReferenceUsageModelBuilder.CLASS_SIGNATURE[4], String.valueOf(i), "hostname");
userSessionGroups.get(j).get(k).get(i).add(entryCallEvent5, true);
entryTime -= 2;
exitTime -= 2;
}
}
userSessionGroups.put(j + 1, newUserSessionGroups);
entryTime += 2;
exitTime += 2;
}
// Sets the likelihoods of branch transitions
final double likelihoodOfCallEvent3 = (double) countOfCallEvent3 / (double) numberOfConcurrentUsers;
final double likelihoodOfCallEvent4 = (double) countOfCallEvent4 / (double) numberOfConcurrentUsers;
branchTransition1.setBranchProbability(likelihoodOfCallEvent3);
branchTransition2.setBranchProbability(likelihoodOfCallEvent4);
// Saves the reference usage model and sets the usage model and the EntryCallSequenceModel
// as the reference elements. Our approach is now executed with the EntryCallSequenceModel
// and the resulting usage model can be matched against the reference usage model
TestHelper.saveModel(usageModel, referenceUsageModelFileName);
testElements.setEntryCallSequenceModel(entryCallSequenceModel);
testElements.setUsageModel(usageModel);
return testElements;
}
use of org.palladiosimulator.pcm.usagemodel.AbstractUserAction in project iobserve-analysis by research-iobserve.
the class LoopWithinLoopReference method getLoopWithinLoopReferenceModel.
/**
* It creates a reference usage model that contains loops within loops. Accordingly, user
* sessions whose call sequences contain iterated segments that again contain iterated segments
* are created.(RQ-1.7)
*
* @param referenceUsageModelFileName
* file name of the reference model to store its result
* @param repositoryLookupModel
* repository model provider
* @param correspondenceModel
* correspondence model
*
* @return reference usage model and corresponding user sessions
* @throws IOException
* on error
*/
public ReferenceElements getLoopWithinLoopReferenceModel(final String referenceUsageModelFileName, final RepositoryLookupModelProvider repositoryLookupModel, final ICorrespondence correspondenceModel) throws IOException {
// Create a random number of user sessions and random model element parameters. The user
// sessions' behavior will be created according to the reference usage model and
// subsequently the user sessions are used to create a usage model. The created usage model
// is matched against the reference usage model
final int countOfLoop1 = TestHelper.getRandomInteger(4, 2);
final int countOfLoop2 = TestHelper.getRandomInteger(4, 2);
final int lengthOfSubsequentLoopSequence = TestHelper.getRandomInteger(2, 1);
// In the following the reference usage model is created
Optional<Correspondent> optionCorrespondent;
AbstractUserAction lastAction;
final UsageModel usageModel = UsageModelFactory.createUsageModel();
final UsageScenario usageScenario = UsageModelFactory.createUsageScenario("", usageModel);
final ScenarioBehaviour scenarioBehaviour = usageScenario.getScenarioBehaviour_UsageScenario();
final Start start = UsageModelFactory.createStart("");
UsageModelFactory.addUserAction(scenarioBehaviour, start);
final Stop stop = UsageModelFactory.createStop("");
UsageModelFactory.addUserAction(scenarioBehaviour, stop);
lastAction = start;
// The exterior loop is created
final Loop loop = UsageModelFactory.createLoop("", scenarioBehaviour);
UsageModelFactory.connect(lastAction, loop);
UsageModelFactory.connect(loop, stop);
final PCMRandomVariable pcmLoopIteration = CoreFactory.eINSTANCE.createPCMRandomVariable();
pcmLoopIteration.setSpecification(String.valueOf(countOfLoop1));
loop.setLoopIteration_Loop(pcmLoopIteration);
final Start loopStart = UsageModelFactory.createStart("");
UsageModelFactory.addUserAction(loop.getBodyBehaviour_Loop(), loopStart);
final Stop loopStop = UsageModelFactory.createStop("");
UsageModelFactory.addUserAction(loop.getBodyBehaviour_Loop(), loopStop);
lastAction = loopStart;
// The interior loop is created
final Loop loop2 = UsageModelFactory.createLoop("", loop.getBodyBehaviour_Loop());
UsageModelFactory.connect(lastAction, loop2);
final PCMRandomVariable pcmLoop2Iteration = CoreFactory.eINSTANCE.createPCMRandomVariable();
pcmLoop2Iteration.setSpecification(String.valueOf(countOfLoop2));
loop2.setLoopIteration_Loop(pcmLoop2Iteration);
final Start loop2Start = UsageModelFactory.createStart("");
UsageModelFactory.addUserAction(loop2.getBodyBehaviour_Loop(), loop2Start);
final Stop loop2Stop = UsageModelFactory.createStop("");
UsageModelFactory.addUserAction(loop2.getBodyBehaviour_Loop(), loop2Stop);
lastAction = loop2Start;
optionCorrespondent = correspondenceModel.getCorrespondent(ReferenceUsageModelBuilder.CLASS_SIGNATURE[2], ReferenceUsageModelBuilder.OPERATION_SIGNATURE[2]);
if (optionCorrespondent.isPresent()) {
final Correspondent correspondent = optionCorrespondent.get();
final EntryLevelSystemCall entryLevelSystemCall = UsageModelFactory.createEntryLevelSystemCall(repositoryLookupModel, correspondent);
UsageModelFactory.addUserAction(loop2.getBodyBehaviour_Loop(), entryLevelSystemCall);
UsageModelFactory.connect(lastAction, entryLevelSystemCall);
lastAction = entryLevelSystemCall;
}
UsageModelFactory.connect(lastAction, loop2Stop);
lastAction = loop2;
// The sequence that exclusively belongs to the exterior loop is created
for (int i = 0; i < lengthOfSubsequentLoopSequence; i++) {
switch(i) {
case 0:
optionCorrespondent = correspondenceModel.getCorrespondent(ReferenceUsageModelBuilder.CLASS_SIGNATURE[3], ReferenceUsageModelBuilder.OPERATION_SIGNATURE[3]);
break;
case 1:
optionCorrespondent = correspondenceModel.getCorrespondent(ReferenceUsageModelBuilder.CLASS_SIGNATURE[4], ReferenceUsageModelBuilder.OPERATION_SIGNATURE[4]);
break;
default:
throw new IllegalArgumentException("Illegal value of model element parameter");
}
if (optionCorrespondent.isPresent()) {
final Correspondent correspondent = optionCorrespondent.get();
final EntryLevelSystemCall entryLevelSystemCall = UsageModelFactory.createEntryLevelSystemCall(repositoryLookupModel, correspondent);
UsageModelFactory.addUserAction(loop.getBodyBehaviour_Loop(), entryLevelSystemCall);
UsageModelFactory.connect(lastAction, entryLevelSystemCall);
lastAction = entryLevelSystemCall;
}
}
UsageModelFactory.connect(lastAction, loopStop);
final int numberOfConcurrentUsers = TestHelper.getRandomInteger(200, 1);
final EntryCallSequenceModel entryCallSequenceModel = new EntryCallSequenceModel(TestHelper.getUserSessions(numberOfConcurrentUsers));
// According to the reference usage model user sessions are created that exactly represent
// the user behavior of the reference usage model. The entry and exit times enable that the
// calls within the user sessions are ordered according to the reference usage model.
int entryTime = 1;
int exitTime = 2;
for (int i = 0; i < entryCallSequenceModel.getUserSessions().size(); i++) {
entryTime = 1;
exitTime = 2;
// Represents the exterior loop of the reference usage model
for (int k = 0; k < countOfLoop1; k++) {
// Represents the interior loop of the reference usage model
for (int j = 0; j < countOfLoop2; j++) {
final EntryCallEvent entryCallEvent = new EntryCallEvent(entryTime, exitTime, ReferenceUsageModelBuilder.OPERATION_SIGNATURE[2], ReferenceUsageModelBuilder.CLASS_SIGNATURE[2], String.valueOf(i), "hostname");
entryCallSequenceModel.getUserSessions().get(i).add(entryCallEvent, true);
entryTime = entryTime + 2;
exitTime = exitTime + 2;
}
// Calls of the exterior loop
for (int j = 0; j < lengthOfSubsequentLoopSequence; j++) {
EntryCallEvent entryCallEvent = null;
switch(j) {
case 0:
entryCallEvent = new EntryCallEvent(entryTime, exitTime, ReferenceUsageModelBuilder.OPERATION_SIGNATURE[3], ReferenceUsageModelBuilder.CLASS_SIGNATURE[3], String.valueOf(i), "hostname");
break;
case 1:
entryCallEvent = new EntryCallEvent(entryTime, exitTime, ReferenceUsageModelBuilder.OPERATION_SIGNATURE[4], ReferenceUsageModelBuilder.CLASS_SIGNATURE[4], String.valueOf(i), "hostname");
break;
default:
throw new IllegalArgumentException("Illegal value of model element parameter");
}
entryCallSequenceModel.getUserSessions().get(i).add(entryCallEvent, true);
entryTime = entryTime + 2;
exitTime = exitTime + 2;
}
}
}
// Saves the reference usage model and sets the usage model and the EntryCallSequenceModel
// as the reference elements. Our approach is now executed with the EntryCallSequenceModel
// and the resulting usage model can be matched against the reference usage model
final ReferenceElements referenceElements = new ReferenceElements();
TestHelper.saveModel(usageModel, referenceUsageModelFileName);
referenceElements.setEntryCallSequenceModel(entryCallSequenceModel);
referenceElements.setUsageModel(usageModel);
return referenceElements;
}
use of org.palladiosimulator.pcm.usagemodel.AbstractUserAction in project iobserve-analysis by research-iobserve.
the class OverlappingIterationReference method getModel.
/**
* Creates a reference model that contains a loop element. The user sessions contain iterated
* call sequences that share overlapping calls. Thereby, one iterated sequence consists of more
* calls than the other. Thus, it can be checked whether the approach transforms the iterated
* call sequence that consists of more calls to a loop (RQ-1.4)
*
* @param referenceUsageModelFileName
* file name of the reference model to store its result
* @param repositoryLookupModelProvider
* repository model provider
* @param correspondenceModel
* correspondence model
*
* @return a reference usage model and corresponding user sessions
* @throws IOException
* on error
*/
public static ReferenceElements getModel(final String referenceUsageModelFileName, final RepositoryLookupModelProvider repositoryLookupModelProvider, final ICorrespondence correspondenceModel) throws IOException {
// Creates a random number of user sessions and random model element parameters. The user
// sessions' behavior will be created according to the reference usage model and
// subsequently the user sessions are used to create a usage model. The created usage model
// is matched against the reference usage model.
final int numberOfConcurrentUsers = TestHelper.getRandomInteger(200, 1);
// One of the iterated sequences is iterated twice and one is iterated three times. The
// number of iterations is set randomly.
final int loopCount1 = TestHelper.getRandomInteger(3, 2);
final int lengthOfSequence1 = 2 * loopCount1;
final int loopCount2;
if (loopCount1 == 3) {
loopCount2 = 2;
} else {
loopCount2 = 3;
}
final int lengthOfSequence2 = 2 * loopCount2;
final ReferenceElements referenceElements = new ReferenceElements();
final EntryCallSequenceModel entryCallSequenceModel = new EntryCallSequenceModel(TestHelper.getUserSessions(numberOfConcurrentUsers));
// In the following the reference usage model is created
AbstractUserAction lastAction;
final UsageModel usageModel = UsageModelFactory.createUsageModel();
final UsageScenario usageScenario = UsageModelFactory.createUsageScenario("", usageModel);
final ScenarioBehaviour scenarioBehaviour = usageScenario.getScenarioBehaviour_UsageScenario();
final Start start = UsageModelFactory.createStart("");
UsageModelFactory.addUserAction(scenarioBehaviour, start);
final Stop stop = UsageModelFactory.createStop("");
UsageModelFactory.addUserAction(scenarioBehaviour, stop);
// According to the randomly set number of iterations the sequence that is iterated three
// times is represented by a loop element. The other sequence is represented by a sequence
final Loop loop = UsageModelFactory.createLoop("", scenarioBehaviour);
if (lengthOfSequence1 >= lengthOfSequence2) {
UsageModelFactory.connect(start, loop);
final PCMRandomVariable pcmLoopIteration = CoreFactory.eINSTANCE.createPCMRandomVariable();
pcmLoopIteration.setSpecification(String.valueOf(loopCount1));
// Set number of loops
loop.setLoopIteration_Loop(pcmLoopIteration);
final Start loopStart = UsageModelFactory.createStart("");
UsageModelFactory.addUserAction(loop.getBodyBehaviour_Loop(), loopStart);
final Stop loopStop = UsageModelFactory.createStop("");
UsageModelFactory.addUserAction(loop.getBodyBehaviour_Loop(), loopStop);
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 0, loopStart, scenarioBehaviour);
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 2, lastAction, scenarioBehaviour);
UsageModelFactory.connect(lastAction, loopStop);
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 3, loop, scenarioBehaviour);
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 2, lastAction, scenarioBehaviour);
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 3, lastAction, scenarioBehaviour);
UsageModelFactory.connect(lastAction, stop);
} else {
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 0, start, scenarioBehaviour);
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 2, lastAction, scenarioBehaviour);
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 0, lastAction, scenarioBehaviour);
UsageModelFactory.connect(lastAction, loop);
final PCMRandomVariable pcmLoopIteration = CoreFactory.eINSTANCE.createPCMRandomVariable();
pcmLoopIteration.setSpecification(String.valueOf(loopCount2));
// Set number of loops
loop.setLoopIteration_Loop(pcmLoopIteration);
final Start loopStart = UsageModelFactory.createStart("");
UsageModelFactory.addUserAction(loop.getBodyBehaviour_Loop(), loopStart);
final Stop loopStop = UsageModelFactory.createStop("");
UsageModelFactory.addUserAction(loop.getBodyBehaviour_Loop(), loopStop);
lastAction = loopStart;
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 2, lastAction, scenarioBehaviour);
lastAction = OverlappingIterationReference.createEntryLevelSystemCall(repositoryLookupModelProvider, correspondenceModel, 3, lastAction, scenarioBehaviour);
UsageModelFactory.connect(lastAction, loopStop);
UsageModelFactory.connect(loop, stop);
}
OverlappingIterationReference.createMatchingEntryAndExitEvents(entryCallSequenceModel, lengthOfSequence1, lengthOfSequence2, loopCount1, loopCount2);
// Saves the reference usage model and sets the usage model and the EntryCallSequenceModel
// as the reference elements. Our approach is now executed with the EntryCallSequenceModel
// and the resulting usage model can be matched against the reference usage model
TestHelper.saveModel(usageModel, referenceUsageModelFileName);
referenceElements.setEntryCallSequenceModel(entryCallSequenceModel);
referenceElements.setUsageModel(usageModel);
return referenceElements;
}
Aggregations