use of com.google.cloud.automl.v1.Model in project xtext-core by eclipse.
the class Bug311337Test method testNoCyclicLinkingException.
@Test
public void testNoCyclicLinkingException() throws Exception {
Model model = (Model) getModel("/************************************/\n" + "(def) local :\n" + " (child) local_Child : def_depth1\n" + " (ref) local_Child:depth1_Child\n" + "\n" + "/************************************/\n" + "\n" + "(def) def_depth1 :\n" + " (child) depth1_Child : def_depth2\n" + "\n" + "/************************************/\n" + "\n" + "(def) def_depth2 :\n" + " (child) depth2_Child :\n");
assertTrue(model.eResource().getErrors().isEmpty());
}
use of com.google.cloud.automl.v1.Model in project xtext-core by eclipse.
the class Bug362902Test method testNoExceptionUncaught.
@Test
public void testNoExceptionUncaught() throws Exception {
String modelAsString = "Hello max ! Hello peter! favourite peter";
Model model = (Model) getModelAndExpect(modelAsString, 2);
EList<Diagnostic> errors = model.eResource().getErrors();
Diagnostic diagnosticSyntax = errors.get(0);
Diagnostic diagnosticLinking = errors.get(1);
assertTrue(diagnosticSyntax instanceof XtextSyntaxDiagnostic);
assertTrue(diagnosticLinking instanceof XtextLinkingDiagnostic);
}
use of com.google.cloud.automl.v1.Model in project batfish by batfish.
the class PropertyChecker method checkProperty.
/*
* General purpose logic for checking a property that holds that
* handles the various flags and parameters for a query with endpoints
*
* q is the question from the user.
* instrument instruments each router in the graph as needed to check the property.
* answer takes the result from Z3 and produces the answer for the user.
*
*/
private AnswerElement checkProperty(HeaderLocationQuestion q, TriFunction<Encoder, Set<String>, Set<GraphEdge>, Map<String, BoolExpr>> instrument, Function<VerifyParam, AnswerElement> answer) {
long totalTime = System.currentTimeMillis();
PathRegexes p = new PathRegexes(q);
Graph graph = new Graph(_batfish);
Set<GraphEdge> destPorts = findFinalInterfaces(graph, p);
List<String> sourceRouters = PatternUtils.findMatchingSourceNodes(graph, p);
if (destPorts.isEmpty()) {
throw new BatfishException("Set of valid destination interfaces is empty");
}
if (sourceRouters.isEmpty()) {
throw new BatfishException("Set of valid ingress nodes is empty");
}
inferDestinationHeaderSpace(graph, destPorts, q);
Set<GraphEdge> failOptions = failLinkSet(graph, q);
Tuple<Stream<Supplier<NetworkSlice>>, Long> ecs = findAllNetworkSlices(q, graph, true);
Stream<Supplier<NetworkSlice>> stream = ecs.getFirst();
Long timeAbstraction = ecs.getSecond();
AnswerElement[] answerElement = new AnswerElement[1];
VerificationResult[] result = new VerificationResult[2];
List<VerificationStats> ecStats = new ArrayList<>();
// Checks ECs in parallel, but short circuits when a counterexample is found
boolean hasCounterExample = stream.anyMatch(lazyEc -> {
long timeEc = System.currentTimeMillis();
NetworkSlice slice = lazyEc.get();
timeEc = System.currentTimeMillis() - timeEc;
synchronized (_lock) {
// Make sure the headerspace is correct
HeaderLocationQuestion question = new HeaderLocationQuestion(q);
question.setHeaderSpace(slice.getHeaderSpace());
// Get the EC graph and mapping
Graph g = slice.getGraph();
Set<String> srcRouters = mapConcreteToAbstract(slice, sourceRouters);
long timeEncoding = System.currentTimeMillis();
Encoder enc = new Encoder(_settings, g, question);
enc.computeEncoding();
timeEncoding = System.currentTimeMillis() - timeEncoding;
// Add environment constraints for base case
if (question.getDiffType() != null) {
if (question.getEnvDiff()) {
addEnvironmentConstraints(enc, question.getDeltaEnvironmentType());
}
} else {
addEnvironmentConstraints(enc, question.getBaseEnvironmentType());
}
Map<String, BoolExpr> prop = instrument.apply(enc, srcRouters, destPorts);
// If this is a equivalence query, we create a second copy of the network
Encoder enc2 = null;
Map<String, BoolExpr> prop2 = null;
if (question.getDiffType() != null) {
HeaderLocationQuestion q2 = new HeaderLocationQuestion(question);
q2.setFailures(0);
long timeDiffEncoding = System.currentTimeMillis();
enc2 = new Encoder(enc, g, q2);
enc2.computeEncoding();
timeDiffEncoding = System.currentTimeMillis() - timeDiffEncoding;
timeEncoding += timeDiffEncoding;
}
if (question.getDiffType() != null) {
assert (enc2 != null);
// create a map for enc2 to lookup a related environment variable from enc
Table2<GraphEdge, EdgeType, SymbolicRoute> relatedEnv = new Table2<>();
enc2.getMainSlice().getLogicalGraph().getEnvironmentVars().forEach((lge, r) -> relatedEnv.put(lge.getEdge(), lge.getEdgeType(), r));
BoolExpr related = enc.mkTrue();
addEnvironmentConstraints(enc2, question.getBaseEnvironmentType());
if (!question.getEnvDiff()) {
related = relateEnvironments(enc, enc2);
}
prop2 = instrument.apply(enc2, srcRouters, destPorts);
// Add diff constraints
BoolExpr required = enc.mkTrue();
for (String source : srcRouters) {
BoolExpr sourceProp1 = prop.get(source);
BoolExpr sourceProp2 = prop2.get(source);
BoolExpr val;
switch(q.getDiffType()) {
case INCREASED:
val = enc.mkImplies(sourceProp1, sourceProp2);
break;
case REDUCED:
val = enc.mkImplies(sourceProp2, sourceProp1);
break;
case ANY:
val = enc.mkEq(sourceProp1, sourceProp2);
break;
default:
throw new BatfishException("Missing case: " + q.getDiffType());
}
required = enc.mkAnd(required, val);
}
related = enc.mkAnd(related, relatePackets(enc, enc2));
enc.add(related);
enc.add(enc.mkNot(required));
} else {
// Not a differential query; just a query on a single version of the network.
BoolExpr allProp = enc.mkTrue();
for (String router : srcRouters) {
BoolExpr r = prop.get(router);
if (q.getNegate()) {
r = enc.mkNot(r);
}
allProp = enc.mkAnd(allProp, r);
}
enc.add(enc.mkNot(allProp));
}
addFailureConstraints(enc, destPorts, failOptions);
Tuple<VerificationResult, Model> tup = enc.verify();
VerificationResult res = tup.getFirst();
Model model = tup.getSecond();
if (q.getBenchmark()) {
VerificationStats stats = res.getStats();
stats.setAvgComputeEcTime(timeEc);
stats.setMaxComputeEcTime(timeEc);
stats.setMinComputeEcTime(timeEc);
stats.setAvgEncodingTime(timeEncoding);
stats.setMaxEncodingTime(timeEncoding);
stats.setMinEncodingTime(timeEncoding);
stats.setTimeCreateBdds((double) timeAbstraction);
synchronized (_lock) {
ecStats.add(stats);
}
}
if (!res.isVerified()) {
VerifyParam vp = new VerifyParam(res, model, srcRouters, enc, enc2, prop, prop2);
AnswerElement ae = answer.apply(vp);
synchronized (_lock) {
answerElement[0] = ae;
result[0] = res;
}
return true;
}
synchronized (_lock) {
result[1] = res;
}
return false;
}
});
totalTime = (System.currentTimeMillis() - totalTime);
VerificationResult res;
AnswerElement ae;
if (hasCounterExample) {
res = result[0];
ae = answerElement[0];
} else {
res = result[1];
VerifyParam vp = new VerifyParam(res, null, null, null, null, null, null);
ae = answer.apply(vp);
}
if (q.getBenchmark()) {
VerificationStats stats = VerificationStats.combineAll(ecStats, totalTime);
res.setStats(stats);
}
return ae;
}
use of com.google.cloud.automl.v1.Model in project bmoth by hhu-stups.
the class ReplViewTest method formatCouplesInSetTest.
@Test
public void formatCouplesInSetTest() {
Context ctx = new Context();
Solver s = ctx.mkSolver();
BoolExpr constraint = translatePredicate("x = {(1,2,3),(4,5,6)}", ctx);
s.add(constraint);
s.check();
Model model = s.getModel();
String output = new PrettyPrinter(model).getOutput();
assertEquals("{x={((1,2),3),((4,5),6)}}", output);
}
use of com.google.cloud.automl.v1.Model in project bmoth by hhu-stups.
the class ExplicitStateModelChecker method doModelCheck.
@Override
protected ModelCheckingResult doModelCheck() {
final int maxInitialStates = BMothPreferences.getIntPreference(BMothPreferences.IntPreference.MAX_INITIAL_STATE);
final int maxTransitions = BMothPreferences.getIntPreference(BMothPreferences.IntPreference.MAX_TRANSITIONS);
stateSpace = new StateSpace();
visited = new HashSet<>();
Queue<State> queue = new LinkedList<>();
// prepare initial states
BoolExpr initialValueConstraint = getMachineTranslator().getInitialValueConstraint();
Set<Model> models = finder.findSolutions(initialValueConstraint, maxInitialStates);
models.stream().map(this::getStateFromModel).filter(this::isUnknown).forEach(root -> {
stateSpace.addRootVertex(root);
queue.add(root);
});
final BoolExpr invariant = getMachineTranslator().getInvariantConstraint();
solver.add(invariant);
// create joint operations constraint and permanently add to separate
// solver
final BoolExpr operationsConstraint = getMachineTranslator().getCombinedOperationConstraint();
opSolver.add(operationsConstraint);
while (!isAborted() && !queue.isEmpty()) {
solver.push();
State current = queue.poll();
visited.add(current);
// apply current state - remains stored in solver for loop iteration
BoolExpr stateConstraint = current.getStateConstraint(getContext());
solver.add(stateConstraint);
// check invariant & state
Status check = solver.check();
switch(check) {
case UNKNOWN:
return createUnknown(visited.size(), solver.getReasonUnknown());
case UNSATISFIABLE:
return createCounterExampleFound(visited.size(), current, stateSpace);
case SATISFIABLE:
default:
}
// compute successors on separate finder
models = opFinder.findSolutions(stateConstraint, maxTransitions);
models.stream().map(this::getStateFromModel).forEach(successor -> {
if (isUnknown(successor)) {
stateSpace.addVertex(successor);
queue.add(successor);
}
stateSpace.addEdge(current, successor);
});
solver.pop();
}
if (isAborted()) {
return createAborted(visited.size());
} else {
ModelCheckingResult resultVerified = createVerified(visited.size(), stateSpace);
if (buechiAutomaton != null) {
// do ltl model check
labelStateSpace();
List<List<State>> cycles = new TarjanSimpleCycles<>(stateSpace).findSimpleCycles();
for (List<State> cycle : cycles) {
// if there is an accepting Buechi state in the cycle, a counterexample is found
for (State state : cycle) {
if (buechiAutomaton.isAcceptingSet(state.getBuechiNodes())) {
return createLTLCounterExampleFound(visited.size(), state);
}
}
}
}
return resultVerified;
}
}
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