TestExecutionResult getStoredResultOrSuccessful(TestDescriptor testDescriptor) { List<TestExecutionResult> testExecutionResults = executionResults.get(testDescriptor); if (testExecutionResults == null) { return successful(); } if (testExecutionResults.size() == 1) { return testExecutionResults.get(0); } // @formatter:off List<Throwable> failures = testExecutionResults .stream() .map(TestExecutionResult::getThrowable) .map(Optional::get) .collect(toList()); // @formatter:on return failed(new MultipleFailuresError("", failures)); } }
@Override public void execute(ExecutionRequest request) { EngineExecutionListener engineExecutionListener = request.getEngineExecutionListener(); TestDescriptor engineTestDescriptor = request.getRootTestDescriptor(); engineExecutionListener.executionStarted(engineTestDescriptor); RunnerExecutor runnerExecutor = new RunnerExecutor(engineExecutionListener); executeAllChildren(runnerExecutor, engineTestDescriptor); engineExecutionListener.executionFinished(engineTestDescriptor, successful()); }
private TestExecutionResult getResult(BenchmarkResult result, BenchmarkParams lastKnownBenchmark) { if (result != null) { return TestExecutionResult.successful(); } if (lastKnownBenchmark != null) { String output = StringUtils.collectionToDelimitedString(log, System.getProperty("line.separator")); return TestExecutionResult.failed(new JmhRunnerException(output)); } return TestExecutionResult.successful(); }
public static TestExecutionResult isSuccessful() { return eq(TestExecutionResult.successful()); }
/** * Convert the collected {@link Throwable Throwables} into a {@link TestExecutionResult}. * * @return {@linkplain TestExecutionResult#aborted aborted} if the collected * {@code Throwable} <em>aborted</em> execution; * {@linkplain TestExecutionResult#failed failed} if it <em>failed</em> * execution; and {@linkplain TestExecutionResult#successful successful} * otherwise */ TestExecutionResult toTestExecutionResult() { if (isEmpty()) { return successful(); } if (hasAbortedExecution(throwable)) { return aborted(throwable); } return failed(throwable); }
/** * Execute the supplied {@link Executable} and return a * {@link TestExecutionResult} based on the outcome. * * <p>If the {@code Executable} throws a <em>blacklisted</em> exception * — for example, an {@link OutOfMemoryError} — this method will * rethrow it. * * @param executable the test to be executed * @return {@linkplain TestExecutionResult#aborted aborted} if the * {@code Executable} throws a {@link TestAbortedException}; * {@linkplain TestExecutionResult#failed failed} if any other * {@link Throwable} is thrown; and {@linkplain TestExecutionResult#successful * successful} otherwise */ public TestExecutionResult executeSafely(Executable executable) { try { executable.execute(); return successful(); } catch (TestAbortedException e) { return aborted(e); } catch (Throwable t) { rethrowIfBlacklisted(t); return failed(t); } }
@Example void emptyEngine() { TestDescriptor engineDescriptor = forEngine(testEngine).build(); executeTests(engineDescriptor); InOrder events = Mockito.inOrder(eventRecorder); events.verify(eventRecorder).executionStarted(engineDescriptor); events.verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
@Example void engineWithEmptyClass() { TestDescriptor engineDescriptor = forEngine(testEngine).with(ContainerClass.class).build(); executeTests(engineDescriptor); InOrder events = Mockito.inOrder(eventRecorder); events.verify(eventRecorder).executionStarted(engineDescriptor); events.verify(eventRecorder).executionStarted(isClassDescriptorFor(ContainerClass.class)); events.verify(eventRecorder).executionFinished(isClassDescriptorFor(ContainerClass.class), isSuccessful()); events.verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
@Example void runTestsFromPackage() { LauncherDiscoveryRequest discoveryRequest = request().selectors(selectPackage("examples.packageWithSingleContainer")).build(); TestDescriptor engineDescriptor = runTests(discoveryRequest); verify(eventRecorder).executionStarted(engineDescriptor); verifyRunOfSimpleExampleTests(); verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
@Example void runTestsFromClass() { LauncherDiscoveryRequest discoveryRequest = request().selectors(selectClass(SimpleExampleTests.class)).build(); TestDescriptor engineDescriptor = runTests(discoveryRequest); verify(eventRecorder).executionStarted(engineDescriptor); verifyRunOfSimpleExampleTests(); verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
@Example void engineWithClassWithTests() { TestDescriptor engineDescriptor = forEngine(testEngine).with(forClass(ContainerClass.class, "succeeding", "failing")).build(); executeTests(engineDescriptor); InOrder events = Mockito.inOrder(eventRecorder); events.verify(eventRecorder).executionStarted(engineDescriptor); events.verify(eventRecorder).executionStarted(isClassDescriptorFor(ContainerClass.class)); events.verify(eventRecorder).executionStarted(isPropertyDescriptorFor(ContainerClass.class, "succeeding")); events.verify(eventRecorder).executionFinished(isPropertyDescriptorFor(ContainerClass.class, "succeeding"), isSuccessful()); events.verify(eventRecorder).executionStarted(isPropertyDescriptorFor(ContainerClass.class, "failing")); events.verify(eventRecorder).executionFinished(isPropertyDescriptorFor(ContainerClass.class, "failing"), isFailed("expected fail")); events.verify(eventRecorder).executionFinished(isClassDescriptorFor(ContainerClass.class), isSuccessful()); events.verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
@Example void engineWithTwoClasses() { TestDescriptor engineDescriptor = forEngine(testEngine) .with(forClass(ContainerClass.class, "succeeding", "failing"), forClass(SecondContainerClass.class, "succeeding")).build(); executeTests(engineDescriptor); InOrder events = Mockito.inOrder(eventRecorder); events.verify(eventRecorder).executionStarted(engineDescriptor); events.verify(eventRecorder).executionStarted(isClassDescriptorFor(ContainerClass.class)); events.verify(eventRecorder).executionStarted(isPropertyDescriptorFor(ContainerClass.class, "succeeding")); events.verify(eventRecorder).executionFinished(isPropertyDescriptorFor(ContainerClass.class, "succeeding"), isSuccessful()); events.verify(eventRecorder).executionStarted(isPropertyDescriptorFor(ContainerClass.class, "failing")); events.verify(eventRecorder).executionFinished(isPropertyDescriptorFor(ContainerClass.class, "failing"), isFailed("expected fail")); events.verify(eventRecorder).executionFinished(isClassDescriptorFor(ContainerClass.class), isSuccessful()); events.verify(eventRecorder).executionStarted(isClassDescriptorFor(SecondContainerClass.class)); events.verify(eventRecorder).executionStarted(isPropertyDescriptorFor(SecondContainerClass.class, "succeeding")); events.verify(eventRecorder).executionFinished(isPropertyDescriptorFor(SecondContainerClass.class, "succeeding"), isSuccessful()); events.verify(eventRecorder).executionFinished(isClassDescriptorFor(SecondContainerClass.class), isSuccessful()); events.verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
@Example void runTestsFromMethod() { LauncherDiscoveryRequest discoveryRequest = request().selectors(selectMethod(SimpleExampleTests.class, "succeeding")).build(); TestDescriptor engineDescriptor = runTests(discoveryRequest); verify(eventRecorder).executionStarted(engineDescriptor); verify(eventRecorder).executionStarted(TestDescriptorMatchers.isClassDescriptorFor(SimpleExampleTests.class)); verify(eventRecorder).executionStarted(TestDescriptorMatchers.isPropertyDescriptorFor(SimpleExampleTests.class, "succeeding")); verify(eventRecorder).executionFinished( TestDescriptorMatchers.isPropertyDescriptorFor(SimpleExampleTests.class, "succeeding"), TestExecutionResultMatchers.isSuccessful() ); verify(eventRecorder).executionFinished( TestDescriptorMatchers.isClassDescriptorFor(SimpleExampleTests.class), TestExecutionResultMatchers.isSuccessful() ); verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
@Example void runTestsFromRootDir() { LauncherDiscoveryRequest discoveryRequest = request().selectors(selectClasspathRoots(JqwikReflectionSupport.getAllClasspathRootDirectories())) .filters(PackageNameFilter.includePackageNames("examples.packageWithSingleContainer")).build(); TestDescriptor engineDescriptor = runTests(discoveryRequest); verify(eventRecorder).executionStarted(engineDescriptor); verifyRunOfSimpleExampleTests(); verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
@Example void runDisabledTests() { LauncherDiscoveryRequest discoveryRequest = request().selectors(selectPackage("examples.packageWithDisabledTests")).build(); TestDescriptor engineDescriptor = runTests(discoveryRequest); verify(eventRecorder).executionStarted(engineDescriptor); // DisabledTests verify(eventRecorder).executionStarted(TestDescriptorMatchers.isClassDescriptorFor(DisabledTests.class)); verify(eventRecorder).executionStarted(TestDescriptorMatchers.isPropertyDescriptorFor(DisabledTests.class, "success")); verify(eventRecorder).executionFinished( TestDescriptorMatchers.isPropertyDescriptorFor(DisabledTests.class, "success"), TestExecutionResultMatchers.isSuccessful() ); verify(eventRecorder).executionSkipped( TestDescriptorMatchers.isPropertyDescriptorFor(DisabledTests.class, "disabledSuccess"), eq("a reason") ); verify(eventRecorder).executionSkipped( TestDescriptorMatchers.isPropertyDescriptorFor(DisabledTests.class, "disabledFailure"), startsWith("@Disabled:") ); verify(eventRecorder).executionSkipped( TestDescriptorMatchers.isClassDescriptorFor(DisabledTests.DisabledGroup.class), startsWith("@Disabled:") ); verify(eventRecorder).executionFinished( TestDescriptorMatchers.isClassDescriptorFor(DisabledTests.class), TestExecutionResultMatchers.isSuccessful() ); verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
@Example void engineWithNestedGroups() { TestDescriptor engineDescriptor = forEngine(testEngine).with(forClass(TopLevelContainer.class, "topLevelSuccess").with( forClass(TopLevelContainer.InnerGroup.class, "innerGroupSuccess") .with(forClass(TopLevelContainer.InnerGroup.InnerInnerGroup.class, "innerInnerGroupSuccess")), forClass(TopLevelContainer.AnotherGroup.class))).build(); executeTests(engineDescriptor); InOrder events = Mockito.inOrder(eventRecorder); events.verify(eventRecorder).executionStarted(engineDescriptor); events.verify(eventRecorder).executionStarted(isClassDescriptorFor(TopLevelContainer.class)); events.verify(eventRecorder).executionStarted(isClassDescriptorFor(TopLevelContainer.InnerGroup.class)); events.verify(eventRecorder).executionStarted(isClassDescriptorFor(TopLevelContainer.InnerGroup.InnerInnerGroup.class)); events.verify(eventRecorder) .executionStarted(isPropertyDescriptorFor(TopLevelContainer.InnerGroup.InnerInnerGroup.class, "innerInnerGroupSuccess")); events.verify(eventRecorder).executionFinished( isPropertyDescriptorFor(TopLevelContainer.InnerGroup.InnerInnerGroup.class, "innerInnerGroupSuccess"), isSuccessful()); events.verify(eventRecorder).executionFinished(isClassDescriptorFor(TopLevelContainer.InnerGroup.InnerInnerGroup.class), isSuccessful()); events.verify(eventRecorder).executionStarted(isPropertyDescriptorFor(TopLevelContainer.InnerGroup.class, "innerGroupSuccess")); events.verify(eventRecorder).executionFinished(isPropertyDescriptorFor(TopLevelContainer.InnerGroup.class, "innerGroupSuccess"), isSuccessful()); events.verify(eventRecorder).executionFinished(isClassDescriptorFor(TopLevelContainer.InnerGroup.class), isSuccessful()); events.verify(eventRecorder).executionStarted(isClassDescriptorFor(TopLevelContainer.AnotherGroup.class)); events.verify(eventRecorder).executionFinished(isClassDescriptorFor(TopLevelContainer.AnotherGroup.class), isSuccessful()); events.verify(eventRecorder).executionStarted(isPropertyDescriptorFor(TopLevelContainer.class, "topLevelSuccess")); events.verify(eventRecorder).executionFinished(isPropertyDescriptorFor(TopLevelContainer.class, "topLevelSuccess"), isSuccessful()); events.verify(eventRecorder).executionFinished(isClassDescriptorFor(TopLevelContainer.class), isSuccessful()); events.verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful()); }
public void execute(TestDescriptor testDescriptor, EngineExecutionListener listener) { JmhSupport support = new JmhSupport(); ChainedOptionsBuilder optionsBuilder = support.options(); List<AbstractBenchmarkDescriptor> methods = collectBenchmarkMethods(testDescriptor); List<AbstractBenchmarkDescriptor> includes = getIncludes(testDescriptor); if (!support.isEnabled()) { listener.executionSkipped(testDescriptor, "No benchmarks"); return; } List<String> includePatterns = evaluateBenchmarksToRun(includes, listener); if (!shouldRun(includePatterns)) { return; } includePatterns.forEach(optionsBuilder::include); CacheFunction cache = new CacheFunction(methods); Options options = optionsBuilder.build(); NotifyingOutputFormat notifyingOutputFormat = new NotifyingOutputFormat(listener, cache, support.createOutputFormat(options)); try { listener.executionStarted(testDescriptor); support.publishResults(notifyingOutputFormat, new Runner(options, notifyingOutputFormat).run()); listener.executionFinished(testDescriptor, TestExecutionResult.successful()); } catch (RunnerException e) { listener.executionFinished(testDescriptor, TestExecutionResult.failed(e)); } }
); verify(eventRecorder).executionFinished(engineDescriptor, TestExecutionResult.successful());