/// <summary> /// Creates an initial test state object. /// </summary> /// <param name="primaryTestStep">The primary test step.</param> /// <param name="testActions">The test actions.</param> /// <param name="converter">The converter for data binding.</param> /// <param name="formatter">The formatter for data binding.</param> /// <param name="isExplicit">True if the test was selected explicitly.</param> /// <exception cref="ArgumentNullException">Thrown if <paramref name="primaryTestStep"/>, /// <paramref name="testActions"/>, <paramref name="converter"/> /// or <paramref name="formatter"/> is null.</exception> internal PatternTestState(PatternTestStep primaryTestStep, PatternTestActions testActions, IConverter converter, IFormatter formatter, bool isExplicit) { if (primaryTestStep == null) { throw new ArgumentNullException("primaryTestStep"); } if (testActions == null) { throw new ArgumentNullException("testActions"); } if (converter == null) { throw new ArgumentNullException("converter"); } if (formatter == null) { throw new ArgumentNullException("formatter"); } this.primaryTestStep = primaryTestStep; this.testActions = testActions; this.converter = converter; this.formatter = formatter; this.isExplicit = isExplicit; bindingContext = new DataBindingContext(converter); testParameterDataAccessors = new Dictionary <PatternTestParameter, IDataAccessor>(); data = new UserDataCollection(); }
/// <summary> /// Initializes a test initially without a parent. /// </summary> /// <param name="name">The name of the test.</param> /// <param name="codeElement">The point of definition of the test, or null if unknown.</param> /// <param name="dataContext">The data context.</param> /// <exception cref="ArgumentNullException">Thrown if <paramref name="name"/> or <paramref name="dataContext"/> is null.</exception> public PatternTest(string name, ICodeElementInfo codeElement, PatternTestDataContext dataContext) : base(name, codeElement) { if (dataContext == null) throw new ArgumentNullException("dataContext"); this.dataContext = dataContext; testActions = new PatternTestActions(); }
/// <summary> /// Initializes a test initially without a parent. /// </summary> /// <param name="name">The name of the test.</param> /// <param name="codeElement">The point of definition of the test, or null if unknown.</param> /// <param name="dataContext">The data context.</param> /// <exception cref="ArgumentNullException">Thrown if <paramref name="name"/> or <paramref name="dataContext"/> is null.</exception> public PatternTest(string name, ICodeElementInfo codeElement, PatternTestDataContext dataContext) : base(name, codeElement) { if (dataContext == null) { throw new ArgumentNullException("dataContext"); } this.dataContext = dataContext; testActions = new PatternTestActions(); }
/// <summary> /// Creates a copy of the test actions. /// </summary> /// <returns>The new copy.</returns> public PatternTestActions Copy() { var copy = new PatternTestActions(); copy.beforeTestChain.Action = beforeTestChain.Action; copy.initializeTestChain.Action = initializeTestChain.Action; copy.disposeTestChain.Action = disposeTestChain.Action; copy.afterTestChain.Action = afterTestChain.Action; copy.decorateTestInstanceChain.Action = decorateTestInstanceChain.Action; if (testInstanceActions != null) { copy.testInstanceActions = testInstanceActions.Copy(); } return(copy); }
/// <summary> /// Creates an initial test state object. /// </summary> /// <param name="primaryTestStep">The primary test step.</param> /// <param name="testActions">The test actions.</param> /// <param name="converter">The converter for data binding.</param> /// <param name="formatter">The formatter for data binding.</param> /// <param name="isExplicit">True if the test was selected explicitly.</param> /// <exception cref="ArgumentNullException">Thrown if <paramref name="primaryTestStep"/>, /// <paramref name="testActions"/>, <paramref name="converter"/> /// or <paramref name="formatter"/> is null.</exception> internal PatternTestState(PatternTestStep primaryTestStep, PatternTestActions testActions, IConverter converter, IFormatter formatter, bool isExplicit) { if (primaryTestStep == null) throw new ArgumentNullException("primaryTestStep"); if (testActions == null) throw new ArgumentNullException("testActions"); if (converter == null) throw new ArgumentNullException("converter"); if (formatter == null) throw new ArgumentNullException("formatter"); this.primaryTestStep = primaryTestStep; this.testActions = testActions; this.converter = converter; this.formatter = formatter; this.isExplicit = isExplicit; bindingContext = new DataBindingContext(converter); testParameterDataAccessors = new Dictionary<PatternTestParameter, IDataAccessor>(); data = new UserDataCollection(); }
public DecorateChildTestAction(PatternTestInstanceState testInstanceState, PatternTestActions decoratedChildTestActions) { this.testInstanceState = testInstanceState; this.decoratedChildTestActions = decoratedChildTestActions; }
public DecorateChildTestAction(PatternTestInstanceState testInstanceState, PatternTestActions decoratedChildTestActions) { this.testInstanceState = testInstanceState; this.decoratedChildTestActions = decoratedChildTestActions; }
public void Run() { var test = (PatternTest)testCommand.Test; TestContextCookie?parentContextCookie = null; try { if (parentContext != null) { parentContextCookie = parentContext.Enter(); } // The first time we call Run, we check whether the ApartmentState of the // Thread is correct. If it is not, then we start a new thread and reenter // with a flag set to skip initial processing. if (!reentered) { if (executor.progressMonitor.IsCanceled) { result = new TestResult(TestOutcome.Canceled); return; } if (!testCommand.AreDependenciesSatisfied()) { ITestContext context = testCommand.StartPrimaryChildStep(parentTestStep); context.LogWriter.Warnings.WriteLine("Skipped due to an unsatisfied test dependency."); result = context.FinishStep(TestOutcome.Skipped, null); return; } executor.progressMonitor.SetStatus(test.Name); if (test.ApartmentState != ApartmentState.Unknown && Thread.CurrentThread.GetApartmentState() != test.ApartmentState) { reentered = true; ThreadTask task = new TestEnvironmentAwareThreadTask("Test Runner " + test.ApartmentState, (GallioAction)Run, executor.environmentManager); task.ApartmentState = test.ApartmentState; task.Run(null); if (!task.Result.HasValue) { throw new ModelException( String.Format("Failed to perform action in thread with overridden apartment state {0}.", test.ApartmentState), task.Result.Exception); } return; } } // Actually run the test. // Yes, this is a monstrously long method due to the inlining optimzation to minimize stack depth. using (Sandbox sandbox = parentSandbox.CreateChild()) { using (new ProcessIsolation()) { using (sandbox.StartTimer(test.TimeoutFunc())) { TestOutcome outcome; PatternTestActions testActions = test.TestActions; if (testActionsDecorator != null) { outcome = testActionsDecorator(sandbox, ref testActions); } else { outcome = TestOutcome.Passed; } if (outcome.Status == TestStatus.Passed) { PatternTestStep primaryTestStep = new PatternTestStep(test, parentTestStep); PatternTestState testState = new PatternTestState(primaryTestStep, testActions, executor.converter, executor.formatter, testCommand.IsExplicit); bool invisibleTest = true; outcome = outcome.CombineWith(sandbox.Run(TestLog.Writer, new BeforeTestAction(testState).Run, "Before Test")); if (outcome.Status == TestStatus.Passed) { bool reusePrimaryTestStep = !testState.BindingContext.HasBindings; if (!reusePrimaryTestStep) { primaryTestStep.IsTestCase = false; } invisibleTest = false; TestContext primaryContext = TestContext.PrepareContext( testCommand.StartStep(primaryTestStep), sandbox); testState.SetInContext(primaryContext); using (primaryContext.Enter()) { primaryContext.LifecyclePhase = LifecyclePhases.Initialize; outcome = outcome.CombineWith(primaryContext.Sandbox.Run(TestLog.Writer, new InitializeTestAction(testState).Run, "Initialize")); } if (outcome.Status == TestStatus.Passed) { var actions = new List <RunTestDataItemAction>(); try { foreach (IDataItem bindingItem in testState.BindingContext.GetItems(!executor.options.SkipDynamicTests)) { actions.Add(new RunTestDataItemAction(executor, testCommand, testState, primaryContext, reusePrimaryTestStep, bindingItem)); } if (actions.Count == 0) { TestLog.Warnings.WriteLine("Test skipped because it is parameterized but no data was provided."); outcome = TestOutcome.Skipped; } else { if (actions.Count == 1 || !test.IsParallelizable) { foreach (var action in actions) { action.Run(); } } else { executor.scheduler.Run(GenericCollectionUtils.ConvertAllToArray <RunTestDataItemAction, GallioAction>( actions, action => action.Run)); } TestOutcome combinedOutcome = TestOutcome.Passed; foreach (var action in actions) { combinedOutcome = combinedOutcome.CombineWith(action.Outcome); } outcome = outcome.CombineWith(reusePrimaryTestStep ? combinedOutcome : combinedOutcome.Generalize()); } } catch (TestException ex) { if (ex.Outcome.Status == TestStatus.Failed) { TestLog.Failures.WriteException(ex, String.Format("An exception occurred while getting data items for test '{0}'.", testState.Test.FullName)); } else { TestLog.Warnings.WriteException(ex); } outcome = ex.Outcome; } catch (Exception ex) { TestLog.Failures.WriteException(ex, String.Format("An exception occurred while getting data items for test '{0}'.", testState.Test.FullName)); outcome = TestOutcome.Error; } } primaryContext.SetInterimOutcome(outcome); using (primaryContext.Enter()) { primaryContext.LifecyclePhase = LifecyclePhases.Dispose; outcome = outcome.CombineWith(primaryContext.Sandbox.Run(TestLog.Writer, new DisposeTestAction(testState).Run, "Dispose")); } result = primaryContext.FinishStep(outcome); } outcome = outcome.CombineWith(sandbox.Run(TestLog.Writer, new AfterTestAction(testState).Run, "After Test")); if (invisibleTest) { result = PublishOutcomeFromInvisibleTest(testCommand, primaryTestStep, outcome); } } } } } } catch (Exception ex) { result = ReportTestError(testCommand, parentTestStep, ex, String.Format("An exception occurred while preparing to run test '{0}'.", test.FullName)); } finally { if (parentContextCookie.HasValue) { parentContextCookie.Value.ExitContext(); } executor.progressMonitor.SetStatus(""); executor.progressMonitor.Worked(1); } }
/// <summary> /// Creates a copy of the test actions. /// </summary> /// <returns>The new copy.</returns> public PatternTestActions Copy() { var copy = new PatternTestActions(); copy.beforeTestChain.Action = beforeTestChain.Action; copy.initializeTestChain.Action = initializeTestChain.Action; copy.disposeTestChain.Action = disposeTestChain.Action; copy.afterTestChain.Action = afterTestChain.Action; copy.decorateTestInstanceChain.Action = decorateTestInstanceChain.Action; if (testInstanceActions != null) copy.testInstanceActions = testInstanceActions.Copy(); return copy; }