Пример #1
0
        public static TestLinearChapterBuilder SetupChapterBuilder(int steps = 3, bool addTriggerConditions = true)
        {
            TestLinearChapterBuilder builder = new TestLinearChapterBuilder("Chapter1");

            for (int i = 0; i < steps; i++)
            {
                builder.AddStep("Step" + (i + 1));
                if (addTriggerConditions)
                {
                    EndlessConditionMock conditionMock = new EndlessConditionMock();
                    builder.Steps[i].Data.Transitions.Data.Transitions.First().Data.Conditions.Add(conditionMock);
                    builder.StepTriggerConditions.Add(conditionMock);
                }
            }
            return(builder);
        }
        public IEnumerator ActivationBehavior()
        {
            // Given a linear three step course with 3 ActivationStageBehaviorMock set to Activation and an EndlessConditionMock
            IBehavior behavior1 = new ActivationStageBehaviorMock(BehaviorExecutionStages.Activation);
            IBehavior behavior2 = new ActivationStageBehaviorMock(BehaviorExecutionStages.Activation);
            IBehavior behavior3 = new ActivationStageBehaviorMock(BehaviorExecutionStages.Activation);

            TestLinearChapterBuilder chapterBuilder = TestLinearChapterBuilder.SetupChapterBuilder(3, true);

            chapterBuilder.Steps[0].Data.Behaviors.Data.Behaviors = new List <IBehavior> {
                behavior1
            };
            chapterBuilder.Steps[1].Data.Behaviors.Data.Behaviors = new List <IBehavior> {
                behavior2
            };
            chapterBuilder.Steps[2].Data.Behaviors.Data.Behaviors = new List <IBehavior> {
                behavior3
            };
            IChapter chapter = chapterBuilder.Build();

            ICourse course = new Course("course", chapter);

            // And given a "restricted" and an "unrestricted" mode.
            IMode restricted   = new Mode("Restricted", new WhitelistTypeRule <IOptional>().Add <ActivationStageBehaviorMock>());
            IMode unrestricted = new Mode("Unrestricted", new WhitelistTypeRule <IOptional>());

            // When running it and changing the mode during execution several times,
            // Then the corresponding ActivationStageBehaviorMock of the current step is activated and deactivated accordingly.
            // The other ActivationStageBehaviorMock of the other steps stay inactive.
            CourseRunner.Initialize(course);
            CourseRunner.Run();
            course.Configure(unrestricted);

            yield return(new WaitUntil(() => behavior1.LifeCycle.Stage == Stage.Activating));

            Assert.AreEqual(Stage.Activating, behavior1.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior2.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior3.LifeCycle.Stage);

            course.Configure(restricted);

            Assert.AreEqual(Stage.Inactive, behavior1.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior2.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior3.LifeCycle.Stage);

            ICondition condition1 = course.Data.FirstChapter.Data.FirstStep.Data.Transitions.Data.Transitions[0].Data.Conditions[0];

            yield return(new WaitUntil(() => condition1.LifeCycle.Stage == Stage.Active));

            condition1.Autocomplete();

            ICondition condition2 = course.Data.FirstChapter.Data.Steps[1].Data.Transitions.Data.Transitions[0].Data.Conditions[0];

            yield return(new WaitUntil(() => condition2.LifeCycle.Stage == Stage.Active));

            Assert.AreEqual(Stage.Inactive, behavior1.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior2.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior3.LifeCycle.Stage);

            course.Configure(unrestricted);

            Assert.AreEqual(Stage.Inactive, behavior1.LifeCycle.Stage);
            Assert.AreEqual(Stage.Activating, behavior2.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior3.LifeCycle.Stage);

            condition2.Autocomplete();

            ICondition condition3 = course.Data.FirstChapter.Data.Steps[2].Data.Transitions.Data.Transitions[0].Data.Conditions[0];

            yield return(new WaitUntil(() => condition3.LifeCycle.Stage == Stage.Active));

            Assert.AreEqual(Stage.Inactive, behavior1.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior2.LifeCycle.Stage);
            Assert.AreEqual(Stage.Active, behavior3.LifeCycle.Stage);

            course.Configure(restricted);

            Assert.AreEqual(Stage.Inactive, behavior1.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior2.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior3.LifeCycle.Stage);

            course.Configure(unrestricted);

            Assert.AreEqual(Stage.Inactive, behavior1.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior2.LifeCycle.Stage);
            Assert.AreEqual(Stage.Activating, behavior3.LifeCycle.Stage);

            condition3.Autocomplete();

            yield return(new WaitUntil(() => condition3.LifeCycle.Stage == Stage.Inactive));

            Assert.AreEqual(Stage.Inactive, behavior1.LifeCycle.Stage);
            Assert.AreEqual(Stage.Inactive, behavior2.LifeCycle.Stage);
            Assert.AreEqual(Stage.Active, behavior3.LifeCycle.Stage);
        }