public void Bind_Unbind_Bind_Is_Equivalent_To_Bind() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetInputArguments(new ProcessorArgument("p2In1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1, p2); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); bindings.BindArguments(p1.OutArguments[0], p2.InArguments[0]); Assert.AreEqual(1, bindings.GetBoundToArguments(p2.InArguments[0]).Count(), "Processor2 InArgument1 should have been bound to one other argument."); Assert.AreEqual(1, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should have been bound to one other argument."); Assert.AreSame(p1.OutArguments[0], bindings.GetBoundToArguments(p2.InArguments[0]).Single(), "Processor2 InArgument1 should have been bound to Processor1 OutArgument1."); Assert.AreSame(p2.InArguments[0], bindings.GetBoundToArguments(p1.OutArguments[0]).Single(), "Processor1 OutArgument1 should have been bound to Processor2 InArgument1."); bindings.UnbindArguments(p1.OutArguments[0], p2.InArguments[0]); Assert.AreEqual(0, bindings.GetBoundToArguments(p2.InArguments[0]).Count(), "Processor2 InArgument1 should not have been bound to any other arguments."); Assert.AreEqual(0, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should not have been bound to any other arguments."); bindings.BindArguments(p1.OutArguments[0], p2.InArguments[0]); Assert.AreEqual(1, bindings.GetBoundToArguments(p2.InArguments[0]).Count(), "Processor2 InArgument1 should have been bound to one other argument."); Assert.AreEqual(1, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should have been bound to one other argument."); Assert.AreSame(p1.OutArguments[0], bindings.GetBoundToArguments(p2.InArguments[0]).Single(), "Processor2 InArgument1 should have been bound to Processor1 OutArgument1."); Assert.AreSame(p2.InArguments[0], bindings.GetBoundToArguments(p1.OutArguments[0]).Single(), "Processor1 OutArgument1 should have been bound to Processor2 InArgument1."); }
public void OutArguments_Does_Not_Change_ProcessorArguments() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); ProcessorArgument arg1 = new ProcessorArgument("arg1", typeof(string), "someProperty"); ProcessorArgument arg2 = new ProcessorArgument("arg2", typeof(Uri), "someOtherProperty", 5); ProcessorArgument arg3 = new ProcessorArgument("arg3", typeof(int)); processor.SetOutputArguments(arg1, arg2, arg3); ProcessorArgumentCollection arguments = processor.OutArguments; Assert.IsNotNull(arguments, "OutArguments should never be null."); Assert.AreEqual(3, arguments.Count, "OutArguments.Count should have returned 3."); Assert.AreSame(arg1, arguments[0], "The argument should have been the same instance as was provided by OnGetOutputArguments."); Assert.AreSame(arg2, arguments[1], "The argument should have been the same instance as was provided by OnGetOutputArguments."); Assert.AreSame(arg3, arguments[2], "The argument should have been the same instance as was provided by OnGetOutputArguments."); Assert.AreEqual("arg1", arguments[0].Name, "The argument name should have been the same as when it was created."); Assert.AreEqual("arg2", arguments[1].Name, "The argument name should have been the same as when it was created."); Assert.AreEqual("arg3", arguments[2].Name, "The argument name should have been the same as when it was created."); Assert.AreEqual(typeof(string), arguments[0].ArgumentType, "The argument type should have been the same as when it was created."); Assert.AreEqual(typeof(Uri), arguments[1].ArgumentType, "The argument type should have been the same as when it was created."); Assert.AreEqual(typeof(int), arguments[2].ArgumentType, "The argument type should have been the same as when it was created."); Assert.AreEqual(1, arguments[0].Properties.Count, "The argument should have the one property that it was created with."); Assert.AreEqual("someProperty", arguments[0].Properties.Find <string>(), "The argument should have the property value that it was created with."); Assert.AreEqual(2, arguments[1].Properties.Count, "The argument should have the two properties that it was created with."); Assert.AreEqual("someOtherProperty", arguments[1].Properties.Find <string>(), "The argument should have the property value that it was created with."); Assert.AreEqual(5, arguments[1].Properties.Find <int>(), "The argument should have the property value that it was created with."); Assert.AreEqual(0, arguments[2].Properties.Count, "The argument should not have any properties since it was not created with any."); }
public void Bind_Can_Bind_One_OutArgument_Multiple_Times() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetInputArguments(new ProcessorArgument("p2In1", typeof(string))); MockNonGenericProcessor p3 = new MockNonGenericProcessor(); p3.SetInputArguments(new ProcessorArgument("p3In1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1, p2, p3); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); bindings.BindArguments(p1.OutArguments[0], p2.InArguments[0]); bindings.BindArguments(p1.OutArguments[0], p3.InArguments[0]); Assert.AreEqual(2, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should have been bound to two other arguments."); Assert.AreSame(p2.InArguments[0], bindings.GetBoundToArguments(p1.OutArguments[0]).First(), "Processor1 OutArgument1 should have been bound to Processor2 InArgument1."); Assert.AreSame(p3.InArguments[0], bindings.GetBoundToArguments(p1.OutArguments[0]).Skip(1).First(), "Processor1 OutArgument1 should have been bound to Processor3 InArgument1."); Assert.AreSame(p1.OutArguments[0], bindings.GetBoundToArguments(p2.InArguments[0]).Single(), "Processor2 InArgument1 should have been bound to Processor1 OutArgument1."); Assert.AreSame(p1.OutArguments[0], bindings.GetBoundToArguments(p3.InArguments[0]).Single(), "Processor3 InArgument1 should have been bound to Processor1 OutArgument1."); }
public void UnBind_Does_Nothing_If_Arguments_Are_Not_Bound() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetOutputArguments(new ProcessorArgument("p2Out1", typeof(string))); MockNonGenericProcessor p3 = new MockNonGenericProcessor(); p3.SetInputArguments(new ProcessorArgument("p3In1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1, p2, p3); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); bindings.BindArguments(p2.OutArguments[0], p3.InArguments[0]); Assert.AreEqual(0, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should not have been bound to any other arguments."); Assert.AreEqual(1, bindings.GetBoundToArguments(p2.OutArguments[0]).Count(), "Processor2 OutArgument1 should not have been bound to any other arguments."); Assert.AreEqual(1, bindings.GetBoundToArguments(p3.InArguments[0]).Count(), "Processor3 InArgument1 should not have been bound to any other arguments."); Assert.AreSame(p2.OutArguments[0], bindings.GetBoundToArguments(p3.InArguments[0]).Single(), "Processor3 InArgument1 should have been bound to Processor2 OutArgument1."); Assert.AreSame(p3.InArguments[0], bindings.GetBoundToArguments(p2.OutArguments[0]).Single(), "Processor2 OutArgument1 should have been bound to Processor3 InArgument1."); bindings.UnbindArguments(p1.OutArguments[0], p3.InArguments[0]); Assert.AreEqual(1, bindings.GetBoundToArguments(p2.OutArguments[0]).Count(), "Processor2 OutArgument1 should not have been bound to any other arguments."); Assert.AreEqual(1, bindings.GetBoundToArguments(p3.InArguments[0]).Count(), "Processor3 InArgument1 should not have been bound to any other arguments."); Assert.AreSame(p2.OutArguments[0], bindings.GetBoundToArguments(p3.InArguments[0]).Single(), "Processor3 InArgument1 should have been bound to Processor2 OutArgument1."); Assert.AreSame(p3.InArguments[0], bindings.GetBoundToArguments(p2.OutArguments[0]).Single(), "Processor2 OutArgument1 should have been bound to Processor3 InArgument1."); }
public void OutArguments_Returns_ProcessorArgumentCollection_with_Null_ProcessorArgument_Array() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); processor.SetOutputArguments(null); ProcessorArgumentCollection arguments = processor.OutArguments; Assert.IsNotNull(arguments, "OutArguments should never be null."); Assert.AreEqual(ProcessorArgumentDirection.Out, arguments.Direction, "OutArguments.Direction ProcessorArgumentDirection.Out"); Assert.AreEqual(0, arguments.Count, "OutArguments.Count should have been 0."); }
public void OutArguments_Returns_ProcessorArgumentCollection() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); processor.SetOutputArguments(new ProcessorArgument("arg1", typeof(string))); ProcessorArgumentCollection arguments = processor.OutArguments; Assert.IsNotNull(arguments, "OutArguments should never be null."); Assert.AreEqual(ProcessorArgumentDirection.Out, arguments.Direction, "OutArguments.Direction ProcessorArgumentDirection.Out"); Assert.AreEqual(1, arguments.Count, "OutArguments.Count should have been 1."); }
public void OutArguments_Returns_The_Same_ProcessorArgumentCollection_Instance_Every_Time() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); processor.SetOutputArguments(new ProcessorArgument("arg1", typeof(string))); ProcessorArgumentCollection arguments1 = processor.OutArguments; ProcessorArgumentCollection arguments2 = processor.OutArguments; ProcessorArgumentCollection arguments3 = processor.OutArguments; Assert.IsNotNull(arguments1, "OutArguments should never be null."); Assert.AreSame(arguments1, arguments2, "OutArguments should return the same instance every time."); Assert.AreSame(arguments1, arguments3, "OutArguments should return the same instance every time."); }
public void OutArguments_Returns_ProcessorArguments_With_ContainingCollection_Set() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); ProcessorArgument arg1 = new ProcessorArgument("arg1", typeof(string), "someProperty"); ProcessorArgument arg2 = new ProcessorArgument("arg2", typeof(Uri), "someOtherProperty", 5); ProcessorArgument arg3 = new ProcessorArgument("arg3", typeof(int)); processor.SetOutputArguments(arg1, arg2, arg3); ProcessorArgumentCollection arguments = processor.OutArguments; Assert.AreSame(arguments, arguments[0].ContainingCollection, "The argument ContainingCollection should have been set by the ProcessorArgumentCollection."); Assert.AreSame(arguments, arguments[1].ContainingCollection, "The argument ContainingCollection should have been set by the ProcessorArgumentCollection."); Assert.AreSame(arguments, arguments[2].ContainingCollection, "The argument ContainingCollection should have been set by the ProcessorArgumentCollection."); }
public void OutArguments_With_Two_ProcessorArguments_With_Same_Name_Throws() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); ProcessorArgument arg1 = new ProcessorArgument("arg1", typeof(string), "someProperty"); ProcessorArgument arg2 = new ProcessorArgument("arg1", typeof(int)); processor.SetOutputArguments(arg1, arg2); ExceptionAssert.ThrowsInvalidOperation( "OutArguments should have thrown since there were two arguments with the same name.", () => { ProcessorArgumentCollection arguments = processor.OutArguments; }); }
public void Unbind_With_In_Argument_Not_Attached_To_Processors_Throws() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); ExceptionAssert.ThrowsInvalidOperation( "Unbind should have thrown because the in arugment does not belong to a processor", () => { bindings.UnbindArguments(p1.OutArguments[0], new ProcessorArgument("someName", typeof(string))); }); }
public void OutArguments_Returns_ProcessorArguments_With_Index_Set() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); ProcessorArgument arg1 = new ProcessorArgument("arg1", typeof(string), "someProperty"); ProcessorArgument arg2 = new ProcessorArgument("arg2", typeof(Uri), "someOtherProperty", 5); ProcessorArgument arg3 = new ProcessorArgument("arg3", typeof(int)); processor.SetOutputArguments(arg1, arg2, arg3); ProcessorArgumentCollection arguments = processor.OutArguments; Assert.AreEqual(0, arguments[0].Index, "The argument index should have been determined by the order it was returned from OnGetOutputArguments."); Assert.AreEqual(1, arguments[1].Index, "The argument index should have been determined by the order it was returned from OnGetOutputArguments."); Assert.AreEqual(2, arguments[2].Index, "The argument index should have been determined by the order it was returned from OnGetOutputArguments."); }
public void Unbind_With_Arguments_On_The_Same_Processor_Throws() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); p1.SetInputArguments(new ProcessorArgument("p1In1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); ExceptionAssert.ThrowsInvalidOperation( "Unbind should have thrown because the in arugment and out argument belong to the same processor", () => { bindings.UnbindArguments(p1.OutArguments[0], p1.InArguments[0]); }); }
public void ProcessorArgument_Cannot_Belong_to_Both_In_And_Out_Collections() { ProcessorArgument arg = new ProcessorArgument("AName", typeof(string)); MockNonGenericProcessor processor1 = new MockNonGenericProcessor(); processor1.SetInputArguments(arg); ProcessorArgumentCollection processor1InArguments = processor1.InArguments; processor1.SetOutputArguments(arg); ExceptionAssert.ThrowsInvalidOperation( "Adding processor argument to in and out arguments should throw", () => { ProcessorArgumentCollection processor1OutArguments = processor1.OutArguments; }); }
public void OutArguments_With_A_Null_ProcessorArgument_Throws() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); ProcessorArgument arg1 = new ProcessorArgument("arg1", typeof(string), "someProperty"); ProcessorArgument arg2 = null; ProcessorArgument arg3 = new ProcessorArgument("arg3", typeof(int)); processor.SetOutputArguments(arg1, arg2, arg3); ExceptionAssert.ThrowsArgumentNull( "OutArguments should have thrown since a null ProcessorArgument was provided.", string.Empty, () => { ProcessorArgumentCollection arguments = processor.OutArguments; }); }
public void OutArguments_Returns_Same_ProcessorArguments_In_The_Same_Order() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); ProcessorArgument arg1 = new ProcessorArgument("arg1", typeof(string), "someProperty"); ProcessorArgument arg2 = new ProcessorArgument("arg2", typeof(Uri), "someOtherProperty", 5); ProcessorArgument arg3 = new ProcessorArgument("arg3", typeof(int)); processor.SetOutputArguments(arg1, arg2, arg3); ProcessorArgumentCollection arguments = processor.OutArguments; Assert.IsNotNull(arguments, "OutArguments should never be null."); Assert.AreEqual(3, arguments.Count, "OutArguments.Count should have returned 3."); Assert.AreSame(arg1, arguments[0], "The argument should have been the same instance as was provided by OnGetOutputArguments."); Assert.AreSame(arg2, arguments[1], "The argument should have been the same instance as was provided by OnGetOutputArguments."); Assert.AreSame(arg3, arguments[2], "The argument should have been the same instance as was provided by OnGetOutputArguments."); }
public void Unbind_With_Out_Argument_On_Processors_Not_In_A_ProcessorCollection_Throws() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetInputArguments(new ProcessorArgument("p1In1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetOutputArguments(new ProcessorArgument("p2Out1", typeof(string))); ExceptionAssert.ThrowsInvalidOperation( "Unbind should have thrown because the out arugment processor does not belong to any processor collection", () => { bindings.UnbindArguments(p2.OutArguments[0], p1.InArguments[0]); }); }
public void Bind_With_OutArgument_Type_Assignable_To_InArgument_Type() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(Uri))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetInputArguments(new ProcessorArgument("p2In1", typeof(object))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1, p2); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); bindings.BindArguments(p1.OutArguments[0], p2.InArguments[0]); Assert.AreEqual(1, bindings.GetBoundToArguments(p2.InArguments[0]).Count(), "Processor2 InArgument1 should have been bound to one other argument."); Assert.AreEqual(1, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should have been bound to one other argument."); Assert.AreSame(p1.OutArguments[0], bindings.GetBoundToArguments(p2.InArguments[0]).First(), "Processor2 InArgument1 should have been bound to Processor1 OutArgument1."); Assert.AreSame(p2.InArguments[0], bindings.GetBoundToArguments(p1.OutArguments[0]).First(), "Processor1 OutArgument1 should have been bound to Processor2 InArgument1."); }
public void Unbind_With_In_Arguments_On_Processors_Not_In_The_Same_ProcessorCollection_Throws() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetInputArguments(new ProcessorArgument("p2In1", typeof(string))); ProcessorCollection otherCollection = new ProcessorCollection(new MockNonGenericProcessor(), p2); ExceptionAssert.ThrowsInvalidOperation( "Unbind should have thrown because the in arugment processor belongs to a different processor collection", () => { bindings.UnbindArguments(p1.OutArguments[0], p2.InArguments[0]); }); }
public void GetBoundToArguments_Never_Returns_Null() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); ProcessorArgument arg2 = new ProcessorArgument("arg1", typeof(string)); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); IEnumerable <ProcessorArgument> boundArguments = bindings.GetBoundToArguments(p1.OutArguments[0]); Assert.IsNotNull(boundArguments, "ProcessorBindingCollection.GetBoundArguments should never return null."); Assert.AreEqual(0, boundArguments.Count(), "ProcessorBindingCollection.GetBoundArguments should have returned an empty collection."); boundArguments = bindings.GetBoundToArguments(arg2); Assert.IsNotNull(boundArguments, "ProcessorBindingCollection.GetBoundArguments should never return null."); Assert.AreEqual(0, boundArguments.Count(), "ProcessorBindingCollection.GetBoundArguments should have returned an empty collection."); }
public void Unbind_With_InArgument_Processor_Before_OutArgument_Processor_Throws() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetInputArguments(new ProcessorArgument("p2In1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p2, p1); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); ExceptionAssert.ThrowsInvalidOperation( "Unbind should have thrown because processor 1 comes after processor 2.", () => { bindings.UnbindArguments(p1.OutArguments[0], p2.InArguments[0]); }); }
public void Unbind_With_OutArgument_Type_Not_Assignable_To_InArgument_Type_Throws() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(object))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetInputArguments(new ProcessorArgument("p2In1", typeof(Uri))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1, p2); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); ExceptionAssert.ThrowsInvalidOperation( "Unbind should have thrown because the out arugment is not assignable to the in argument.", () => { bindings.UnbindArguments(p1.OutArguments[0], p2.InArguments[0]); }); }
public void Unbind_With_InArgument_That_Is_Not_In_Direction_Throws() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetOutputArguments(new ProcessorArgument("p2Out1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1, p2); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); ExceptionAssert.ThrowsInvalidOperation( "Unbind should have thrown because the in arugment is not in the in direction.", () => { bindings.UnbindArguments(p1.OutArguments[0], p2.OutArguments[0]); }); }
public void Bind_Is_Idempotent() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetInputArguments(new ProcessorArgument("p2In1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1, p2); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); bindings.BindArguments(p1.OutArguments[0], p2.InArguments[0]); Assert.AreEqual(1, bindings.GetBoundToArguments(p2.InArguments[0]).Count(), "Processor2 InArgument1 should have been bound to one other argument."); Assert.AreEqual(1, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should have been bound to one other argument."); Assert.AreSame(p1.OutArguments[0], bindings.GetBoundToArguments(p2.InArguments[0]).First(), "Processor2 InArgument1 should have been bound to Processor1 OutArgument1."); Assert.AreSame(p2.InArguments[0], bindings.GetBoundToArguments(p1.OutArguments[0]).First(), "Processor1 OutArgument1 should have been bound to Processor2 InArgument1."); bindings.BindArguments(p1.OutArguments[0], p2.InArguments[0]); Assert.AreEqual(1, bindings.GetBoundToArguments(p2.InArguments[0]).Count(), "Processor2 InArgument1 should have been bound to one other argument."); Assert.AreEqual(1, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should have been bound to one other argument."); Assert.AreSame(p1.OutArguments[0], bindings.GetBoundToArguments(p2.InArguments[0]).First(), "Processor2 InArgument1 should have been bound to Processor1 OutArgument1."); Assert.AreSame(p2.InArguments[0], bindings.GetBoundToArguments(p1.OutArguments[0]).First(), "Processor1 OutArgument1 should have been bound to Processor2 InArgument1."); }
public void UnBind_Removes_The_Binding_If_Arguments_Are_Bound() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetInputArguments(new ProcessorArgument("p2In1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1, p2); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); bindings.BindArguments(p1.OutArguments[0], p2.InArguments[0]); Assert.AreEqual(1, bindings.GetBoundToArguments(p2.InArguments[0]).Count(), "Processor2 InArgument1 should have been bound to one other argument."); Assert.AreEqual(1, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should have been bound to one other argument."); Assert.AreSame(p1.OutArguments[0], bindings.GetBoundToArguments(p2.InArguments[0]).Single(), "Processor2 InArgument1 should have been bound to Processor1 OutArgument1."); Assert.AreSame(p2.InArguments[0], bindings.GetBoundToArguments(p1.OutArguments[0]).Single(), "Processor1 OutArgument1 should have been bound to Processor2 InArgument1."); bindings.UnbindArguments(p1.OutArguments[0], p2.InArguments[0]); Assert.AreEqual(0, bindings.GetBoundToArguments(p2.InArguments[0]).Count(), "Processor2 InArgument1 should not have been bound to any other arguments."); Assert.AreEqual(0, bindings.GetBoundToArguments(p1.OutArguments[0]).Count(), "Processor1 OutArgument1 should not have been bound to any other arguments."); }
public void GetBoundToArguments_Never_Returns_Null() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); ProcessorArgument arg2 = new ProcessorArgument("arg1", typeof(string)); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); IEnumerable<ProcessorArgument> boundArguments = bindings.GetBoundToArguments(p1.OutArguments[0]); Assert.IsNotNull(boundArguments, "ProcessorBindingCollection.GetBoundArguments should never return null."); Assert.AreEqual(0, boundArguments.Count(), "ProcessorBindingCollection.GetBoundArguments should have returned an empty collection."); boundArguments = bindings.GetBoundToArguments(arg2); Assert.IsNotNull(boundArguments, "ProcessorBindingCollection.GetBoundArguments should never return null."); Assert.AreEqual(0, boundArguments.Count(), "ProcessorBindingCollection.GetBoundArguments should have returned an empty collection."); }
public void UnBind_Does_Not_Remove_Other_Bindings_On_An_InArgument() { MockNonGenericProcessor p1 = new MockNonGenericProcessor(); p1.SetOutputArguments(new ProcessorArgument("p1Out1", typeof(string))); MockNonGenericProcessor p2 = new MockNonGenericProcessor(); p2.SetOutputArguments(new ProcessorArgument("p2Out1", typeof(string))); MockNonGenericProcessor p3 = new MockNonGenericProcessor(); p3.SetInputArguments(new ProcessorArgument("p3In1", typeof(string))); ProcessorCollection collection = new ProcessorCollection(new MockNonGenericProcessor(), p1, p2, p3); PipelineBindingCollection bindings = new PipelineBindingCollection(collection); bindings.BindArguments(p1.OutArguments[0], p3.InArguments[0]); bindings.BindArguments(p2.OutArguments[0], p3.InArguments[0]); bindings.UnbindArguments(p1.OutArguments[0], p3.InArguments[0]); Assert.AreEqual(1, bindings.GetBoundToArguments(p2.OutArguments[0]).Count(), "Processor2 OutArgument1 should not have been bound to any other arguments."); Assert.AreEqual(1, bindings.GetBoundToArguments(p3.InArguments[0]).Count(), "Processor3 InArgument1 should not have been bound to any other arguments."); Assert.AreSame(p2.OutArguments[0], bindings.GetBoundToArguments(p3.InArguments[0]).Single(), "Processor3 InArgument1 should have been bound to Processor2 OutArgument1."); Assert.AreSame(p3.InArguments[0], bindings.GetBoundToArguments(p2.OutArguments[0]).Single(), "Processor2 OutArgument1 should have been bound to Processor3 InArgument1."); }
public void OutArguments_Does_Not_Change_ProcessorArguments() { MockNonGenericProcessor processor = new MockNonGenericProcessor(); ProcessorArgument arg1 = new ProcessorArgument("arg1", typeof(string), "someProperty"); ProcessorArgument arg2 = new ProcessorArgument("arg2", typeof(Uri), "someOtherProperty", 5); ProcessorArgument arg3 = new ProcessorArgument("arg3", typeof(int)); processor.SetOutputArguments(arg1, arg2, arg3); ProcessorArgumentCollection arguments = processor.OutArguments; Assert.IsNotNull(arguments, "OutArguments should never be null."); Assert.AreEqual(3, arguments.Count, "OutArguments.Count should have returned 3."); Assert.AreSame(arg1, arguments[0], "The argument should have been the same instance as was provided by OnGetOutputArguments."); Assert.AreSame(arg2, arguments[1], "The argument should have been the same instance as was provided by OnGetOutputArguments."); Assert.AreSame(arg3, arguments[2], "The argument should have been the same instance as was provided by OnGetOutputArguments."); Assert.AreEqual("arg1", arguments[0].Name, "The argument name should have been the same as when it was created."); Assert.AreEqual("arg2", arguments[1].Name, "The argument name should have been the same as when it was created."); Assert.AreEqual("arg3", arguments[2].Name, "The argument name should have been the same as when it was created."); Assert.AreEqual(typeof(string), arguments[0].ArgumentType, "The argument type should have been the same as when it was created."); Assert.AreEqual(typeof(Uri), arguments[1].ArgumentType, "The argument type should have been the same as when it was created."); Assert.AreEqual(typeof(int), arguments[2].ArgumentType, "The argument type should have been the same as when it was created."); Assert.AreEqual(1, arguments[0].Properties.Count, "The argument should have the one property that it was created with."); Assert.AreEqual("someProperty", arguments[0].Properties.Find<string>(), "The argument should have the property value that it was created with."); Assert.AreEqual(2, arguments[1].Properties.Count, "The argument should have the two properties that it was created with."); Assert.AreEqual("someOtherProperty", arguments[1].Properties.Find<string>(), "The argument should have the property value that it was created with."); Assert.AreEqual(5, arguments[1].Properties.Find<int>(), "The argument should have the property value that it was created with."); Assert.AreEqual(0, arguments[2].Properties.Count, "The argument should not have any properties since it was not created with any."); }