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I need to test the following method:
CreateOutput(IWriter writer)
{
writer.Write(type);
writer.Write(id);
writer.Write(sender);
// many more Write()s...
}
I've created a Moq'd IWriter and I want to ensure that the Write() methods are called in the right order.
I have the following test code:
var mockWriter = new Mock<IWriter>(MockBehavior.Strict);
var sequence = new MockSequence();
mockWriter.InSequence(sequence).Setup(x => x.Write(expectedType));
mockWriter.InSequence(sequence).Setup(x => x.Write(expectedId));
mockWriter.InSequence(sequence).Setup(x => x.Write(expectedSender));
However, the second call to Write() in CreateOutput() (to write the id value) throws a MockException with the message "IWriter.Write() invocation failed with mock behavior Strict. All invocations on the mock must have a corresponding setup.".
I'm also finding it hard to find any definitive, up-to-date documentation/examples of Moq sequences.
Am I doing something wrong, or can I not set up a sequence using the same method? If not, is there an alternative I can use (preferably using Moq/NUnit)?
847
Verifies that all verifiable expectations have been met.
Many manufacturers institute a minimum order quantity (MOQ) to get you to commit to buying enough so they can be cost-effective in production and make a profit. It's why you buy a dozen eggs at once rather than a single egg at a time.
Strict the mock behaves just like the object of the class you've mocked. It causes the mock to always throw an exception for invocations that don't have a corresponding expectation. Thus, if the you slightly changed the class (added a method), you'll also want to add that method to the mock to make your tests pass.
Moq is a library that allows us to create mock objects in test code. It is also available in NuGet. This library also supports . NET Core.
There is bug when using MockSequence on same mock. It definitely will be fixed in later releases of Moq library (you can also fix it manually by changing Moq.MethodCall.Matches implementation).
If you want to use Moq only, then you can verify method call order via callbacks:
int callOrder = 0;
writerMock.Setup(x => x.Write(expectedType)).Callback(() => Assert.That(callOrder++, Is.EqualTo(0)));
writerMock.Setup(x => x.Write(expectedId)).Callback(() => Assert.That(callOrder++, Is.EqualTo(1)));
writerMock.Setup(x => x.Write(expectedSender)).Callback(() => Assert.That(callOrder++, Is.EqualTo(2)));
I've managed to get the behaviour I want, but it requires downloading a 3rd-party library from http://dpwhelan.com/blog/software-development/moq-sequences/
The sequence can then be tested using the following:
var mockWriter = new Mock<IWriter>(MockBehavior.Strict);
using (Sequence.Create())
{
mockWriter.Setup(x => x.Write(expectedType)).InSequence();
mockWriter.Setup(x => x.Write(expectedId)).InSequence();
mockWriter.Setup(x => x.Write(expectedSender)).InSequence();
}
I've added this as an answer partly to help document this solution, but I'm still interested in whether something similar could be achieved using Moq 4.0 alone.
I'm not sure if Moq is still in development, but fixing the problem with the MockSequence, or including the moq-sequences extension in Moq would be good to see.
26
I wrote an extension method that will assert based on order of invocation.
public static class MockExtensions
{
public static void ExpectsInOrder<T>(this Mock<T> mock, params Expression<Action<T>>[] expressions) where T : class
{
// All closures have the same instance of sharedCallCount
var sharedCallCount = 0;
for (var i = 0; i < expressions.Length; i++)
{
// Each closure has it's own instance of expectedCallCount
var expectedCallCount = i;
mock.Setup(expressions[i]).Callback(
() =>
{
Assert.AreEqual(expectedCallCount, sharedCallCount);
sharedCallCount++;
});
}
}
}
It works by taking advantage of the way that closures work with respect to scoped variables. Since there is only one declaration for sharedCallCount, all of the closures will have a reference to the same variable. With expectedCallCount, a new instance is instantiated each iteration of the loop (as opposed to simply using i in the closure). This way, each closure has a copy of i scoped only to itself to compare with the sharedCallCount when the expressions are invoked.
Here's a small unit test for the extension. Note that this method is called in your setup section, not your assertion section.
[TestFixture]
public class MockExtensionsTest
{
[TestCase]
{
// Setup
var mock = new Mock<IAmAnInterface>();
mock.ExpectsInOrder(
x => x.MyMethod("1"),
x => x.MyMethod("2"));
// Fake the object being called in order
mock.Object.MyMethod("1");
mock.Object.MyMethod("2");
}
[TestCase]
{
// Setup
var mock = new Mock<IAmAnInterface>();
mock.ExpectsInOrder(
x => x.MyMethod("1"),
x => x.MyMethod("2"));
// Fake the object being called out of order
Assert.Throws<AssertionException>(() => mock.Object.MyMethod("2"));
}
}
public interface IAmAnInterface
{
void MyMethod(string param);
}
The simplest solution would be using a Queue:
var expectedParameters = new Queue<string>(new[]{expectedType,expectedId,expectedSender});
mockWriter.Setup(x => x.Write(expectedType))
.Callback((string s) => Assert.AreEqual(expectedParameters.Dequeue(), s));
Recently, I put together two features for Moq: VerifyInSequence() and VerifyNotInSequence(). They work even with Loose Mocks. However, these are only available in a moq repository fork:
https://github.com/grzesiek-galezowski/moq4
and await more comments and testing before deciding on whether they can be included in official moq releaase. However, nothing prevents you from downloading the source as ZIP, building it into a dll and giving it a try. Using these features, the sequence verification you need could be written as such:
var mockWriter = new Mock<IWriter>() { CallSequence = new LooseSequence() };
//perform the necessary calls
mockWriter.VerifyInSequence(x => x.Write(expectedType));
mockWriter.VerifyInSequence(x => x.Write(expectedId));
mockWriter.VerifyInSequence(x => x.Write(expectedSender));
(note that you can use two other sequences, depending on your needs. Loose sequence will allow any calls between the ones you want to verify. StrictSequence will not allow this and StrictAnytimeSequence is like StrictSequence (no method calls between verified calls), but allows the sequence to be preceeded by any number of arbitrary calls.
If you decide to give this experimental feature a try, please comment with your thoughts on: https://github.com/Moq/moq4/issues/21
Thanks!
40
I've just had a similar scenario, and inspired by the accepted answer, I've used the following approach:
//arrange
var someServiceToTest = new SomeService();
var expectedCallOrder = new List<string>
{
"WriteA",
"WriteB",
"WriteC"
};
var actualCallOrder = new List<string>();
var mockWriter = new Mock<IWriter>();
mockWriter.Setup(x => x.Write("A")).Callback(() => { actualCallOrder.Add("WriteA"); });
mockWriter.Setup(x => x.Write("B")).Callback(() => { actualCallOrder.Add("WriteB"); });
mockWriter.Setup(x => x.Write("C")).Callback(() => { actualCallOrder.Add("WriteC"); });
//act
someServiceToTest.CreateOutput(_mockWriter.Object);
//assert
Assert.AreEqual(expectedCallOrder, actualCallOrder);
Moq has a little-known feature called Capture.In, which can capture arguments passed to a method. With it, you can verify call order like this:
var calls = new List<string>();
var mockWriter = new Mock<IWriter>();
mockWriter.Setup(x => x.Write(Capture.In(calls)));
CollectionAssert.AreEqual(calls, expectedCalls);
If you have overloads with different types, you can run the same setup for overloads too.
36
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