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With Moq, it is possible to verify that a method is never called with certain arguments (that is, arguments satisfying certain predicates) using Times.Never.

But how to verify that, no mater how many times a method is called, it is always called with certain arguments?

The default appears to be Times.AtLeastOnce.

There is no Times.Always. Am I missing something obvious? Thanks!

Edit: I posted a suggestion to the Moq mailing list last week, but it doesn't look like it's been moderated yet. I'll post any updates here.

Edit: an example. Say I am testing a class which generates XML documents. I want to ensure that only valid documents are generated. In other words, test that the writer dependency is only ever given valid documents, with a valid sequence number, to write.


    w => w.Write(
        It.Is<XDocument>(doc => XsdValidator.IsValid(doc)),
        It.Is<int>(n => n < 3)),
share|improve this question
"always" implies knowing how many times "always" is, and if you know that why not use Times(n) instead? –  mtijn Jan 17 '12 at 16:50
No it doesn't - that's kind of the point of the question. Imagine a method being called in a loop whose size is dynamically determined. –  Pete Montgomery Jan 18 '12 at 9:32
then inside the loop iteration I'd check the method was called once, again and again and again. that is assuming the loop is in the test code. if it is in the code to be tested instead, then I'd redesign for testability so I can hook into the loop code to check on each method call. –  mtijn Jan 18 '12 at 10:21

4 Answers 4

up vote 3 down vote accepted

It sounds like you're wanting "Strict" mock behavior. If the method is called with anything other than the expected parameters, the test will fail.

This is available in Moq:

var mock = new Mock<IFoo>(MockBehavior.Strict);

(Example taken from the Moq QuickStart.)

Every invocation on the mock must now have a corresponding Setup.

Using strict mocks tends to lead to brittle tests. I would avoid this technique, or at least use it sparingly.

share|improve this answer
Sure - but if it existed, this option allow me to avoid the pain of switching to a strict mock and the additional setup it entails. –  Pete Montgomery Jan 18 '12 at 11:20

And how many times is 'always?' Moq keeps track of all the times a certain method is called with certain arguments, and then uses that number for comparing to Times.Never, Times.AtLeastOnce, etc.

So, if a method is executed 4 times and you set it to 'Times.Always' what does that even mean?

Times.Never would check to make sure the number is zero.

Times.AtLeastOnce would check that the number is greater than or equal to one.

Times.Always would check that the number is.... ?

You could determine the number of times it SHOULD run programmatically, then do something like:


But there is no way for Moq to know what 'always' means.

share|improve this answer
I can't see how this can possibly be true. Moq knows what "never" means - "always" is the inverse of "never". The number you mention would just be compared to the total number of invocations, as opposed to zero. –  Pete Montgomery Jan 18 '12 at 8:52
@PeteMontgomery Moq knows what "never" means because it means zero. "Always" is an ambiguous number which could include any positive integer. Wanting Moq to test that every time a method is called, it was called, seems to be a moot point. If you are doing execution multiple times (like in a loop), just keep a variable around that represents how many times it should have been called and run a test that tests on Times.Exactly(numTimesShouldRun). –  docmanhattan Jan 18 '12 at 16:36
Hmm, I'm afraid I think that's either self-contradictory, or misunderstands the point of the question. I'm talking about testing that every time a method is called, it is called with certain arguments. See the other answers. –  Pete Montgomery Jan 29 '12 at 19:41
@PeteMontgomery Given the current behavior, it might be confusing to drop in a Times.Always. The 'Verify' method states 'Verifies that a specific invocation matching the given expression was performed on the mock.' Adding a Times.Always value would fundamentally change what the Verify method is doing. For every other value, it would be normal but for Times.Always it would now also be checking that it WASN'T calling the method with OTHER arguments. If you were to use Verify in the strict sense, 'Always' would be an ambiguous term (as explained in my answer) and therefore not make sense. –  docmanhattan Jan 30 '12 at 20:57
Nonsense, you could say exactly the same thing about Times.Never. –  Pete Montgomery Jan 31 '12 at 9:20

You can apply inversion of logic to verify ALWAYS.


Let's say you want to do the following verification:

mock.Verify(x => x.Method(It.Is<int>(i => i == 10)), Times.Always());

you can simply replace it with:

mock.Verify(x => x.Method(It.Is<int>(i => i != 10)), Times.Never());
share|improve this answer
Hi, the exact motivation for my question is that although you can do this in simple cases, like your example, you can't do it in all cases. For example: verify a method is only ever called with an XML document that satisfies certain criteria. You can't write all possible XML documents that don't satisfy those criteria, so you can't "invert" the verification to use Times.Never. –  Pete Montgomery Jan 30 '12 at 9:44
Sorry, I'm totally wrong on this last point - I just realised that you in general can invert and use Times.Never - provided you are only testing one argument at a time. –  Pete Montgomery Jan 31 '12 at 10:23

My recommendation would be to create a 'fallback' matching for the method with It.IsAny conditions. You can then verify Times.Never on that matching, which should always have been superseded by the more specific match.

share|improve this answer
Could you show how to do that? (Calls to Verify don't "fall through" if that's what you mean - they're independent so far as I can see.) Or do you mean rewrite the test to use use Times.Never? Sometimes that's not possible, because you would have to specify all possible invalid arguments. Cheers, Pete. –  Pete Montgomery Jan 18 '12 at 10:49

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