Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I am unit-testing private methods in C# using NUnit.

For example, my method (if public) is expected to throw an ArgumentNullException. I can assert that the method throws an ArgumentNullException like so: Assert.Throws<ArgumentNullException>(() => method.Call());

However, since I am invoking a private method using reflection, I would assert a TargetInvocationException for the method that throws an ArgumentNullException like so: Assert.Throws<TargetInvocationException>(() => methodInfo.Invoke(obj, new object[] { params }));

I would like to assert an ArgumentNullException instead of a TargetInvocationException for that private method so I can scan over its code and know what its expected to do rather than to debug to find out.

How would I assert for the actual exception, instead of a TargetInvocationException?

NOTE: This question is not addressing the theory behind unit-testing public vs. private methods. My team and I have made the decision to unit-test the private methods, and whether or not that is the way to unit-test is irrelevant to this question. See the most upvoted answer on this question to understand our rationale.

share|improve this question
Whether or not this is a good idea is one thing, but could you check the InnerException property? – George Duckett May 15 '12 at 15:21
Thanks @GeorgeDuckett for the guiding me in the right direction. – mastermind_ed May 15 '12 at 16:00

3 Answers 3

Make an extension method on Assert, i.e "ThrowsInnerException" that take a func, wrap with a Try/Catch and throw the InnerException (which, in your case, correspond to the ArgumentNullException)

Here is a piece of code (untested & doesn't compile, as I typed it without editor, but it should give you the idea)

public static class AssertExtension 
        public static void ThrowsInnerException<T>(Action action) 
            Assert.Throws<T>(delegate() {
                try { action(); }
                catch (Exception exc) { throw exc.InnerException; }
share|improve this answer
Thank you for taking the time to answer the question asked. – mastermind_ed May 17 '12 at 13:20
up vote 2 down vote accepted

Found my answer:

var exception = Assert.Throws<TargetInvocationException>(() => methodInfo.Invoke(obj, new object[] { params }));


Assert.IsNotNull(exception.InnerException) lets me know that an inner exception exists. Assert.IsInstanceOf<Exception>(exception.InnerException); will assert any type of Exception thrown. I agree that both ways tell us that there is an inner exception.

However.....what if I want to assert for a specific type of inner exception?

For example, if my method throws an ArgumentNullException, then I cannot assert for that by doing Assert.IsInstanceOf<FileNotFoundException>(exception.InnerException); Using Assert.IsNotNull lets me know that an inner exception exists, but it does not reveal the type of the inner exception. Therefore, this is why I prefer using IsInstanceOf in this case.

share|improve this answer
FYI -- this is the same as checking that the InnerException is not null since all that will be true of any exception. – Austin Salonen May 15 '12 at 16:43
See UPDATE... – mastermind_ed May 15 '12 at 17:38

Are you sure that unit-testing private methods is good idea? Because sounds like it isn't.

It's better to test public method that is calling private method.


What's more, despite I didn't see your code, but I think it's better to put parameters validation to public methods and test them.

Found pretty similar SO question

Approach that I was using in similar case(for mocking private fields) was just to mark private methods as internal and to add InternalsVisibleTo(<assembly_with_unit_tests>) attribute to assembly under test.
It's not good idea(actually I was against this when it was proposed in team on one of design session, because it's not right, not pure, etc), but as the result it saved a lot of time for writing unit-tests.

share|improve this answer
The public method that calls these private methods have been tested. As I stated above, my team has determined to test the private methods as there are many parts within the public method. – mastermind_ed May 15 '12 at 15:21
See this. The most upvoted answer explains our rationale in taking this route. – mastermind_ed May 15 '12 at 15:25
Testing the public method necesarily means you have tested the private methods. They are not distinct. – Tejs May 15 '12 at 15:31

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.