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Im wondering how someone should use Assert.Inconclusive().

I'm using it if my Unit test would be about to fail for a reason other than what it is for. E.g. i have a method on a class that calculates the sum of an array of ints. On the same class there is also a method to calculate the average of the element. It is implemented by calling sum and dividing it by the length of the array.

Writing a Unit test for Sum() is simple. However, when i write a test for Average() and Sum() fails, Average() is likely to fail also.

The failure of Average is not explicit about the reason it failed, it failed for a reason other than what it should test for.

That's why i would check if Sum() returns the correct result, otherwise i Assert.Inconclusive().

Is this to be considered good practice? What is Assert.Inconclusive intended for? Or should i rather solve the previous example by means of an Isolation Framework?

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4 Answers 4

up vote 10 down vote accepted

When I use VS to generate the unit tests, I got Assert.Inclusive for generated test methods and usually I change the assertion so something else when I work them. I use the question marks of Assert.Inconclusive in test result as markers to quickly tell me which tests I have not yet completed.

Well, it's just the way I use it. From its name "Inconclusive", I guess you can use to indicate your undeterministic state as long as you document what it means.

However, from the description of your Average() method, I think that maybe your unit test is not atomic enough to cover just one "unit", one specific scenario. Sometimes, I write 2 or 3 unit test methods for a single method. Or you can break your Average() method to smaller methods covering single responsibilities. That way, you can unit test those smaller methods before unit testing you Average() one.


Johannes,

This is how I would implement the Sum() and Average() methods.

public static class MyMath
{
    private static void ValidateInput(ICollection<int> numbers)
    {
        if (numbers == null)
            throw new ArgumentNullException("numbers", "Null input.  Nothing to compute!");
        if (numbers.Count == 0)
            throw new ArgumentException("Input is empty.  Nothing to compute!");
    }

    public static int Sum(int[] numbers)
    {
        ValidateInput(numbers);

        var total = 0;
        foreach (var number in numbers)
            total += number;

        return total;
    }

    public static double Average(int[] numbers)
    {
        ValidateInput(numbers);
        return Sum(numbers) / numbers.Length;
    }
}

For simplicity, I just throw ArgumentException exceptions from the ValidateInput(ICollection<int>) method. You can also check for possibility to overflow and throw OverflowException in the ValidateInput(ICollection<int>) method.

With that said, here's how I would test the Average(int[]) function.

[TestMethod]
public void AverageTest_GoodInput()
{
    int[] numbers = {1, 2, 3};
    const double expected = 2.0;
    var actual = MyMath.Average(numbers);
    Assert.AreEqual(expected, actual);
}

[TestMethod]
[ExpectedException(typeof(ArgumentNullException))]
public void AverageTest_NullInput()
{
    int[] numbers = null;
    MyMath.Average(numbers);
}

[TestMethod]
[ExpectedException(typeof(ArgumentException))]
public void AverageTest_EmptyInput()
{
    var numbers = new int[0];
    MyMath.Average(numbers);
}

With these tests setup, I can be certain that when all the tests pass, my function is correct. Well, except for the case of overflow. Now I can go back to the ValidateInput(ICollection<int>) method to add logic to check for overflow, then add one more test to expect the OverflowException to be thrown for the kind of inputs that cause overflow. Or doing it in the opposite order if you like to approach using TDD.

I hope this helps clarify the idea.

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could you please elaborate how you would approach this in this very special case –  Johannes Rudolph Aug 3 '09 at 11:30
    
thank you very much. so in essence you are saying that there is no need to write an explicit test for Sum(), but testing it via Average(). From code coverage perspective this generates the same result anyway. –  Johannes Rudolph Aug 6 '09 at 11:44
    
I would also write tests for Sum(). Who knows in my sleepy moment, I might type the '-' instead of the '/'. :) With the tests for Sum() in place, if I got all the tests for Sum() pass but some test for Average() fail, I can be very certain that the implementation for Average() is wrong. I won't be able to blame Sum() for causing Average() to be wrong. :) –  tranmq Aug 6 '09 at 23:58

Inconclusive test is a test for which you cannot determine the result. For example, what if you had a test that uses some kind of an external resource (Internet connection, for example). If the connection is currently not available, this doesn't really mean the test is a failure. On the other hand, you shouldn't just mark it as successful without actually running it through. So you mark it as inconclusive and this can be seen in the test report.

NOTE: In general, you shouldn't use such external resources in your tests, since this can make the tests fragile.

For tests that haven't been finished yet, I use MbUnit's Explicit attribute.

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I used Inconclusive in a email unittest. The code send emails, and I have to check the visual layout from the outlook mailbox –  Dennis Cheung Dec 15 '10 at 7:18

Assert.Inconclusive indicates that either:

I have not yet written the test;I've only created the test method

-or-

My test has a dependency and that dependency is not available. For example

List<Customer> custs = o.GetAllCustomers();
if (custs.Count == 0)
{
  Assert.Inconclusive("No customers to test");
  return;
}
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I only Assert.Inconclusive on unit tests I haven't written yet. Sometimes when writing something I realize some corner case that I don't want to miss. So I quickly jump over, write the test method with a descriptive name and add a single line of Assert.Inconclusive.

The reason for doing this is that it provides documentation on things that I need to test without interrupting my work flow too much. It also makes it possible to filter out test failures quickly in the result list. Having an inconclusive failure means I haven't broken anything I just more tests to write.

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