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As titled.

I have a class that implement IComparable which need for sorting. I wrote all unit testing against all methods. But then is it make sense to write a unit test to check does it implement IComparable?

Because with the interface when sorting in UI it won't work. But compile it will still work. So if I have such test case, it can be catch if anyone removed that interface.

My class is something like:

 public class ComparableCustomType: IComparable
        private readonly someFields;

        public ComparableCustomType(AnotherBusinessObject obj)
              //Do some parsing against the obj

        public int CompareTo(object obj)
             //Some custom sorting logic

Basically my test case will be:

public void CompareTo_IsImplementIComaparable()
      IComparable comparable = Isolate.Fake.Instance<ComparableCustomType>();
      Assert.AreNotEqual(null, comparable);    

EDIT: This is how I use this property....(or I should say that's how the person use this property...)

public class CustomItem{

    private AnotherBusinessObject anotherBusinessObj = null

    public CustomItem(AnotherBusinessObject obj)
        this.anotherBusinessObj = obj;

    public ComparableCustomType {
        get { return new CamparableCustomType(this.anotherBusinessObj); }

    public string SomeOtherProperty {get;set;}

    publci int AnotherProperty {get;set;}


public ObservableCollection<CustomItem> MyCustomCollection {get;set;}

Then this collection will databinds to my GridView.... so it will automatically generates all columns.....

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Now how are you instantiating and using the object in your application? That's mostly what I was curious about. –  jlafay Apr 27 '12 at 15:34
@jlafay this is use as a property of a collection item. Let me put a simple code... –  King Chan Apr 27 '12 at 15:48

2 Answers 2

up vote 5 down vote accepted

To quickly summary my answer, I say no, it doesn't make much sense to write a unit test to check what a class implements/inherits. IMO, unit tests should be written to test logic/functionality, not type. That's pretty much like writing a test to make sure you can instantiate a constructor. Usually something like that is overkill and I believe that this case is overkill as well.

Your code should be checked at compile time. You can apply this constraint when the object is instantiated (if this is possible for the way you're using your objects).

Let's say that your class that implements IComparable is called FooComparable:

IComparable foo = new FooComparable();

Likewise, if you have already instantiated the object and it's sole function isn't necessarily an IComparableobject you could apply a couple other constraints. Let's say maybe you have your FooComparableand you want to make sure it's IComparablebefore binding it to a control, you could do something like this:

IComparable dataSource = fooObj;

If you try this and FooComparable does NOT implement IComparable, the compiler will complain. Maybe you should provide a code example of how you're using the class so we could provide more suggestions.

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The class is basically have a constructor that will parse the data in a way that I can use for sorting. The IComparable is just for the GridView/DataGrid to know this custom type can be sort. So it will enable the sorting on the column. –  King Chan Apr 27 '12 at 13:15
I just added the sample code. –  King Chan Apr 27 '12 at 13:38

I would say don't test anything that the compiler will catch for you. Since you have a case that the compiler won't catch, it seems like it would be legit to create a UT for it.

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So it won't violate any rules on unit testing? I am not very familiar with unit testing. All I know is we will want to know the object behavior by passing different parameters into different methods... –  King Chan Apr 27 '12 at 13:31
It doesn't violate any rules. Guidelines around unit testing usually define the upper bounds (such as, test one class at a time and mock out other classes), and the compiler creates a natural lower boundary. However, look at jlafay's answer - if his answer is correct for c#, that is, if you can let the compiler enforce correctness, do that. –  Don Branson Apr 27 '12 at 14:41

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