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In a class of mine, I have a private field of type ExpandoObject. The field is initialized in the constructior (this.expected = new ExpandoObject()), so I'm confident that it will never be null.

Thus, in one of the methods on this class, I fell safe to add

Contract.Assumes(this.expected != null)

before using this.expected for anything, so Code Contracts won't have to worry about possible calls on null objects. However, instead of a warning for possible method call on a null reference, I get a warning saying

The dynamically dispatched call to method 'Assume' may fail at runtime because one or more applicable overloads are conditional method

The method signature and the first few lines of code looks like this:

protected void Expect(object values)
{
    Contract.Requires<ArgumentNullException>(values != null);

    Contract.Assume(this.expected != null);
    var exp = (ICollection<KeyValuePair<string, object>>)this.expected;

On the third line, I get a warning for

CodeContracts: Possibly calling a method on a null reference 'OddEnds.Testing.TestBase.o_SiteContainer0.<>p_Site3.Target'

where I assume the odd signature of the null reference is because exp is a dynamic object.

How do I solve these?

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2  
You talk of thefield, extended, expected. Seems like they are all the same field but impossible to reverse-engineer. Review your question for accuracy. –  Hans Passant Mar 5 '11 at 0:17
    
Sorry - I was a little too fast there... As you assumed, they are all referring to the same field, which is now called expected, as it is in my code. –  Tomas Lycken Mar 5 '11 at 2:47
    
wonder whether same warning will exist if you replace Assume with Assert? –  Valentin Kuzub Mar 5 '11 at 3:10

2 Answers 2

I think the best way to solve your problem is to declare that expected is never null as an invariant on the class:

class TheClass {

    ExpandoObject expected;

    ...

    [ContractInvariantMethod]
    void Invariants()
    {
        Contract.Invariant(this.expected != null);
    }

    ...

}

When you do this, the static checker will check that expected is not null at the end of your constructor, and then it will know that expected is never null at the start of any other method.

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That is quite sexy! =) I will probably go with this both here and in some other cases as well, but I have a follow-up question: are invariant contracts disposable-aware? I.e., can I implement IDisposable without breaking a blaha != null contract in the Dispose method? –  Tomas Lycken Mar 7 '11 at 14:53
    
As long as you don't set blaha to null it will be fine. :) (Actually, you could implement a perverse type that had == depend on whether it was disposed or not, and that could break it... but that's just nasty anyway.) –  Porges Mar 7 '11 at 20:35
    
But if I have blaha = null; in the Dispose method it will break? –  Tomas Lycken Mar 8 '11 at 17:23
    
Yup. The invariant is checked at the end of every method. You could try using Contract.Invariant(disposed || blaha != null) with a flag variable disposed, but I think you'd have to then add a precondition Contract.Requires(!disposed) to your methods. Is there any particular reason you need to set blaha to null? –  Porges Mar 9 '11 at 3:32
    
No, I was just wondering =) Unfortunately, this was not the root cause - now, CC is complaining that the invariant cannot be verified... –  Tomas Lycken Mar 9 '11 at 14:37

Im thinking following code change will keep compiler happy (if your sure in this cast anyway, but why use expandoobject then.. anyway)

ICollection<KeyValuePair<string, object>> col = this.expected as ICollection<KeyValuePair<string, object>>;
Contract.Assume(col != null);
share|improve this answer
    
I had that before, but changed it to an explicit cast to keep the compiler happy :P –  Tomas Lycken Mar 7 '11 at 14:55

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