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I'm just starting to play around with .Net Code Contracts (in VS2010 Ultimate .Net 4), to try to get an idea of what the static checker can and can't prove.

I'm trying to following example :-

public int Mult(int num1, int num2)
    {
        Contract.Requires(num2 >= 0);
        Contract.Ensures(Contract.Result<int>() == (num1 * num2));
        int result = 0;
        for (int i = 0; i < num2; i++)
        {
            result = result + num1;
        }
        return result;
    }

ie, a simple implementation of a multiply function, by repeated adding.

The static checker can't verify that the postcondition is met :-

CodeContracts: ensures unproven: Contract.Result<int>() == (num1 * num2)

Is my function not actually computing the product correctly.. or is there another reason why the static checker can't verify the Requires ? Does the presence of a loop cause it difficulty ?

If it's difficult for the static checker to verify things when loops are present, I can imagine it would get quite annoying to have a lot of warnings all the time.

I don't like the option of putting in Assumes to tell it what I think is going on, because it's generally my invalid assumptions that are the cause of bugs in the first place !

So, when the static checker can't prove something, how can we go about helping it ? For example, I could rewrite the function as a recursive function - would the checker then be able to verify it more easily ? (And advocates of functional programming might say this is how it should be written in the first place - no changing state etc !). What other ways can I change my code to make it easier for the static checker ?

Thanks !:)

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1  
Here is information that is kinda related: blogs.msdn.com/b/ericlippert/archive/tags/reachability –  Jeffrey L Whitledge Feb 25 '11 at 15:33
    
@Jeffrey, by chance I ended up linking to the same blog posts as you did. Interesting! :) –  stakx Mar 25 '11 at 8:52

2 Answers 2

The static checker will never be able to prove this, but the run-time checker will.

The static checker is applied at compile-time. In order to be able to prove your Ensures, it would have to be able to fully analyze your algorithm and what you're doing. It is not that powerful.

The run-time checker will of course validate the Ensures every time your function exits, and with proper unit-testing, that should prove the validity of the Ensures.

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One way of phrasing it is that Code Contracts is not a mathematician/logician.

If Code Contracts could actually reason about your code like you expect to "prove" that

  num1 + num1 + ... + num1     (num2 terms in total)

equals

  num1 * num2

then couldn't you just feed it any mathematical problem and Code Contracts would solve it for you?

I'm not a theoretical computer science expert, and I'm not wholly sure about the following claim, but I think this question boils down to the Halting Problem (see also at the bottom of this blog article by Eric Lippert).

Thus I'm quite sure that Code Contracts cannot possibly prove any arbitrary mathematical problem. I don't know exactly how far Code Contract goes in reasoning about your code, but I suspect it doesn't go much further than checking a couple of very basic, specific things; e.g. have a look at the second screenshot in the blog article "Static Checking .NET Code Contracts" by Doug Finke.

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Yes, agreed, there's certainly got to be a limit on how much it can do. I guess the question is does it go far enough to add value in practical usage ? I think the act of actually thinking about your contracts, regardless of whether there is any checking of them adds a lot of value. –  Glurk Apr 7 '11 at 22:14
    
It would just seem kind of annoying to me though that whenever you run the analyzer you get a massive amount of unprovens. If that were to be the case, I can imagine people might quickly stop paying attention to what the analyzer is telling them. In comparison, there is a lot of work going on with dependent types, for proving correctness at compile time. It would be interesting to contrast the 2 approaches. –  Glurk Apr 7 '11 at 22:22

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