I've just started playing with code contracts, and while promising, they seem to have some limitations with respect to value types. For instance:

public struct Wrap<T>
    where T : class
    readonly T value;
    public Wrap(T value)
        Contract.Requires(value != null);
        this.value = value;
    public T Value
            Contract.Requires(Value != null);
            return value;
    void Invariant()
        Contract.Invariant(value != null);
    public static T BigError()
        Contract.Ensures(Contract.Result<T>() != null);
        var x = default(Wrap<T>);
        Contract.Assert(x.Value != null);
        return x.Value;

Wrap.BigError clearly demonstrates the problem. This sample compiles and ccheck verifies 4 assertions, yet the assertions will clearly fail at runtime. Some of these assertions are redundant and I inserted them just be sure the verifier is checking these properties at the designated points.

I don't see this sort of thing listed as a known problem in MS's docs for code contracts, but it seems too obvious to be an omission. Am I missing something?

  • 1
    "Below is a list of known bugs or unimplemented features in the static contract checker: Known Limitations Invariants on structs are ignored." (from 6.6.1) – Damien_The_Unbeliever Apr 16 '13 at 14:17
  • Thanks, I missed that one. It still doesn't answer the question though, because I've also listed preconditions which aren't satisfied. – naasking Apr 16 '13 at 19:31
  • What precondition isn't satisfied? – Damien_The_Unbeliever Apr 17 '13 at 5:52
  • Contract.Requires(Value != null) in Wrap.Value. Also, the Contract.Assert(x.Value != null) doesn't report a problem as it should either. – naasking Apr 17 '13 at 12:30
up vote 0 down vote accepted

Turns out the problem was the invariant specified in the struct. If you remove the invariant, you get the expected errors. Contrary to MS's documentation, the static checker does seem to account for struct invariants.

There's something strange in your getter contract for the Value property. You recursively require that this.Value != null. I'm sure you meant something else, e.g.

Contract.Ensures( Contract.Result<T>() != null );

With that fix, the specification looks perfectly reasonable to me. The limitation of the checker (including runtime) is that you can always create default values of structs and we cannot check the invariant on these default values. So, the checking is modulo the construction of default values.

  • No, I explicitly wanted to recursively require that value is not null to ensure that the user is not using a default struct instance. The whole point of these contracts was to require clients to construct a struct via a constructor. See: higherlogics.blogspot.ca/2013/04/… – naasking Apr 25 '13 at 14:40
  • I understand your intention, but it doesn't work that way. If you want to make sure people use instantiated structs, add a field and property Initialized that gets set in a real constructor. Then make all methods Requires(this.Initialized). It's painful, but I think that is what you are trying to do. – Manuel Fahndrich Apr 25 '13 at 16:44
  • It does work. See the linked blog post. As long as the property is public, the precondition can be specified recursively as I've done here and the static checker will return an error if it detects an invalid use. – naasking Apr 26 '13 at 2:54
  • Here's what's happening. The static checker actually infers a post condition for your Value getter which is Ensures(Contract.Result<T>() == this.value). In the case of your example code, the static checker also knows that the default(T) leaves the value field as null. Thus, it can prove that the precondition is false in this case. In terms of runtime checking, your contrac will cause some recursive evaluation that we cut at runtime after 3-4 levels. – Manuel Fahndrich Apr 26 '13 at 20:30
  • Note that your invariant is still not really an invariant. It isn't true for the default constructor. Thus, it is misleading. Also, if you are using this code from another assembly, you will need more contracts, namely a post condition on your constructor that states that the Value is not null (within the assembly, we infer that). – Manuel Fahndrich Apr 26 '13 at 20:32

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