1

Checking the following assertion produces no counter examples:

assert G4_3__10
{ 
  all x : Int | (x = 1) 
}
check G4_3__10

Produces the following output:

Executing "Check G4_3__10"

Solver=sat4j Bitwidth=0 MaxSeq=0 SkolemDepth=1 Symmetry=20
0 vars. 0 primary vars. 0 clauses. 4ms.
No counterexample found. Assertion may be valid. 0ms.

It does find a counter example when I add facts or signatures that use Ints (for example, adding

fact { 0 in Int }

Can anyone explain the reason for this behavior?

3

As you do not enforce the set of Integer to be non-empty in your original model, the analysis will only consider instances with no Integers. Your assertion will thus always hold hence no counter-example will be found.

The fact added in your second attempt pushes Alloy to consider instances where 0 is in the set of Integers. Alloy, will implicitly associate the default bitwith of 4 to Int, so that instances considered now contain integers in the interval [-8,7]. In those instances counter examples will befound.

You could also explicitly specify the Integer bitwidth to be used in your check command (rather than using this dummy fact) to enforce the presence of integers, e.g: check G4_3__10 for 4 Int

  • Hm... but this behavior is different from what we get for 'plain' sigs. For example Alloy does not need to be 'pushed' to consider non empty sets for the following assertion: sig A {} check { all a1, a2 : A | a1 = a2 } – David Faitelson Sep 30 '15 at 6:57
  • 1
    That's because Int is a built in sig, just like seq/Int and String. By default you won't have any atoms conforming to those signatures in your instances. IMHO, they took this design decision to minimize the size of the analysis domain. – Loïc Gammaitoni Sep 30 '15 at 8:29
  • Yes, I agree, especially as integers are very expensive to check. But I think it is a bit inelegant that these implementation details leak through to the user interface. Cheers :) – David Faitelson Oct 1 '15 at 14:06

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.