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I'm encountering a problem when using the SMTLIBv2 input format and patterns with Z3: I keep getting the result "unknown" with the following input:

(declare-datatypes () ((L L0 L1)))
(declare-fun path () (List L))
(declare-fun checkTransition ((List L)) Bool)

(define-fun isCons ((p (List L))) Bool
    (not (= p nil))

; configuration options for :pattern, taken from the Z3 tutorial
(set-option :auto-config false) ; disable automatic self configuration
(set-option :smt.mbqi false)    ; disable model-based quantifier instantiation

(assert (isCons path))
(assert (isCons (tail path)))
(assert (= nil (tail (tail path))))
(assert (= L0 (head path)))             ; initial state constraint

    (forall ((p (List L)))
            (and    (isCons p)
                    (isCons (tail p)))
            (and    (=  L0  (head p))           ; transition from L0
                    (=  L1  (head (tail p)))))  ; to L1
    :pattern ((checkTransition p))
(assert (checkTransition path))


I use a list to represent the possible paths through a transition system. The transition system in this case consists only of states L0 and L1 which are linked by a transition from L0 to L1. By assert statements I limit the paths to such that start with L0 and are of length 2. I expect to get as a model the path (L0 (cons (L1 (cons nil)))).

I already tried to boil it down to a minimal example that still shows the problem, resulting in the code above. I want to use the pattern to implement a recursive check on 'path', to ensure that each two consecutive nodes in the list comply with some (transition) constraint. The check for consecutive cons is used as a stopping condition for this recursive check. Although in the example above I removed the recursive check via checkTransition, it still does not work. The whole idea goes back to an article by Milicevic and Kugler in which they use Z3 2.0 and the .net API to represent a Model Checking problem in such a way.

I'm aware that pattern instantiation can lead to the result "unknown", but I was wondering why it already happens with such a simple (?) example. Am I using the pattern in a wrong way to achieve quantifier support?

Any ideas on this problem are more than welcome!

Regards Carsten

P.S.: I use Z3 version 4.3.2 on MacOS X (10.8.3) The mentioned article: Milicevic, A. & Kugler, H., 2011. Model checking using SMT and theory of lists. NASA Formal Methods, pp.282–297.

EDIT based on comments of mhs:

The problem of not getting a model seems to occur from version 4.3.2 (unstable). I did some troubleshooting with different versions:

  • Z3 4.3.0 32bit, WinXP 32bit, from installer
    • result: unknown, but gives a model
  • Z3 version 4.3.1, git checkout 89c1785b73225a1b363c0e485f854613121b70a7, MacOS X, self compiled, this is the newest version in the master branch....
    • result: unknown, but gives a model
  • various other checkouts of the master branch, all <= 4.3.1 yield the same result.
  • Z3 version 4.3.2, nightly built z3-, MacOS X...
    • result: unknown, gives NO model
  • Z3 version 4.3.2, nightly built z3-, MacOS X...
    • result: unknown, gives NO model


share|improve this question

I just tried your example on Z3 4.3.0 on Win 7 x64 and I get the result


  (define-fun path () (List L)
    (insert L0 (insert L1 nil)))

  (define-fun checkTransition ((x!1 (List L))) Bool
    (ite (= x!1 (insert L0 (insert L1 nil))) true

Isn't that the model for path you expected?

I assume that you get unknown because your problem is under-specified, though I cannot put my finger on a concrete problem. If you give Z3 something to refute, for example by appending

(assert (not (= L1 (head (tail path)))))

to your code, then you'll get unsat as expected.

share|improve this answer
Thanks a lot for your answer! I did some more digging, see answer below. – user2235870 Apr 5 '13 at 12:25

Z3 has many solvers. Not every solver produces a "candidate model" when the result is unknown. The default solver is a portfolio that automatically selects the solver to be used. The portfolio solver was modified in the unstable (working-in-progress) branch. The nightly builds are compiled using the unstable branch. I will add a command to specify the solver that is executed when (check-sat) is executed. Thus, if we are interested in "candidate models" for unknown results, we can specify a solver that produces them. In the meantime, you can use the following workaround:

  • Add a (push) command before (check-sat). This is a little hack that forces the portfolio solver to select a solver that produces "candidate models".

Additional remarks:

  • Z3 v4.3.2 was not released yet. This is why the nightly builds in the question have the git hashes 197b2e8ddb91 and 96f4606a7f2d attached to them. These hash codes identify the precise git commits used to build them.

  • If we remove the command (set-option :smt.mbqi false), Z3 will use the mbqi module and will successfully show the assertions to be unsat.

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