Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have a constraint like (t>=0 or t>=1) and (t<=2 or t>=2),in fact the constraint can be simplified into "t>=0", how to use z3 to get the simplified result in CNF form by using z3?

(declare-const t Int)                                                                                  
(assert (and 
               (>= t 0)
               (>= t 1)
                (>= t 2)
                 (<= t 2)
            (>= t 0)
            (<= t 1)
(apply (par-then (! simplify :elim-and true) tseitin-cnf))

However, the script doesn't work.

share|improve this question

1 Answer 1

up vote 2 down vote accepted

The simplify tactic only perform "local simplifications". That is, when simplifying an expression t, it will ignore the context of t. For example, it can simplify a + 1 - a into 1, but it will not simplify a != 0 or b = a + 1 into a != 0 or b = 1. Contextual simplification is expensive, the simplify tactic is meant to be efficient and simple. Other tactics may be used to achieve what you want.

The tactic propagate-ineqs will propagate inequalities. However, it will not process terms nested in the formula. The tactic split-clause can be used to break the formula in cases\goals. The tactic propagate-values will propagate the value of an assertion, example: a = 0 and b >= a is simplified to a = 0 and b >= 0.

The command (help-tactic) will display all available tactics.

Here is a strategy for simplifying your example into t >= 0 and t <= 1.

(apply (then simplify propagate-values split-clause propagate-ineqs))

Note that the combinator par-then is only useful for combining tactics that produce many sub-goals. (par-then t1 t2) applies t1 to the input goal, and applies t2 (in parallel) to every subgoal produced by t1. The split-clause tactic produces more than one subgoal. Then (for bigger examples) it may be more efficient to use:

(apply (then simplify propagate-values (par-then split-clause propagate-ineqs)))
share|improve this answer
thanks, leonardo, I wonder can .net api of this problem run in .net framework 3.5 or just only 4.0? –  sweetyBaby Jul 16 '12 at 0:45
if I want to process terms nested in the formula in the example as follows, I want to simplify the (or (>= t 2)(<= t 2)), can z3 do it? (declare-const t Int) (assert (and (or (>= t 0) (>= t 1) ) (or (>= t 2) (<= t 2) ) ) ) –  sweetyBaby Jul 16 '12 at 3:27
That is why I added the split-clause tactic. It splits the clause in two cases. After that, propagate-ineqs can simplify the ineqs. –  Leonardo de Moura Jul 16 '12 at 4:03
thanks,however, I want to get the simplest result. For example, give the constraint like (t>=0 or t>=1) and (t>=2 or t<=2), the expected simplified result is (t>=0), however the script doesn't work. (declare-const t Int) (assert (and (or (>= t 0) (>= t 1) ) (or (<= t 2) (>= t 2) ) ) ) (apply (then simplify propagate-values (par-then split-clause propagate-ineqs))) –  sweetyBaby Jul 16 '12 at 6:55
I don't think the expected result of (t>=0 or t>=1) and (t>=2 or t<=2) is (t>=0). Sure, in all branches (t>=0), but we have more information than that. The tactic split-clause will split only one clause. In this example in your last comment, we have two. So, we can use the combinator repeat keep applying split-clause while applicable. Here is a link to the script that does that: Note that we have branches where (t>=1 and t<=2). –  Leonardo de Moura Jul 16 '12 at 14:53

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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