** Calling: z3 -nw -in -smt2
[GOOD] ; Automatically generated by SBV. Do not edit.
[GOOD] (set-option :print-success true)
[GOOD] (set-option :global-declarations true)
[GOOD] (set-option :smtlib2_compliant true)
[GOOD] (set-option :diagnostic-output-channel "stdout")
[GOOD] (set-option :produce-models true)
[GOOD] (set-option :pp.max_depth      4294967295)
[GOOD] (set-option :pp.min_alias_size 4294967295)
[GOOD] (set-option :model.inline_def  true      )
[GOOD] (set-logic ALL) ; has unbounded values, using catch-all.
[GOOD] ; --- uninterpreted sorts ---
[GOOD] ; --- tuples ---
[GOOD] ; --- sums ---
[GOOD] (declare-datatype SBVRational ((SBV.Rational (sbv.rat.numerator Int) (sbv.rat.denominator Int))))

[GOOD] (define-fun sbv.rat.eq ((x SBVRational) (y SBVRational)) Bool
          (= (* (sbv.rat.numerator   x) (sbv.rat.denominator y))
             (* (sbv.rat.denominator x) (sbv.rat.numerator   y)))
       )

[GOOD] (define-fun sbv.rat.notEq ((x SBVRational) (y SBVRational)) Bool
          (not (sbv.rat.eq x y))
       )

[GOOD] (define-fun sbv.rat.lt ((x SBVRational) (y SBVRational)) Bool
          (<  (* (sbv.rat.numerator   x) (sbv.rat.denominator y))
              (* (sbv.rat.denominator x) (sbv.rat.numerator   y)))
       )

[GOOD] (define-fun sbv.rat.leq ((x SBVRational) (y SBVRational)) Bool
          (<= (* (sbv.rat.numerator   x) (sbv.rat.denominator y))
              (* (sbv.rat.denominator x) (sbv.rat.numerator   y)))
       )

[GOOD] (define-fun sbv.rat.plus ((x SBVRational) (y SBVRational)) SBVRational
          (SBV.Rational (+ (* (sbv.rat.numerator   x) (sbv.rat.denominator y))
                           (* (sbv.rat.denominator x) (sbv.rat.numerator   y)))
                        (* (sbv.rat.denominator x) (sbv.rat.denominator y)))
       )

[GOOD] (define-fun sbv.rat.minus ((x SBVRational) (y SBVRational)) SBVRational
          (SBV.Rational (- (* (sbv.rat.numerator   x) (sbv.rat.denominator y))
                           (* (sbv.rat.denominator x) (sbv.rat.numerator   y)))
                        (* (sbv.rat.denominator x) (sbv.rat.denominator y)))
       )

[GOOD] (define-fun sbv.rat.times ((x SBVRational) (y SBVRational)) SBVRational
          (SBV.Rational (* (sbv.rat.numerator   x) (sbv.rat.numerator y))
                        (* (sbv.rat.denominator x) (sbv.rat.denominator y)))
       )

[GOOD] (define-fun sbv.rat.uneg ((x SBVRational)) SBVRational
          (SBV.Rational (* (- 1) (sbv.rat.numerator x)) (sbv.rat.denominator x))
       )

[GOOD] (define-fun sbv.rat.abs ((x SBVRational)) SBVRational
          (SBV.Rational (abs (sbv.rat.numerator x)) (sbv.rat.denominator x))
       )
[GOOD] ; --- literal constants ---
[GOOD] ; --- top level inputs ---
[GOOD] (declare-fun s0 () (Array SBVRational Int)) ; tracks user variable "x"
[GOOD] ; --- constant tables ---
[GOOD] ; --- non-constant tables ---
[GOOD] ; --- uninterpreted constants ---
[GOOD] ; --- user defined functions ---
[GOOD] ; --- assignments ---
[GOOD] ; --- delayedEqualities ---
[GOOD] ; --- formula ---
[GOOD] (define-fun s1 () SBVRational (SBV.Rational 5 3))
[GOOD] (define-fun s3 () Int 5)
[GOOD] (define-fun s2 () Int (select s0 s1))
[GOOD] (define-fun s4 () Bool (= s2 s3))
[GOOD] (assert s4)
[SEND] (check-sat)
[RECV] sat
*** Solver   : Z3
*** Exit code: ExitSuccess

 FINAL:Sat
DONE!