I am using the following code fragment in z3 4.0 to convert a formula to CNF.

```
(set-logic QF_UF)
(
set-option
:produce-models
true
)
; ------ snip -------
;
; declarations,
; and assert statement
; of "original" formula
; here.
;
; ------ snap -------
(
apply
(
then
(
!
simplify
:elim-and
true
)
tseitin-cnf
)
)
```

I get something like the following:

```
(goals
(goal
; ------ snip -------
;
; Lot's of lines here
;
; ------ snap -------
:precision precise :depth 2)
)
```

I was assuming that each of the expressions that follows `goal`

is one clause of the CNF, i.e., all those expressions should be conjuncted to yield the actual formula. I will refer to this conjunction as the "encoded" formula.

Obviously, the original formula and the encoded formula are not equivalent, as the encoded formula contains new variables `k!0, k!1, ...`

which do the Tseitin encoding. However, I was expecting that they are equisatisfiable, or actually that they are satisfied by the same models (when disregarding the `k!i`

variables).

I.e., I was expecting that `(encoded formula) AND (NOT original formula)`

is unsatisfiable. Unfortunately, this does not seem to be the case; I have a counterexample where this check actually returns `sat`

.

Is this a bug in z3, am I using it wrong, or are any of my assumptions not valid?