In general, no, this is not possible. The reason is that there is no translation for Python functions to logical constraints (which in theory could be done, e.g., via the fixed-point engine), but it would require substantial effort and essentially an encoding of (in general undecidable) model-checking problems. See also Leo's excellent answer to a related question here).
In this particular example, note that a
is symbolic, i.e., it represents any possible real number. math.factorial
does not know what to do with this information, because it's implementation only handles concrete real numbers.
For some particular functions, it may of course be possible to provide a precise encoding to Z3. For example, Z3 supports exponentiation and the Python API provides a __pow__
operator. Note that this operator however, may not have exactly the same semantics as Python's __pow__
on (floating-point abstractions of) real numbers, and it is not derived from Python's implementation of __pow__
.