Statement 1 is a macro. Z3 will replace every occurrence of `max_integ`

with the `ite`

expression. It does that during parsing time. In the second statement, by default, Z3 will not eliminate `max_integ`

, and to be able to return `sat`

it has to build an interpretation for the uninterpreted symbol `max_integ`

that will satisfy the quantifier for all `x`

and `y`

.
Z3 has an option called `:macro-finder`

, it will detect quantifiers that are essentially encoding macros, and will eliminate them. Here is an example (also available online here):

```
(set-option :macro-finder true)
(declare-fun max_integ ((Int)(Int)) Int)
(assert (forall ((x Int) (y Int)) (= (max_integ x y) (if (< x y) y x))))
(check-sat)
(get-model)
```

That being said, we can easily simulate macros in a programmatic API by writing a function that given Z3 expressions return a new Z3 expression. Here in an example using the Python API (also available online here):

```
def max(a, b):
# The function If builds a Z3 if-then-else expression
return If(a >= b, a, b)
x, y = Ints('x y')
solve(x == max(x, y), y == max(x, y), x > 0)
```

Yet another option is to use the C API: `Z3_substitute_vars`

. The idea is to an expression containing free variables. Free variables are created using the API `Z3_mk_bound`

. Each variable represents an argument. Then, we use `Z3_substitute_vars`

to replace the variables with other expressions.