We can't write `expr x[100]`

because the `expr`

class does not have a constructor of the form `expr::expr()`

. We should use the `expr_vector`

instead. Here is an example (I also added it to the official C++ example in the Z3 distribution).

```
void expr_vector_example() {
context c;
const unsigned N = 10;
expr_vector x(c);
for (unsigned i = 0; i < N; i++) {
std::stringstream x_name;
x_name << "x_" << i;
x.push_back(c.int_const(x_name.str().c_str()));
}
solver s(c);
for (unsigned i = 0; i < N; i++) {
s.add(x[i] >= 1);
}
std::cout << s << "\n" << "solving...\n" << s.check() << "\n";
model m = s.get_model();
std::cout << "solution\n" << m;
}
```

**UPDATE**
I added new C++ APIs for creating universal and existential quantifiers using `expr_vector`

.
The new APIs are already available in the `unstable`

branch.
Here is an example:

```
void exists_expr_vector_example() {
std::cout << "exists expr_vector example\n";
context c;
const unsigned N = 10;
expr_vector xs(c);
expr x(c);
expr b(c);
b = c.bool_val(true);
for (unsigned i = 0; i < N; i++) {
std::stringstream x_name;
x_name << "x_" << i;
x = c.int_const(x_name.str().c_str());
xs.push_back(x);
b = b && x >= 0;
}
expr ex(c);
ex = exists(xs, b);
std::cout << ex << std::endl;
}
```