The annotation `:no-pattern`

expects an expression as argument.
If a universally quantified formula `F`

is not annotated with patterns, then Z3 will heuristically select patterns for `F`

. The annotation `:no-pattern`

instructs Z3 which sub-expressions occurring in `F`

should *not* be used as patterns. Here is your example (also available at http://rise4fun.com/Z3/KfO5):

```
(declare-sort Set)
(declare-fun mysubset (Set Set) Bool)
(assert
(forall ((A Set) (B Set))
(! (=
(= A B)
(and (mysubset A B) (mysubset B A)))
:no-pattern (mysubset A B))))
(check-sat)
```

*Remark*: Equations (e.g., `(= A B)`

) are never selected as patterns by Z3.

Here is a link to the other example http://rise4fun.com/Z3/njVu.

BTW, the annotation `:pattern`

accepts two kinds of arguments: an expression; or a *list* of expressions. In the Z3 guide, we have the annotation: `:pattern ((f (g x))`

, where `((f (g x))`

is a list of length 1 containing the expression `(f (g x))`

. If we replace `:pattern`

with `:no-pattern`

, we get an error because `((f (g x))`

is not an expression. On the other hand, `:no-pattern (f (g x)`

is a valid `:no-pattern`

annotation.

Finally, `:pattern`

accepts lists of expressions because Z3 supports multi-patterns (guide).