In his favorite cafe Kmes once again wanted to try the herring under a fur coat. Previously, it would not have been difficult for him to do this, but the cafe recently introduced a new purchasing policy.

Now, in order to make a purchase, Kmes needs to solve the following problem: $$$n$$$ cards with prices for different positions are laid out in front of him, on the $$$i$$$-th card there is an integer $$$a_i$$$, among these prices there is no whole positive integer $$$x$$$.

Kmes is asked to divide these cards into the minimum number of bad segments (so that each card belongs to exactly one segment). A segment is considered bad if it is impossible to select a subset of cards with a product equal to $$$x$$$. All segments, in which Kmes will divide the cards, must be bad.

Formally, the segment $$$(l, r)$$$ is bad if there are no indices $$$i_1 < i_2 < \ldots < i_k$$$ such that $$$l \le i_1, i_k \le r$$$, and $$$a_{i_1} \cdot a_{i_2} \ldots \cdot a_{i_k} = x$$$.

Help Kmes determine the minimum number of bad segments in order to enjoy his favorite dish.