Touko's favorite sequence of numbers is a permutation $a_1, a_2, \dots, a_n$ of $1, 2, \dots, n$, and she wants some collection of permutations that are similar to her favorite permutation.

She has a collection of $q$ intervals of the form $[l_i, r_i]$ with $1 \le l_i \le r_i \le n$. To create permutations that are similar to her favorite permutation, she coined the following definition:

• A permutation $b_1, b_2, \dots, b_n$ allows an interval $[l', r']$ to holds its shape if for any pair of integers $(x, y)$ such that $l' \le x < y \le r'$, we have $b_x < b_y$ if and only if $a_x < a_y$.
• A permutation $b_1, b_2, \dots, b_n$ is $k$-similar if $b$ allows all intervals $[l_i, r_i]$ for all $1 \le i \le k$ to hold their shapes.

Yuu wants to figure out all $k$-similar permutations for Touko, but it turns out this is a very hard task; instead, Yuu will encode the set of all $k$-similar permutations with directed acylic graphs (DAG). Yuu also coined the following definitions for herself:

• A permutation $b_1, b_2, \dots, b_n$ satisfies a DAG $G'$ if for all edge $u \to v$ in $G'$, we must have $b_u < b_v$.
• A $k$-encoding is a DAG $G_k$ on the set of vertices $1, 2, \dots, n$ such that a permutation $b_1, b_2, \dots, b_n$ satisfies $G_k$ if and only if $b$ is $k$-similar.

Since Yuu is free today, she wants to figure out the minimum number of edges among all $k$-encodings for each $k$ from $1$ to $q$.