As a professional private tutor, Kuroni has to gather statistics of an exam. Kuroni has appointed you to complete this important task. You must not disappoint him.

The exam consists of $n$ questions, and $m$ students have taken the exam. Each question was worth $1$ point. Question $i$ was solved by at least $l_i$ and at most $r_i$ students. Additionally, you know that the total score of all students is $t$.

Furthermore, you took a glance at the final ranklist of the quiz. The students were ranked from $1$ to $m$, where rank $1$ has the highest score and rank $m$ has the lowest score. Ties were broken arbitrarily.

You know that the student at rank $p_i$ had a score of $s_i$ for $1 \le i \le q$.

You wonder if there could have been a huge tie for first place. Help Kuroni determine the maximum number of students who could have gotten as many points as the student with rank $1$, and the maximum possible score for rank $1$ achieving this maximum number of students.

The first line of input contains two integers ($1 \le n, m \le 10^{5}$), denoting the number of questions of the exam and the number of students respectively.

The next $n$ lines contain two integers each, with the $i$-th line containing $l_{i}$ and $r_{i}$ ($0 \le l_{i} \le r_{i} \le m$).

The next line contains a single integer $q$ ($0 \le q \le m$).

The next $q$ lines contain two integers each, denoting $p_{i}$ and $s_{i}$ ($1 \le p_{i} \le m$, $0 \le s_{i} \le n$). It is guaranteed that all $p_{i}$ are distinct and if $p_{i} \le p_{j}$, then $s_{i} \ge s_{j}$.

The last line contains a single integer $t$ ($0 \le t \le nm$), denoting the total score of all students.

Output two integers: the maximum number of students who could have gotten as many points as the student with rank $1$, and the maximum possible score for rank $1$ achieving this maximum number of students. If there is no valid arrangement that fits the given data, output $-1$ $-1$.