You are given a rooted tree consisting of $$$n$$$ vertices numbered from $$$1$$$ to $$$n$$$. The root is vertex $$$1$$$. There is also a string $$$s$$$ denoting the color of each vertex: if $$$s_i = \texttt{B}$$$, then vertex $$$i$$$ is black, and if $$$s_i = \texttt{W}$$$, then vertex $$$i$$$ is white.

A subtree of the tree is called balanced if the number of white vertices equals the number of black vertices. Count the number of balanced subtrees.

A tree is a connected undirected graph without cycles. A rooted tree is a tree with a selected vertex, which is called the root. In this problem, all trees have root $$$1$$$.

The tree is specified by an array of parents $$$a_2, \dots, a_n$$$ containing $$$n-1$$$ numbers: $$$a_i$$$ is the parent of the vertex with the number $$$i$$$ for all $$$i = 2, \dots, n$$$. The parent of a vertex $$$u$$$ is a vertex that is the next vertex on a simple path from $$$u$$$ to the root.

The subtree of a vertex $$$u$$$ is the set of all vertices that pass through $$$u$$$ on a simple path to the root. For example, in the picture below, $$$7$$$ is in the subtree of $$$3$$$ because the simple path $$$7 \to 5 \to 3 \to 1$$$ passes through $$$3$$$. Note that a vertex is included in its subtree, and the subtree of the root is the entire tree.

The picture shows the tree for $$$n=7$$$, $$$a=[1,1,2,3,3,5]$$$, and $$$s=\texttt{WBBWWBW}$$$. The subtree at the vertex $$$3$$$ is balanced.