2867. Count Valid Paths in a Tree ¶
Problem
There is an undirected tree with n
nodes labeled from 1
to n
. You are given the integer n
and a 2D integer array edges
of length n - 1
, where edges[i] = [ui, vi]
indicates that there is an edge between nodes ui
and vi
in the tree.
Return the number of valid paths in the tree.
A path (a, b)
is valid if there exists exactly one prime number among the node labels in the path from a
to b
.
Note that:
- The path
(a, b)
is a sequence of distinct nodes starting with nodea
and ending with nodeb
such that every two adjacent nodes in the sequence share an edge in the tree. - Path
(a, b)
and path(b, a)
are considered the same and counted only once.
Example 1:
Input: n = 5, edges = [[1,2],[1,3],[2,4],[2,5]] Output: 4 Explanation: The pairs with exactly one prime number on the path between them are: - (1, 2) since the path from 1 to 2 contains prime number 2. - (1, 3) since the path from 1 to 3 contains prime number 3. - (1, 4) since the path from 1 to 4 contains prime number 2. - (2, 4) since the path from 2 to 4 contains prime number 2. It can be shown that there are only 4 valid paths.
Example 2:
Input: n = 6, edges = [[1,2],[1,3],[2,4],[3,5],[3,6]] Output: 6 Explanation: The pairs with exactly one prime number on the path between them are: - (1, 2) since the path from 1 to 2 contains prime number 2. - (1, 3) since the path from 1 to 3 contains prime number 3. - (1, 4) since the path from 1 to 4 contains prime number 2. - (1, 6) since the path from 1 to 6 contains prime number 3. - (2, 4) since the path from 2 to 4 contains prime number 2. - (3, 6) since the path from 3 to 6 contains prime number 3. It can be shown that there are only 6 valid paths.
Constraints:
1 <= n <= 105
edges.length == n - 1
edges[i].length == 2
1 <= ui, vi <= n
- The input is generated such that
edges
represent a valid tree.