1782. Count Pairs Of Nodes ¶

Problem

You are given an undirected graph defined by an integer n, the number of nodes, and a 2D integer array edges, the edges in the graph, where edges[i] = [u_i, v_i] indicates that there is an undirected edge between u_i and v_i. You are also given an integer array queries.

Let incident(a, b) be defined as the number of edges that are connected to either node a or b.

The answer to the j^th query is the number of pairs of nodes (a, b) that satisfy both of the following conditions:

a < b
incident(a, b) > queries[j]

Return an array answers such that answers.length == queries.length and answers[j] is the answer of the j^th query.

Note that there can be multiple edges between the same two nodes.

Example 1:

Input: n = 4, edges = [[1,2],[2,4],[1,3],[2,3],[2,1]], queries = [2,3]
Output: [6,5]
Explanation: The calculations for incident(a, b) are shown in the table above.
The answers for each of the queries are as follows:
- answers[0] = 6. All the pairs have an incident(a, b) value greater than 2.
- answers[1] = 5. All the pairs except (3, 4) have an incident(a, b) value greater than 3.

Example 2:

Input: n = 5, edges = [[1,5],[1,5],[3,4],[2,5],[1,3],[5,1],[2,3],[2,5]], queries = [1,2,3,4,5]
Output: [10,10,9,8,6]

Constraints:

2 <= n <= 2 * 10⁴
1 <= edges.length <= 10⁵
1 <= u_i, v_i <= n
u_i!= v_i
1 <= queries.length <= 20
0 <= queries[j] < edges.length

1782. Count Pairs Of Nodes¶

1782. Count Pairs Of Nodes ¶