E - Red and Blue Graph
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E - Red and Blue Graph
Score : $500$ points
Problem Statement
You are given a simple undirected graph with $N$ vertices and $M$ edges. The vertices are numbered $1, \dots, N$, and the $i$-th $(1 \leq i \leq M)$ edge connects Vertices $U_i$ and $V_i$.
There are $2^N$ ways to paint each vertex red or blue. Find the number, modulo $998244353$, of such ways that satisfy all of the following conditions:
- There are exactly $K$ vertices painted red.
- There is an even number of edges connecting vertices painted in different colors.
Constraints
- $2 \leq N \leq 2 \times 10^5$
- $1 \leq M \leq 2 \times 10^5$
- $0 \leq K \leq N$
- $1 \leq U_i \lt V_i \leq N \, (1 \leq i \leq M)$
- $(U_i, V_i) \neq (U_j, V_j) \, (i \neq j)$
- All values in input are integers.
Input
Input is given from Standard Input in the following format:
Output
Print the answer.
4 4 2
1 2
1 3
2 3
3 4
2
The following two ways satisfy the conditions.
- Paint Vertices $1$ and $2$ red and Vertices $3$ and $4$ blue.
- Paint Vertices $3$ and $4$ red and Vertices $1$ and $2$ blue.
In either of the ways above, the $2$-nd and $3$-rd edges connect vertices painted in different colors.
10 10 3
1 2
2 4
1 5
3 6
3 9
4 10
7 8
9 10
5 9
3 4
64