给定 \(1\to 2 \to \cdots \to n \to n+1\) 的边和 \(m\) 条往回走的有向边,长度都是 \(1\)。站在一个点时等概率选择一条出边,求 \(1\to n+1\) 期望长度。
\(1 \le n ,m \le 10^6\)。
考虑一个套路:设 \(f_{i}\) 表示从 \(i\to i+1\) 行走距离的期望,答案就是 \(\sum\limits_{i=1}^n f_i\)。
这个东西也很好求……
#include <bits/stdc++.h>
#define LL long long
int read(){
char k = getchar(); int x = 0;
while(k < ‘0‘ || k > ‘9‘) k = getchar();
while(k >= ‘0‘ && k <= ‘9‘) x = x * 10 + k - ‘0‘ ,k = getchar();
return x;
}
const LL MOD = 998244353;
LL qpow(LL a ,LL b ,LL p = MOD){
LL Ans = 1;
while(b){if(b & 1) Ans = Ans * a % p;
a = a * a % p ,b >>= 1;
}return Ans;
}
const int MX = 1e6 + 233;
LL dp[MX] ,zh[MX] ,qzh[MX];
int n ,m;
std::vector<int> fz[MX];
int main(){
read();
n = read() ,m = read();
for(int i = 1 ,u ,v ; i <= m ; ++i){
u = read() ,v = read();
if(u != v) fz[u].push_back(v);
else zh[u]++;
}
LL Ans = 0;
for(int i = 1 ; i <= n ; ++i){
int ch = fz[i].size() + 1 + zh[i];
LL inv = qpow(ch ,MOD - 2);
dp[i] = 1;
for(auto j : fz[i]){
dp[i] = (dp[i] + inv * (qzh[i - 1] - qzh[j - 1] + MOD)) % MOD;
}
dp[i] = dp[i] * ch % MOD;
// printf("f[%d] = %lld\n" ,i ,dp[i]);
Ans = (Ans + dp[i]) % MOD;
qzh[i] = (qzh[i - 1] + dp[i]) % MOD;
}
using namespace std;
cout << Ans << endl;
return 0;
}
原文:https://www.cnblogs.com/imakf/p/13697150.html