D. New Year Santa Network
New Year is coming in Tree World! In this world, as the name implies, there are n cities connected by n - 1 roads, and for any two distinct cities there always exists a path between them. The cities are numbered by integers from 1 to n, and the roads are numbered by integers from 1 to n - 1. Let's define d(u, v) as total length of roads on the path between city u and city v.
As an annual event, people in Tree World repairs exactly one road per year. As a result, the length of one road decreases. It is already known that in the i-th year, the length of the ri-th road is going to become wi, which is shorter than its length before. Assume that the current year is year 1.
Three Santas are planning to give presents annually to all the children in Tree World. In order to do that, they need some preparation, so they are going to choose three distinct cities c1, c2, c3 and make exactly one warehouse in each city. The k-th (1 ≤ k ≤ 3) Santa will take charge of the warehouse in city ck.
It is really boring for the three Santas to keep a warehouse alone. So, they decided to build an only-for-Santa network! The cost needed to build this network equals to d(c1, c2) + d(c2, c3) + d(c3, c1) dollars. Santas are too busy to find the best place, so they decided to choose c1, c2, c3 randomly uniformly over all triples of distinct numbers from 1 to n. Santas would like to know the expected value of the cost needed to build the network.
However, as mentioned, each year, the length of exactly one road decreases. So, the Santas want to calculate the expected after each length change. Help them to calculate the value.
The first line contains an integer n (3 ≤ n ≤ 105) — the number of cities in Tree World.
Next n - 1 lines describe the roads. The i-th line of them (1 ≤ i ≤ n - 1) contains three space-separated integers ai,bi, li (1 ≤ ai, bi ≤ n, ai ≠ bi, 1 ≤ li ≤ 103), denoting that the i-th road connects cities ai and bi, and the length of i-th road is li.
The next line contains an integer q (1 ≤ q ≤ 105) — the number of road length changes.
Next q lines describe the length changes. The j-th line of them (1 ≤ j ≤ q) contains two space-separated integersrj, wj (1 ≤ rj ≤ n - 1, 1 ≤ wj ≤ 103). It means that in the j-th repair, the length of the rj-th road becomes wj. It is guaranteed that wj is smaller than the current length of the rj-th road. The same road can be repaired several times.
Output q numbers. For each given change, print a line containing the expected cost needed to build the network in Tree World. The answer will be considered correct if its absolute and relative error doesn't exceed 10 - 6.
3
2 3 5
1 3 3
5
1 4
2 2
1 2
2 1
1 1
14.0000000000
12.0000000000
8.0000000000
6.0000000000
4.0000000000
6
1 5 3
5 3 2
6 1 7
1 4 4
5 2 3
5
1 2
2 1
3 5
4 1
5 2
19.6000000000
18.6000000000
16.6000000000
13.6000000000
12.6000000000
Consider the first sample. There are 6 triples: (1, 2, 3), (1, 3, 2), (2, 1, 3), (2, 3, 1), (3, 1, 2), (3, 2, 1). Because n = 3, the cost needed to build the network is always d(1, 2) + d(2, 3) + d(3, 1) for all the triples. So, the expected cost equals to d(1, 2) + d(2, 3) + d(3, 1).
这题赛中没做出来有点可惜呀(不然黄了)。题意是给出一棵带权树。
问你在树上任意选3个点 c1 , c2 ,c3 的 d(c1,c2) + d(c2,c3) + d(c1 ,c3 ) 的期望。
因为每一颗树上面的边都是桥。
只要计算每一条边在所有情况下[ C(3 , n ) ]使用的次数cnt便可以知道总路程d = sigma( cnt[i] *w[i] )
那么exp = d / C(3 ,n ) 。
q次询问更改边权就是减去之前的边期望, 加上新的边权求出来的期望 。
注意要用 , cnt[i]*w[i] / C(3 , n ) 处理好边, 即边期望。
若果先求出总路程再除C(3 , n )的话数据过大会溢出(挂大数据呀QAQ)。
#include <bits/stdc++.h> using namespace std; typedef pair<int,int>pii; #define X first #define Y second const int N = 100010; int n , cnt[N]; double W[N] , Cn3, res; vector<pii>g[N]; int dfs( int u , int fa ){ int tot = 0 ; for( int i = 0 ; i < g[u].size(); ++i ){ int v = g[u][i].X , id = g[u][i].Y; if( v == fa ) continue ; cnt[id] = dfs( v , u ); tot += cnt[id]; } return tot + 1 ; } double cal( int id ){ double a = cnt[id] , b = n - cnt[id]; return 2.0*W[id]/Cn3*(a*(a-1)/2.0*b + b*(b-1)/2.0*a); } int main() { int u , v ; cin >> n ; Cn3 = 1.0*n*(n-1)*(n-2)/6 , res = 0 ; for( int i = 1 ; i < n ; ++i ){ scanf("%d%d%lf",&u,&v,&W[i]); g[u].push_back(pii(v,i)); g[v].push_back(pii(u,i)); } int m = dfs(1,0); for( int i = 1 ; i < n ; ++i ) res += cal(i); int q ; scanf("%d",&q); while(q--){ int x ;double y ; scanf("%d%lf",&x,&y); res -= cal(x); W[x] = y ;res += cal(x); printf("%.9lf ",res); } }