题目描述
Bessie is planning the annual Great Cow Gathering for cows all across the country and, of course, she would like to choose the most convenient location for the gathering to take place.
Bessie正在计划一年一度的奶牛大集会,来自全国各地的奶牛将来参加这一次集会。当然,她会选择最方便的地点来举办这次集会。
Each cow lives in one of N (1 <= N <= 100,000) different barns (conveniently numbered 1..N) which are connected by N-1 roads in such a way that it is possible to get from any barn to any other barn via the roads. Road i connects barns A_i and B_i (1 <= A_i <= N; 1 <= B_i <= N) and has length L_i (1 <= L_i <= 1,000). The Great Cow Gathering can be held at any one of these N barns. Moreover, barn i has C_i (0 <= C_i <= 1,000) cows living in it.
每个奶牛居住在 N(1<=N<=100,000) 个农场中的一个,这些农场由N-1条道路连接,并且从任意一个农场都能够到达另外一个农场。道路i连接农场A_i和B_i(1 <= A_i <=N; 1 <= B_i <= N),长度为L_i(1 <= L_i <= 1,000)。集会可以在N个农场中的任意一个举行。另外,每个牛棚中居住者C_i(0 <= C_i <= 1,000)只奶牛。
When choosing the barn in which to hold the Cow Gathering, Bessie wishes to maximize the convenience (which is to say minimize the inconvenience) of the chosen location. The inconvenience of choosing barn X for the gathering is the sum of the distances all of the cows need to travel to reach barn X (i.e., if the distance from barn i to barn X is 20, then the travel distance is C_i*20). Help Bessie choose the most convenient location for the Great Cow Gathering.
在选择集会的地点的时候,Bessie希望最大化方便的程度(也就是最小化不方便程度)。比如选择第X个农场作为集会地点,它的不方便程度是其它牛棚中每只奶牛去参加集会所走的路程之和,(比如,农场i到达农场X的距离是20,那么总路程就是C_i*20)。帮助Bessie找出最方便的地点来举行大集会。
Consider a country with five barns with [various capacities] connected by various roads of varying lengths. In this set of barns, neither barn 3 nor barn 4 houses any cows.
1 3 4 5
@--1--@--3--@--3--@[2]
[1] |
2 | @[1] 2 Bessie can hold the Gathering in any of five barns; here is the table of inconveniences calculated for each possible location:
Gather ----- Inconvenience ------
Location B1 B2 B3 B4 B5 Total
1 0 3 0 0 14 17
2 3 0 0 0 16 19
3 1 2 0 0 12 15
4 4 5 0 0 6 15
5 7 8 0 0 0 15
If Bessie holds the gathering in barn 1, then the inconveniences from each barn are:
Barn 1 0 -- no travel time there!
Barn 2 3 -- total travel distance is 2+1=3 x 1 cow = 3 Barn 3 0 -- no cows there!
Barn 4 0 -- no cows there!
Barn 5 14 -- total travel distance is 3+3+1=7 x 2 cows = 14 So the total inconvenience is 17.
The best possible convenience is 15, achievable at by holding the Gathering at barns 3, 4, or 5.
输入输出格式
输入格式:
* Line 1: A single integer: N
* Lines 2..N+1: Line i+1 contains a single integer: C_i
* Lines N+2..2*N: Line i+N+1 contains three integers: A_i, B_i, and L_i
第一行:一个整数 N 。
第二到 N+1 行:第 i+1 行有一个整数 C_i
第 N+2 行到 2*N 行:第 i+N+1 行为 3 个整数:A_i,B_i 和 L_i。
输出格式:
* Line 1: The minimum inconvenience possible
第一行:一个值,表示最小的不方便值。
输入输出样例
输入样例#1: 复制 5 1 1 0 0 2 1 3 1 2 3 2 3 4 3 4 5 3 输出样例#1: 复制 15
题意:
在一棵树上找一个点,使得其余各点到该点的加权路径最小。
思路:
思维题,先统计其余各点到根节点的路径总和,时间复杂度O(n)。
然后根据根节点的路径总和向其他节点扩散(dp),求出树上其余节点到固定节点的路径和,时间复杂度O(n)。
#include<bits/stdc++.h>
#define mp make_pair
#define pb push_back
using namespace std;
#define int long long
const int inf=1e18;
int cnt[100005],f[100005],dp[100005];
int c[100005];
int vis[100005];
vector<pair<int,int> > ed[100005];
int tot=0;
int n;
void dfs(int u){
vis[u]=1;
cnt[u]+=c[u];
for(auto to:ed[u]){
int nxt=to.first,d=to.second;
if(!vis[nxt]){
dfs(nxt);
cnt[u]+=cnt[nxt];
f[u]+=f[nxt]+cnt[nxt]*d;
}
}
}
void dfs2(int u){
vis[u]=1;
for(auto to:ed[u]){
int nxt=to.first,d=to.second;
if(!vis[nxt]){
dp[nxt]=min(dp[nxt],dp[u]-cnt[nxt]*d+(tot-cnt[nxt])*d);
dfs2(nxt);
}
}
}
signed main(){
scanf("%lld",&n);
for(int i=1;i<=n;i++) scanf("%lld",&c[i]);
for(int i=1;i<=n-1;i++){
int a,b,l;
scanf("%lld %lld %lld",&a,&b,&l);
ed[a].pb(mp(b,l));
ed[b].pb(mp(a,l));
}
dfs(1);
memset(vis,0,sizeof(vis));
for(int i=1;i<=n;i++) dp[i]=inf;
tot=cnt[1];
dp[1]=f[1];
dfs2(1);
int ans=inf;
for(int i=1;i<=n;i++) ans=min(ans,dp[i]);
printf("%lld\n",ans);
return 0;
}
原文地址:https://www.cnblogs.com/zhuixunfighting/p/10548421.html