洛谷 P2984 [USACO10FEB]给巧克力Chocolate Giving
JDOJ 2680: USACO 2010 Feb Silver 2.Chocolate Giving
Description
Farmer John is distributing chocolates at the barn for Valentine's
day, and B (1 <= B <= 25,000) of his bulls have a special cow in
mind to receive a chocolate gift.
Each of the bulls and cows is grazing alone in one of the farm's N
(2*B <= N <= 50,000) pastures conveniently numbered 1..N and connected
by M (N-1 <= M <= 100,000) bidirectional cowpaths of various lengths.
Some pastures might be directly connected by more than one cowpath.
Cowpath i connects pastures R_i and S_i (1 <= R_i <= N; 1 <= S_i
<= N) and has length L_i (1 <= L_i <= 2,000).
Bull i resides in pasture P_i (1 <= P_i <= N) and wishes to give a
chocolate to the cow in pasture Q_i (1 <= Q_i <= N).
Help the bulls find the shortest path from their current pasture
to the barn (which is located at pasture 1) and then onward to the
pasture where their special cow is grazing. The barn connects, one
way or another (potentially via other cowpaths and pastures) to
every pasture.
As an example, consider a farm with 6 pastures, 6 paths, and 3 bulls
(in pastures 2, 3, and 5) who wish to bestow chocolates on their
love-objects:
*1 <-- Bull wants chocolates for pasture 1 cow
[4]--3--[5] <-- [5] is the pasture ID
/ |
/ |
4 2 <-- 2 is the cowpath length
/ | between [3] and [4]
[1]--1--[3]*6
/ /
9 3 2
/ /
[6] [2]*4
* The Bull in pasture 2 can travel distance 3 (two different ways)
to get to the barn then travel distance 2+1 to pastures [3] and
[4] to gift his chocolate. That's 6 altogether.
* The Bull in pasture 5 can travel to pasture 4 (distance 3), then
pastures 3 and 1 (total: 3 + 2 + 1 = 6) to bestow his chocolate
offer.
* The Bull in pasture 3 can travel distance 1 to pasture 1 and then
take his chocolate 9 more to pasture 6, a total distance of 10.
Input
* Line 1: Three space separated integers: N, M, and B
* Lines 2..M+1: Line i+1 describes cowpath i with three
space-separated integers: R_i, S_i, and L_i
* Lines M+2..M+B+1: Line M+i+1 contains two space separated integers:
P_i and Q_i
Output
* Lines 1..B: Line i should contain a single integer, the smallest
distance that the bull in pasture P_i must travel to get
chocolates from the barn and then award them to the cow of his
dreams in pasture Q_i
Sample Input
6 7 3 1 2 3 5 4 3 3 1 1 6 1 9 3 4 2 1 4 4 3 2 2 2 4 5 1 3 6
Sample Output
6 6 10
题目翻译:
Farmer John有B头奶牛(1<=B<=25000),有N(2*B<=N<=50000)个农场,编号1-N,有M(N-1<=M<=100000)条双向边,第i条边连接农场R_i和S_i(1<=R_i<=N;1<=S_i<=N),该边的长度是L_i(1<=L_i<=2000)。居住在农场P_i的奶牛A(1<=P_i<=N),它想送一份新年礼物给居住在农场Q_i(1<=Q_i<=N)的奶牛B,但是奶牛A必须先到FJ(居住在编号1的农场)那里取礼物,然后再送给奶牛B。你的任务是:奶牛A至少需要走多远的路程?
输入格式:
第一行:三个用空格隔开的整数N,M和B。
第二到M+1行:第i+1行用R_i,S_i和L_i三个用空格隔开的整数描述双向边i。
第M+2到M+B+1行:第M+i+1行包含两个用空格隔开的整数P_i和Q_i。
输出格式:
第一到B行:第i行包括一个整数,居住在农场P_i的公牛从FJ那里取得情人节巧克力后送给他居住在农场Q_i的梦中情牛至少需要走的距离。
题解:
我觉得算是裸的最短路。
这数据量用dij或者SPFA都是极好的。
就是这个变量名非常不友好...
NMB??
不要在意这些细节。
我们处理一遍SPFA就可以把dist数组处理出来,然后询问的时候去调用就可以。
代码:
#include<cstdio>
#include<cstring>
#include<queue>
using namespace std;
int n,m,b;
int tot,to[200001],val[200001],nxt[200001],head[100001];
int v[100001],dist[100001];
void add(int x,int y,int z)
{
to[++tot]=y;
val[tot]=z;
nxt[tot]=head[x];
head[x]=tot;
}
void spfa()
{
memset(dist,0x3f,sizeof(dist));
memset(v,0,sizeof(v));
queue<int> q;
q.push(1);
v[1]=1;
dist[1]=0;
while(!q.empty())
{
int x=q.front();
q.pop();
v[x]=0;
for(int i=head[x];i;i=nxt[i])
{
int y=to[i];
if(dist[y]>dist[x]+val[i])
{
dist[y]=dist[x]+val[i];
if(v[y]==0)
q.push(y),v[y]=1;
}
}
}
}
int main()
{
scanf("%d%d%d",&n,&m,&b);
for(int i=1;i<=m;i++)
{
int x,y,z;
scanf("%d%d%d",&x,&y,&z);
add(x,y,z);
add(y,x,z);
}
spfa();
for(int i=1;i<=b;i++)
{
int p,q;
scanf("%d%d",&p,&q);
int ans=dist[p]+dist[q];
printf("%d
",ans);
}
return 0;
}