UVA - 10801 Dijkstar最短路径
A skyscraper has no more than 100 floors, numbered from 0 to 99. It has n (1 ≤ n ≤ 5) elevators
which travel up and down at (possibly) different speeds. For each i in {1,2, . . . n}, elevator number
i takes Ti (1 ≤ Ti ≤ 100) seconds to travel between any two adjacent floors (going up or down).
Elevators do not necessarily stop at every floor. What’s worse, not every floor is necessarily accessible
by an elevator.
You are on floor 0 and would like to get to floor k as quickly as possible. Assume that you do not
need to wait to board the first elevator you step into and (for simplicity) the operation of switching an
elevator on some floor always takes exactly a minute. Of course, both elevators have to stop at that
floor. You are forbiden from using the staircase. No one else is in the elevator with you, so you don’t
have to stop if you don’t want to. Calculate the minimum number of seconds required to get from floor
0 to floor k (passing floor k while inside an elevator that does not stop there does not count as “getting
to floor k”).
Input
The input will consist of a number of test cases. Each test case will begin with two numbers, n and k,
on a line. The next line will contain the numbers T1, T2, . . . Tn.
Finally, the next n lines will contain sorted lists of integers – the first line will list the floors visited
by elevator number 1, the next one will list the floors visited by elevator number 2, etc.
Output
For each test case, output one number on a line by itself - the minimum number of seconds required to
get to floor k from floor 0. If it is impossible to do, print ‘IMPOSSIBLE’ instead.
Explanation of examples
In the first example, take elevator 1 to floor 13 (130 seconds), wait 60 seconds to switch to elevator
2 and ride it to floor 30 (85 seconds) for a total of 275 seconds.
In the second example, take elevator 1 to floor 10, switch to elevator 2 and ride it until floor 25.
There, switch back to elevator 1 and get off at the 30’th floor. The total time is 10 ∗ 10 + 60 + 15 ∗ 1 +
60 + 5 ∗ 10 = 285 seconds.
In example 3, take elevator 1 to floor 30, then elevator 2 to floor 20 and then elevator 3 to floor 50.
In the last example, the one elevator does not stop at floor 1.
Sample Input
2 30
10 5
0 1 3 5 7 9 11 13 15 20 99
4 13 15 19 20 25 30
2 30
10 1
0 5 10 12 14 20 25 30
2 4 6 8 10 12 14 22 25 28 29
3 50
10 50 100
0 10 30 40
0 20 30
0 20 50
1 1
2
0 2 4 6 8 10
Sample Output
275
285
3920
IMPOSSIBLE
题目大意:
题目大意:有一栋100层的大楼(标号为0~99),里面有n个电梯(不超过5个),以及要到达的层数(k),然后是每个电梯走一层所需的时间,再n行就是对应每个电梯可以到达的层数,数量不定。然后每装换一次电梯需要等待60秒,问,最快能多快到达目标层数。
#include <iostream>
#include <stdio.h>
using namespace std;
const int maxf = 105;
const int maxe = 6;
const int inf = 100000000;
int D[maxf],G[maxf][maxf],final[maxf],t[maxe];
int floor[maxf];
int n,k;
void dijskta(int v0)
{
int k;
for(int i=0;i<maxf;i++)
{
final[i]=0;
D[i]=G[v0][i];
}
D[v0]=0;
final[v0]=1;
for(int i=1;i<maxf;i++)
{
int min=inf;
for(int j=0;j<maxf;j++)
{
if(!final[j]&&D[j]<min)
{
k=j;
min=D[j];
}
}
final[k]=1;
for(int j=0;j<maxf;j++)
{
if(!final[j]&&min+G[k][j]+60<D[j])//通过k换乘
D[j]=min+G[k][j]+60;
}
}
}
void inti()
{
for(int i=0;i<maxf;i++)
{
for(int j=0;j<maxf;j++)
G[i][j]=inf;
G[i][i]=0;
}
}
int main()
{
while(cin>>n>>k)
{
inti();
for(int i=0;i<n;i++)
cin>>t[i];
int f;
char c;
for(int m=0;m<n;m++)
{
int cnt=0;
while(cin>>f)
{
c=getchar();
floor[cnt++]=f;
if(c=='\n')
break;
}
for(int i=0;i<cnt;i++)
{
for(int j=i+1;j<cnt;j++)
{
if(G[floor[i]][floor[j]]>(floor[j]-floor[i])*t[m])
G[floor[j]][floor[i]]=G[floor[i]][floor[j]]=(floor[j]-floor[i])*t[m];//将所有的点到点的距离更新。
}
}
}
dijskta(0);
if(D[k]==inf)//未更新
cout <<"IMPOSSIBLE"<< endl;
else
cout << D[k] << endl;
}
return 0;
}
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