思路:
首先如果想到了Kruskal算法,那么下一步我们可能马上会想:那我们就从头开始写这个算法吧。然后一写就很容易发现一个问题——如果按照正常的Kruskal算法来做,那么start到end的舒适度中的那个“最小边”就只能是所有边中最小的那个,而这是明显不符合逻辑的事情,所以我们就会接着想,如果不是这个最小边,那它会是哪个边——当然是更大的边了,于是我们便开始按照从小到大的顺序去依次遍历所有的边长,这是外层的for循环;然后对于内层的for循环呢,就是根据这个题目的要求来了,由于我们要求舒适度最高的,因此这一路下来我们再往上加边的时候一定是要尽量在现有的min的基础上尽量减小max的值,从而实现max-min最小。
AC代码:
#include <iostream>
#include <cstring>
#include <algorithm>
#define maxn 207
#define INF 9999999
using namespace std; int n,m;
int father[maxn];
int s[maxn];
struct edge{
int s;
int e;
int w;
};
int set_same(int x,int y)
{
int i,j;
for(i = x;i != father[i];i = father[i])
father[i] = father[father[i]];
for(j = y;j != father[j];j = father[j])
father[j] = father[father[j]];
return i==j?:;
}
void set_union(int x,int y)
{
int i,j;
for(i = x;i != father[i];i = father[i])
father[i] = father[father[i]]; for(j = y;j != father[j];j = father[j])
father[j] = father[father[j]];
if(s[i] < s[j]) {
father[i] = j;
s[i] += s[j];
}
else {
father[j] = i;
s[j] += s[i];
}
}
int set_find(int x)
{
int i;
for(i = x;i != father[i];i = father[i])
father[i] = father[father[i]];
return i;
}
void set_init()
{
for(int i = ;i <= n;i++){
father[i] = i;
s[i] = ;
}
} void Kruskal(int S,int E)
{
int dmax,dmin; } bool cmp(edge a,edge b)
{
return a.w<b.w;
} int main()
{
int i,j;
edge edges[];
while(cin>>n>>m)
{
for(i = ;i <= m;i++)
cin>>edges[i].s>>edges[i].e>>edges[i].w;
sort(edges+,edges++m,cmp);
int cast;
cin>>cast;
int S,E;
while(cast--)
{
cin>>S>>E;
int ans = INF;
for(i = ;i <= m;i++)
{
set_init();
for(j = i;j <= m;j++)
{
int A = edges[j].s;
int B = edges[j].e;
set_union(A,B);
if(set_same(S,E)) {
ans = min(ans,edges[j].w-edges[i].w);
break;
}
}
if(j == m) break;
}
if(ans == INF)
cout<<"-1"<<endl;
else
cout<<ans<<endl;
}
}
return ;
}