解决方案有许多美丽的地方。让我们跳回到到达终点跳回(例如有两点)。。。。无论如何,这不是最短路,但它并不重要。算法能给出正确的结果
思考:而最短的路到同一点例程。spfa先正达恳求一次,求的最短路径的再次的相反,然后列举每个边缘<i,j>查找dist_zheng[i] + len<i,j> + dist_fan[j]的第二小值就可以!
注意不能用邻接矩阵,那样会MLE,应该用邻接表
/*
poj 3255
3808K 266MS
*/ #include<cstdio>
#include<cstring>
#include<queue>
#include<iostream> #define MAXN 200005
#define MAX_INT 2147483647 using namespace std; int last[5005], dist_1[5005], dist_2[5005], n, m, gra[5005][5005];
bool mark[MAXN]; struct node
{
int u;
int v;
int w;
int next;
node()
{
u = v = w = next = 0;
}
}edge[MAXN]; void spfa( int dist[5005], int s )
{
queue<int>myQueue;
dist[s] = 0;
memset(mark, false, sizeof(mark));
mark[s] = true;
myQueue.push(s);
while( !myQueue.empty() )
{
int x = myQueue.front();
myQueue.pop();
mark[x] = false;
int t = last[x];
while( t )
{
if( dist[ edge[t].v ] > dist[x] + edge[t].w )
{
dist[ edge[t].v ] = dist[x] + edge[t].w;
if( !mark[ edge[t].v ] )
myQueue.push( edge[t].v );
}
t = edge[t].next;
}
}
} int main()
{
cin >> n >> m;
for(int i = 1;i <= m;i ++)
{
int a, b, c;
scanf("%d %d %d", &a, &b, &c);
edge[i].u = edge[i + m].v = a;
edge[i].v = edge[i + m].u = b;
edge[i].w = edge[i + m].w = c;
edge[i].next = last[a];
last[a] = i;
edge[i + m].next = last[b];
last[b] = i + m;
}
memset( dist_1, 1, sizeof(dist_1) );
spfa( dist_1, 1 );
memset( dist_2, 1, sizeof(dist_2) );
spfa( dist_2, n );
int ans = MAX_INT, tmp = MAX_INT;
for(int i = 1;i <= n;i ++)
{
int t = last[i];
while( t )
{
if( dist_1[i] + dist_2[ edge[t].v ] + edge[t].w < tmp )
{
ans = tmp;
tmp = dist_1[i] + dist_2[ edge[t].v ] + edge[t].w;
}
else if( dist_1[i] + dist_2[ edge[t].v ] + edge[t].w < ans
&& dist_1[i] + dist_2[ edge[t].v ] + edge[t].w != tmp )
ans = dist_1[i] + dist_2[ edge[t].v ] + edge[t].w;
t = edge[t].next;
}
}
cout << ans << endl;
return 0;
}
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