SGU185[Two shortest]

在无向带正权的图中找两条没有公共边的最短路,用网络流做。


先用最短路求出所有点到源点的距离,然后建立网络,其中点就是本来的那些点,边是原图中满足dis[u]+d[u][v]=dis[v]的边<u,v>,然后容量都为1。


求最大流,最大流的值小于2则无解,否者输出两条路径。


CODE:


/*


AUTHOR: Su Jiao


DATE: 2010-7-21


DESCRIPTION:


网络流 乱做


http://acm.sgu.ru/problem.php?contest=0&problem=185


*/


#include <stdio.h>


 


const int oo=19930309;


const int MAXV=400+2;


 


int S,T;


int d[MAXV][MAXV];


int dis[MAXV];


bool inq[MAXV];


int q[MAXV];


int head,tail;


 


void SPFA()


{


     for (int i=S;i<=T;i++) dis[i]=oo;


     inq[q[head=tail=0]=S]=true;


     dis[S]=0;


     while (head<=tail)


     {


           int u;


           inq[u=q[(head++)%MAXV]]=false;


           for (int v=S;v<=T;v++)


               if (d[u][v]&&dis[v]>dis[u]+d[u][v])


               {


                  if (!inq[v])


                     inq[q[(++tail)%MAXV]=v]=true;


                  dis[v]=dis[u]+d[u][v];


               }


     }


}


namespace sj


{


          const int oo=(~0u)>>1;


          const int MAXV=400+2;


          const int MAXE=400*400;


          typedef struct struct_edge* edge;


          struct struct_edge{int v,c;edge n,b;};


          struct_edge pool[MAXE];


          edge top;


          int S,T,V;


          edge adj[MAXV];


          int d[MAXV],dn[MAXV+1];


          void add_edge(int u,int v,int c)


          {


               top->v=v,top->c=c,top->n=adj[u],adj[u]=top++;


               top->v=u,top->c=0,top->n=adj[v],adj[v]=top++;


               adj[u]->b=adj[v],adj[v]->b=adj[u];


          }


          int augment(int u,int e)


          {


              if (u==T) return e;


              if (d[S]==V) return 0;


              int f=0,mind=V-1;


              for (edge i=adj[u];i;i=i->n)


                  if (i->c)


                  {


                     if (d[u]==d[i->v]+1)


                     {


                        int df=augment(i->v,e<i->c?e:i->c);


                        i->c-=df;


                        i->b->c+=df;


                        e-=df;


                        f+=df;


                        if (e==0) return f;


                     }


                     if (mind>d[i->v]) mind=d[i->v];


                  }


              if (f) return f;


              else


              {


                  if (!–dn[d[u]]) d[S]=V;


                  else dn[d[u]=mind+1]++;


                  return 0;


              }


          }


          int sap()


          {


              int f=0;


              dn[0]=V;


              while (d[S]<V) f+=augment(S,oo);


              return f;


          }


          void dfs(int u)


          {


               if (u==T) printf(“%d\n”,u);


               else


               {


                   printf(“%d “,u);


                   for (edge i=adj[u];i;i=i->n)


                       if ((!i->c)&&(!((i-pool)&1)))


                       {


                          i->c++;


                          i->b->c–;


                          dfs(i->v);


                          break;


                       }


               }


          }


}


 


int main()


{


    int n,m,x,y,l;


    scanf(“%d%d”,&n,&m),S=1,T=n;


    for (int u=S;u<=T;u++)


        for (int v=S;v<=T;v++)


            d[u][v]=oo;


    for (int i=0;i<m;i++)


        scanf(“%d%d%d”,&x,&y,&l),d[x][y]=d[y][x]=l;


    SPFA();


    sj::top=sj::pool;


    sj::S=S,sj::T=T,sj::V=n;


    for (int u=S;u<=T;u++)


        for (int v=S;v<=T;v++)


            if (dis[u]+d[u][v]==dis[v])


               sj::add_edge(u,v,1);


    if (sj::sap()<2) printf(“No solution\n”);


    else


    {


        sj::dfs(sj::S);


        sj::dfs(sj::S);


    }


}


 

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