1 //dijkstra 2 #include<queue> 3 #include<cstring> 4 5 using namespace std; 6 7 const int MAXN = 100; 8 const int MAXM = 10000; 9 //////////////////////////////////////////////// 10 struct dij_edge{ 11 int from, to, next, val; 12 }dij_e[MAXM]; 13 14 struct Node{ 15 int x, d; 16 Node(){} 17 Node( int a, int b ): x( a ), d( b ){} 18 bool operator < ( Node a ) const{ 19 return d > a.d; 20 } 21 }; 22 23 int dij_h[MAXN], dij_dis[MAXN], dij_cnt; 24 25 void dij_init(){ 26 dij_cnt = 0; 27 memset( dij_h, -1, sizeof( dij_h ) ); 28 } 29 30 void dij_add( int from, int to, int val ){ 31 dij_e[dij_cnt].from = from; 32 dij_e[dij_cnt].to = to; 33 dij_e[dij_cnt].val = val; 34 dij_e[dij_cnt].next = dij_h[from]; 35 dij_h[from] = dij_cnt++; 36 } 37 38 void dij( dij_edge *edge, int *dis, int *h, int s ){ 39 dis[s] = 0; 40 41 priority_queue<Node> Q; 42 Q.push( Node( s, dis[s] ) ); 43 44 while( !Q.empty() ){ 45 Node temp = Q.top(); Q.pop(); 46 int x = temp.x; 47 if( temp.d > dis[x] ) continue; 48 for( int k = h[x]; k != -1; k = edge[k].next ){ 49 int y = edge[k].to; 50 if( dis[y] > dis[x] + edge[k].val ){ 51 dis[y] = dis[x] + edge[k].val; 52 Q.push( Node( y, dis[y] ) ); 53 } 54 } 55 } 56 } 57 58 //dij( dij_e, dij_dis, dij_h, source ); 59 int main(){ 60 return 0; 61 }