Bond
64-bit integer IO format: %lld Java class name: Main
Once again, James Bond is on his way to saving the world. Bond's latest mission requires him to travel between several pairs of cities in a certain country.
The country has N cities (numbered by 1, 2, . . ., N), connected by M bidirectional roads. Bond is going to steal a vehicle, and drive along the roads from city s to city t. The country's police will be patrolling the roads, looking for Bond, however, not all roads get the same degree of attention from the police.
More formally, for each road MI6 has estimated its dangerousness, the higher it is, the more likely Bond is going to be caught while driving on this road. Dangerousness of a path from s to t is defined as the maximum dangerousness of any road on this path.
Now, it's your job to help Bond succeed in saving the world by finding the least dangerous paths for his mission.
Input
There will be at most 5 cases in the input file.
The first line of each case contains two integers N, M (2 ≤ N≤ 50000, 1≤ M ≤ 100000) number of cities and roads. The next M lines describe the roads. The i-th of these lines contains three integers: xi, yi, di (1 ≤ xi, yi ≤ N, 0 ≤ di ≤ 109) - the numbers of the cities connected by the ith road and its dangerousness.
Description of the roads is followed by a line containing an integer Q (1 ≤ Q ≤ 50000), followed by Q lines, the i-th of which contains two integers si and ti (1 ≤ si, ti ≤ N,si != ti).
Consecutive input sets are separated by a blank line.
Output
For each case, output Q lines, the i-th of which contains the minimum dangerousness of a path between cities si and ti. Consecutive output blocks are separated by a blank line.
The input file will be such that there will always be at least one valid path.
Sample Input
4 5
1 2 10
1 3 20
1 4 100
2 4 30
3 4 10
2
1 4
4 1
2 1
1 2 100
1
1 2
Output for Sample Input
20
20
100
解题:LCA ,对最小生成树进行LCA查询
1 #include <bits/stdc++.h> 2 #define pii pair<int,int> 3 using namespace std; 4 const int maxn = 50010; 5 int n,m; 6 vector< pii >g[maxn]; 7 struct arc { 8 int u,v,w; 9 bool operator<(const arc &t)const { 10 return w < t.w; 11 } 12 } e[200000]; 13 int uf[maxn],d[maxn],fa[maxn][21],maxcost[maxn][21]; 14 int Find(int x) { 15 if(x != uf[x]) uf[x] = Find(uf[x]); 16 return uf[x]; 17 } 18 void dfs(int u,int f) { 19 for(int i = g[u].size()-1; i >= 0; --i) { 20 if(g[u][i].first == f) continue; 21 d[g[u][i].first] = d[u] + 1; 22 maxcost[g[u][i].first][0] = g[u][i].second; 23 fa[g[u][i].first][0] = u; 24 dfs(g[u][i].first,u); 25 } 26 } 27 void init() { 28 for(int j = 1; j <= 20; ++j) 29 for(int i = 1; i <= n; ++i) { 30 fa[i][j] = fa[fa[i][j-1]][j-1]; 31 maxcost[i][j] = max(maxcost[i][j-1],maxcost[fa[i][j-1]][j-1]); 32 } 33 } 34 int LCA(int s,int t) { 35 if(d[s] < d[t]) swap(s,t); 36 int log,ret = INT_MIN; 37 for(log = 1; (1<<log) <= d[s]; ++log); 38 for(int i = log-1; i >= 0; --i) 39 if(d[s] - (1<<i) >= d[t]) { 40 ret = max(ret,maxcost[s][i]); 41 s = fa[s][i]; 42 } 43 if(s == t) return ret; 44 for(int i = log-1; i >= 0; --i) { 45 if(fa[s][i] != -1 && fa[s][i] != fa[t][i]) { 46 ret = max(ret,maxcost[s][i]); 47 ret = max(ret,maxcost[t][i]); 48 s = fa[s][i]; 49 t = fa[t][i]; 50 } 51 } 52 ret = max(ret,maxcost[s][0]); 53 ret = max(ret,maxcost[t][0]); 54 return ret; 55 } 56 int main() { 57 int u,v; 58 bool flag = false; 59 while(~scanf("%d%d",&n,&m)) { 60 if(flag) puts(""); 61 flag = true; 62 for(int i = 0; i < m; ++i) 63 scanf("%d%d%d",&e[i].u,&e[i].v,&e[i].w); 64 sort(e,e+m); 65 for(int i = 0; i < maxn; ++i) { 66 g[i].clear(); 67 uf[i] = i; 68 } 69 for(int i = 0; i < m; ++i) { 70 int u = Find(e[i].u); 71 int v = Find(e[i].v); 72 if(u == v) continue; 73 uf[u] = v; 74 g[u].push_back(pii(v,e[i].w)); 75 g[v].push_back(pii(u,e[i].w)); 76 } 77 memset(maxcost,0,sizeof maxcost); 78 memset(d,0,sizeof d); 79 memset(fa,-1,sizeof fa); 80 fa[1][0] = -1; 81 dfs(1,-1); 82 init(); 83 scanf("%d",&m); 84 for(int i = 0; i < m; ++i) { 85 scanf("%d%d",&u,&v); 86 printf("%d ",LCA(u,v)); 87 } 88 } 89 return 0; 90 }