#include using namespace std; struct UnionFind{ vector path, rank; UnionFind(int N_){ rank.assign(N_, 0); path.assign(N_, 0); for(int it = 0; it < N_; it++) path[it] = it; }; int findSet(int idx){ return ( path[idx] == idx ? idx : path[idx] = findSet(path[idx]) ); } bool isSameSet(int idx1, int idx2){ return ( findSet(idx1) == findSet(idx2) ); } void unionSet(int idx1, int idx2){ if( isSameSet(idx1, idx2) ) return; int x = findSet(idx1), y = findSet(idx2); if( rank[x] > rank[y] ) path[y] = x; else path[x] = y; if( rank[x] == rank[y] ) rank[y]++; } }; const int LIM = 110, SIZE = 10000; typedef pair ii; struct Edge_{ int u, v, w; bool operator < (const Edge_& other) const{ return ( w < other.w ); } }E[SIZE]; int tc, N, M, Q, S, D, edge; vector < ii > AdjList[LIM]; bool vis[LIM]; void dfs(int u, int v, int w){ vis[u] = true; if( u == v ){ edge = w; return; } for(int it = 0; it < AdjList[u].size(); it++) if( not vis[AdjList[u][it].first] ) dfs(AdjList[u][it].first, v, max(w, AdjList[u][it].second) ); } void Kruskal(){ UnionFind UF(N + 1); int setSize = 1; sort(E, E + M); for(int it = 0; it < M and setSize != N; it++) if( not UF.isSameSet(E[it].u, E[it].v) ){ AdjList[E[it].u].push_back( ii(E[it].v, E[it].w) ); AdjList[E[it].v].push_back( ii(E[it].u, E[it].w) ); setSize++, UF.unionSet(E[it].u, E[it].v); } } void clear_(){ for(int it = 1; it <= N; it++) AdjList[it].clear(); } int main(){ while(scanf("%d %d %d", &N, &M, &Q), N | M | Q){ if(tc++) putchar('\n'); for(int it = 0; it < M; it++) scanf("%d %d %d", &E[it].u, &E[it].v, &E[it].w); Kruskal(); printf("Case #%d\n", tc); for(int it = 0; it < Q; it++){ scanf("%d %d", &S, &D); fill(vis, vis + N + 1, false); edge = -1; dfs(S, D, 0); if( edge == -1 ) puts("no path"); else printf("%d\n", edge); } clear_(); } return(0); }