题意
给定一张 (n) 个点 (m) 条边的无向连通图,加入一条边,使得图中权值最小的桥权值最大,如果能使图中没有桥则输出 (-1)。
思路
先对原图边双缩点,然后变成了一棵树。在树上加一条边等价于使一条路径上的边都不是桥,那么原题转化为在树上删一条路径,使得最小的边最大。固定一条最小的边之后模拟即可。
代码
#include<bits/stdc++.h>
#define FOR(i, x, y) for(int i = (x), i##END = (y); i <= i##END; ++i)
#define DOR(i, x, y) for(int i = (x), i##END = (y); i >= i##END; --i)
template<typename T, typename _T> inline bool chk_min(T &x, const _T &y) {return y < x ? x = y, 1 : 0;}
template<typename T, typename _T> inline bool chk_max(T &x, const _T &y) {return x < y ? x = y, 1 : 0;}
typedef long long ll;
const int N = 10005;
const int M = 100005;
template<const int N, const int M, typename T> struct Linked_List
{
int head[N], nxt[M], tot; T to[M];
Linked_List() {clear();}
T &operator [](const int x) {return to[x];}
void clear() {memset(head, -1, sizeof(head)), tot = 0;}
void add(int u, T v) {to[tot] = v, nxt[tot] = head[u], head[u] = tot++;}
#define EOR(i, G, u) for(int i = G.head[u]; ~i; i = G.nxt[i])
};
struct edge {int to, cost;};
Linked_List<N, M << 1, edge> G;
Linked_List<N, N << 1, edge> T;
int dfn[N], low[N], stk[N], bel[N], dfn_idx, tp, bcc;
int miner[N], son[N];
int n, m;
void tarjan(int u, int fa_e)
{
dfn[u] = low[u] = ++dfn_idx, stk[++tp] = u;
EOR(i, G, u)
{
if(i == (fa_e ^ 1)) continue;
int v = G[i].to;
if(!dfn[v]) tarjan(v, i), chk_min(low[u], low[v]);
else if(dfn[v] < dfn[u]) chk_min(low[u], dfn[v]);
}
if(dfn[u] == low[u])
{
bcc++;
do bel[stk[tp]] = bcc; while(stk[tp--] != u);
}
}
void dfs(int u, int f)
{
miner[u] = 2e9, son[u] = 0;
EOR(i, T, u)
{
int v = T[i].to, w = T[i].cost;
if(v == f) continue;
dfs(v, u);
if(chk_min(miner[u], miner[v])) son[u] = v;
if(chk_min(miner[u], w)) son[u] = v;
}
}
int redfs(int u, int f)
{
if(!son[u]) return 2e9;
int res = redfs(son[u], u);
EOR(i, T, u)
{
int v = T[i].to, w = T[i].cost;
if(v == f || v == son[u]) continue;
chk_min(res, miner[v]);
chk_min(res, w);
}
return res;
}
int main()
{
while(~scanf("%d%d", &n, &m))
{
G.tot = T.tot = 0;
FOR(i, 1, n) G.head[i] = T.head[i] = -1;
FOR(i, 1, n) dfn[i] = 0;
bcc = dfn_idx = 0;
FOR(i, 1, m)
{
int u, v, w;
scanf("%d%d%d", &u, &v, &w);
G.add(u, (edge){v, w}), G.add(v, (edge){u, w});
}
tarjan(1, -1);
int s, t, mi = 2e9;
FOR(u, 1, n) EOR(i, G, u)
{
int v = G[i].to, w = G[i].cost;
if(bel[u] < bel[v])
{
if(chk_min(mi, w)) s = bel[u], t = bel[v];
T.add(bel[u], (edge){bel[v], w}), T.add(bel[v], (edge){bel[u], w});
}
}
dfs(s, t), dfs(t, s);
int res = std::min(redfs(s, t), redfs(t, s));
printf("%d
", (res > 1e9 ? -1 : res));
}
return 0;
}