题目大意：

给定一张图，支持删边，求两点的路径中所有权值的最大值的最小值，貌似很绕的样子

由于有删边，不难想到\(LCT\)，又因为\(LCT\)不支持维护图，而且只有删边操作，于是我们考虑时间回溯。

把这道题变成模板有几个问题：

（思路为个人\(YY\)，可能非常麻烦）

\(1.\)我们怎么确定最后的状态呢？

首先我们先用\(map\)存每一条边，在询问操作时，每删一条边，就把他在\(map\)上去掉，最后剩下的边即为最终状态

\(2.\)加边的时候会出现环该怎么办呢？

要让答案更优，我们显然要动态维护最小生成树，然后维护了最小生成树后就只要找最小生成树树上两点的最大值了

附上常数极大又十分丑陋的代码：

#include<bits/stdc++.h>

using namespace std;

#define il inline

#define re register

#define file(a) freopen(#a".in","r",stdin);freopen(#a".out","w",stdout)

il int read() {

    re int x = 0, f = 1; re char c = getchar();

    while(c < '0' || c > '9') { if(c == '-') f = -1; c = getchar();}

    while(c >= '0' && c <= '9') x = x * 10 + c - 48, c = getchar();

    return x * f;

}

#define rep(i, s, t) for(re int i = s; i <= t; ++ i)

#define drep(i, s, t) for(re int i = t; i >= s; -- i)

#define updown(x) swap(ch[1][x], ch[0][x]), tag[x] ^= 1

#define get_fa(x) ch[1][fa[x]] == x

#define isroot(x) ch[1][fa[x]] == x || ch[0][fa[x]] == x

#define _ 150006

int n, m, Q, ans[_], Top, st[_], top, fa[_], tag[_], ch[2][_], val[_], ma[_], id[_];

struct node {int opt, u, v, w;}e[_];

pair<int, int> a[_];

map<pair<int, int>, int> q, Id;

il void pushdown(int x) {

	if(!tag[x]) return;

	if(ch[1][x]) updown(ch[1][x]);

	if(ch[0][x]) updown(ch[0][x]);

	tag[x] = 0;

}

il void pushup(int x) {

	ma[x] = val[x], id[x] = x;

	if(ch[1][x] && ma[x] < ma[ch[1][x]]) ma[x] = ma[ch[1][x]], id[x] = id[ch[1][x]];

	if(ch[0][x] && ma[x] < ma[ch[0][x]]) ma[x] = ma[ch[0][x]], id[x] = id[ch[0][x]];

}

il void rotate(int x) {

	int y = fa[x], z = fa[y], w = get_fa(x), k = get_fa(y);

	ch[w][y] = ch[w ^ 1][x], fa[ch[w ^ 1][x]] = y;

	if(isroot(y)) ch[k][z] = x; fa[x] = z;

	ch[w ^ 1][x] = y, fa[y] = x;

	pushup(y), pushup(x);

}

il void Splay(int x) {

	int y = x;

	st[++ top] = x;

	while(isroot(y)) st[++ top] = y = fa[y];

	while(top) pushdown(st[top --]);

	while(isroot(x)) {

		int y = fa[x];

		if(isroot(y)) rotate(get_fa(x) == get_fa(y) ? y : x);

		rotate(x);

	}

}

il void access(int x) {for(int y = 0; x; x = fa[y = x]) Splay(x), ch[1][x] = y, pushup(x);}

il void makeroot(int x) {access(x), Splay(x), updown(x);}

il int findroot(int x) {

	access(x), Splay(x);

	while(ch[0][x]) x = ch[0][x];

	Splay(x);

	return x;

}

il void spilt(int x, int y) {makeroot(x), access(y), Splay(y);}

il void link(int x, int y) {

	makeroot(x);

	if(findroot(y) != x) fa[x] = y;

}

int main() {

	file(a);

	n = read(), m = read(), Q = read();

	rep(i, 1, m) {

		int u = read(), v = read();

		a[i] = make_pair(u, v), q[make_pair(v, u)] = q[a[i]] = read(), val[i + n] = q[a[i]];

		Id[a[i]] = Id[make_pair(v, u)] = i;

	}

	rep(i, 1, Q) {

		int opt = read(), u = read(), v = read();

		e[i] = (node){opt, u, v, q[make_pair(u, v)]};

	}

	rep(i, 1, Q)

		if(e[i].opt == 2) q[make_pair(e[i].u, e[i].v)] = q[make_pair(e[i].v, e[i].u)] = 0;

    rep(i, 1, m) {

        if(q[a[i]] == 0) continue;

        if(findroot(a[i].first) == findroot(a[i].second)) {

            spilt(a[i].first, a[i].second); int now = id[a[i].second];

            if(val[i + n] >= val[now]) continue;

            Splay(now), fa[ch[1][now]] = fa[ch[0][now]] = 0;

        }

        link(a[i].first, i + n), link(i + n, a[i].second);

    }

	drep(i, 1, Q) {

		int u = e[i].u, v = e[i].v;

		if(e[i].opt == 2) {

            if(findroot(u) == findroot(v)) {

                spilt(u, v); int now = id[v];

                if(e[i].w >= val[now]) continue;

                Splay(now), fa[ch[1][now]] = fa[ch[0][now]] = 0;

            }

            link(u, Id[make_pair(u, v)] + n), link(Id[make_pair(u, v)] + n, v);

        }

		else spilt(u, v), ans[++ Top] = val[id[v]];

	}

	drep(i, 1, Top) printf("%d\n", ans[i]);

	return 0;

}