看了题目的讨论才会做的

首先一点，算每条边(u, v)对于n*(n+1)/2种[l, r]组合的贡献

正着算不如反着算

哪些[l, r]的组合没有包含这条边(u, v)呢

这个很好算

只需要统计u这半边的点中有哪些连续数字，连续的数字就是一个[l, r]组合

就可以算出u这半边有哪些潜在的[l, r]组合

当然u这半边算好了，v这半边正好是u的数字反过来

这个过程可以使用set来统计，很好写

现在我们解决了对于一个边怎么算贡献

现在需要使用点分治

使用点分治求重心进行遍历保证了每个点至多被放入set log(n)次

所以复杂度大约nlog(n)

#include <algorithm>

#include <cmath>

#include <cstdio>

#include <cstring>

#include <iostream>

#include <map>

#include <queue>

#include <set>

#include <stack>

#include <vector>

using namespace std;

typedef long long ll;

const int N = 1e5 + 5;

#define MS(x, y) memset(x, y, sizeof(x))

#define MP(x, y) make_pair(x, y)

const int INF = 0x3f3f3f3f;

int n;

struct GraphUnit {

    int to, next;

} Tree[N << 1];

int head[N], tot;

bool vis[N];

void addEdge(int from, int to) {

    Tree[tot].to = to;

    Tree[tot].next = head[from];

    head[from] = tot++;

}

set<int> vertexSet;

int min_MaxSon_Centrol_Num;

int min_MaxSon_Centrol_Pos;

ll ans = 0;

int getCentrol(int vertex, int preVertex) {

    int fatherSum = 1;

    int maxSon = -1;

    vertexSet.insert(vertex);

    for (int i = head[vertex]; ~i; i = Tree[i].next) {

        int to = Tree[i].to;

        if (to == preVertex || vis[to])

            continue;

        int sonSum = getCentrol(to, vertex);

        maxSon = max(maxSon, sonSum);

        fatherSum += sonSum;

    }

    maxSon = max(maxSon, n - fatherSum);

    if (maxSon < min_MaxSon_Centrol_Num) {

        min_MaxSon_Centrol_Num = maxSon;

        min_MaxSon_Centrol_Pos = vertex;

    }

    return fatherSum;

}

ll Cal(int x) {

    return 1ll * x * (x + 1) / 2;

}

void solveTheSet() {

    int pre = 0;

    int cnt = 0;

    ll preans = ans;

    for (auto it = vertexSet.begin(); it != vertexSet.end(); ++it) {

        int number = *it;

        if (number == pre + 1)

            cnt++;

        else {

            ans += Cal(cnt);

            ans += Cal(number - pre - 1);

            cnt = 1;

        }

        pre = number;

    }

    ans += Cal(cnt);

    ans += Cal(n - pre);

    //   printf("hh :%lld\n", ans - preans);

}

void divideAndConquer(int vertex, int preVertex) {

    min_MaxSon_Centrol_Num = INF;

    vertexSet.clear();

    getCentrol(vertex, vertex);

    int root = min_MaxSon_Centrol_Pos;

    // printf("%d\n", root);

    vis[root] = true;

    if (vertex != preVertex) {  // only the first we don't need to solve, because it don't have the pre edge

        solveTheSet();

    }

    for (int i = head[root]; ~i; i = Tree[i].next) {

        int to = Tree[i].to;

        if (vis[to])

            continue;

        divideAndConquer(to, root);

    }

}

int main() {

    while (~scanf("%d", &n)) {

        memset(vis, 0, sizeof(vis));

        memset(head, -1, sizeof(head));

        tot = 0;

        ans = 0;

        for (int i = 1; i < n; ++i) {

            int from, to;

            scanf("%d %d", &from, &to);

            addEdge(from, to);

            addEdge(to, from);

        }

        divideAndConquer(1, 1);

        printf("%lld\n", Cal(n) * (n - 1) - ans);

    }

    return 0;

}