https://www.luogu.org/problemnew/show/3038
将为边加权转化成为点加权
对于每条边,我们将其深度更大的端点加权,则区间 [l, r] 的加权(或询问)即为去掉深度最小的点,给其余点加权(或询问)。
1)最后一次树剖查询时,当前两点 x,y 必定在同一重链上(y 的深度小于 x);
2)根据处理前的 dfs 序,我们是优先遍历重儿子,那么重儿子在线段树中的编号一定紧邻其父节点(即为其父节点编号 + 1),则我们要忽略深度最小的那个点 y ,即为处理区间 [ y 在线段树中的编号 + 1, x 在线段树中的编号](另外还要注意的是,y = x 时在线段树内执行会出错,我们要特判这种情况) 。
#include <bits/stdc++.h> using namespace std; const int N = 1e5 + 10; #define gc getchar() #define lson jd << 1 #define rson jd << 1 | 1 struct Node_1{ int v, nxt; }G[N << 1]; struct Node_2{ int fa, son, deep, topp, siz, tree; }P[N]; struct Node_3{ int l, r, w, f; }T[N << 2]; int n, Ti, now = 1, head[N], tim, ans; inline int read(){ int x = 0; char c = gc; while(c < '0' || c > '9') c = gc; while(c >= '0' && c <= '9') x = x * 10 + c - '0', c = gc; return x; } inline void add(int u, int v){ G[now].v = v; G[now].nxt = head[u]; head[u] = now ++; } void dfs_find_son(int u, int fa, int dep){ P[u].fa = fa; P[u].deep = dep; P[u].siz = 1; for(int i = head[u]; ~ i; i = G[i].nxt){ int v = G[i].v; if(v != fa){ dfs_find_son(v, u, dep + 1); P[u].siz += P[v].siz; if(P[v].siz > P[P[u].son].siz) P[u].son = v; } } } void dfs_to_un(int u, int tp){ P[u].topp = tp; P[u].tree = ++ tim; if(!P[u].son) return ; dfs_to_un(P[u].son, tp); for(int i = head[u]; ~ i; i = G[i].nxt){ int v = G[i].v; if(v != P[u].son && v != P[u].fa) dfs_to_un(v, v); } } void down(int jd){ int F = T[jd].f; T[lson].w += (T[lson].r - T[lson].l + 1) * F; T[lson].f += F; T[rson].w += (T[rson].r - T[rson].l + 1) * F; T[rson].f += F; T[jd].f = 0; } void Sec_G(int l, int r, int jd, int x, int y){ if(x <= l && r <= y){ int yj = r - l + 1; T[jd].w += yj; T[jd].f ++; return ; } if(T[jd].f) down(jd); int mid = (l + r) >> 1; if(x <= mid) Sec_G(l, mid, lson, x, y); if(y > mid) Sec_G(mid + 1, r, rson, x, y); } void Sec_G_imp(int x, int y){ int tp1 = P[x].topp, tp2 = P[y].topp; while(tp1 != tp2){ if(P[tp1].deep < P[tp2].deep) swap(x, y), swap(tp1, tp2); Sec_G(1, n, 1, P[tp1].tree, P[x].tree); x = P[tp1].fa; tp1 = P[x].topp; } if(x == y) return ; if(P[x].deep > P[y].deep) swap(x, y); Sec_G(1, n, 1, P[x].tree + 1, P[y].tree); } void build_tree(int l, int r, int jd){ T[jd].l = l; T[jd].r = r; if(l == r) return ; int mid = (l + r) >> 1; build_tree(l, mid, lson); build_tree(mid + 1, r, rson); } void Sec_A(int l, int r, int jd, int x, int y){ if(x <= l && r <= y){ ans += T[jd].w; return ; } if(T[jd].f) down(jd); int mid = (l + r) >> 1; if(x <= mid) Sec_A(l, mid, lson, x, y); if(y > mid) Sec_A(mid + 1, r, rson, x, y); } int Sec_A_imp(int x, int y){ int ret = 0; int tp1 = P[x].topp, tp2 = P[y].topp; while(tp1 != tp2){ if(P[tp1].deep < P[tp2].deep) swap(x, y), swap(tp1, tp2); ans = 0; Sec_A(1, n, 1, P[tp1].tree, P[x].tree); ret += ans; x = P[tp1].fa; tp1 = P[x].topp; } if(x == y) return ret; ans = 0; if(P[x].deep > P[y].deep) swap(x, y); Sec_A(1, n, 1, P[x].tree + 1, P[y].tree); ret += ans; return ret; } int main() { n = read(); Ti = read(); for(int i = 1; i <= n; i ++) head[i] = -1; for(int i = 1; i < n; i ++) { int u = read(), v = read(); add(u, v); add(v, u); } dfs_find_son(1, 0, 1); dfs_to_un(1, 1); build_tree(1, n, 1); while(Ti --){ string s; cin >> s; int x = read(), y = read(); if(s[0] == 'P') Sec_G_imp(x, y); else cout << Sec_A_imp(x, y) << endl; } return 0; }