题目大意:给定一棵树,每条边有黑白两种颜色,初始都是白色,现在有三种操作:
- 1 u v:u到v路径上的边都取成相反的颜色
- 2 u v:u到v路径上相邻的边都取成相反的颜色(相邻即仅有一个节点在路径上)
- 3 u v:查询u到v路径上有多少个黑色边
解题思路:树链剖分,用两个线段W和L维护,W对应的是每条的黑白情况,L表示的是每个节点的相邻边翻转情况
(对于轻链而言,重链直接在W上修改)
对于1操作,即为普通的树链剖分,直接在W上修改即可。
对于2操作,每次修改在L上,不过链的两端(即重链的部分)还需要在W上修改
对于3操作,每次查询,重链可以直接根据W中的值判断,轻链还要根据对应节点的L值来确定。
#pragma comment(linker, "/STACK:1024000000,1024000000")
#include <cstdio>
#include <cstring>
#include <algorithm>
using namespace std;
const int maxn = 1e5+5;
#define lson(x) ((x)<<1)
#define rson(x) (((x)<<1)|1)
struct Tree {
int lc[maxn << 2], rc[maxn << 2], fp[maxn << 2], s[maxn << 2];
void splay(int u) {
s[u] = rc[u] - lc[u] + 1 - s[u];
fp[u] ^= 1;
}
void pushup(int u) {
s[u] = s[lson(u)] + s[rson(u)];
}
void pushdown(int u) {
if (fp[u]) {
splay(lson(u));
splay(rson(u));
fp[u] = 0;
}
}
void build (int u, int l, int r) {
lc[u] = l;
rc[u] = r;
fp[u] = s[u] = 0;
if (l == r)
return;
int mid = (l + r) / 2;
build(lson(u), l, mid);
build(rson(u), mid + 1, r);
pushup(u);
}
void modify(int u, int l, int r) {
if (l <= lc[u] && rc[u] <= r) {
splay(u);
return;
}
pushdown(u);
int mid = (lc[u] + rc[u]) / 2;
if (l <= mid)
modify(lson(u), l, r);
if (r > mid)
modify(rson(u), l, r);
pushup(u);
}
int query(int u, int l, int r) {
if (l <= lc[u] && rc[u] <= r)
return s[u];
pushdown(u);
int mid = (lc[u] + rc[u]) / 2, ret = 0;
if (l <= mid)
ret += query(lson(u), l, r);
if (r > mid)
ret += query(rson(u), l, r);
pushup(u);
return ret;
}
}W, L;
int N, Q, E, first[maxn], jump[maxn * 2], link[maxn * 2];
int id, idx[maxn], top[maxn], far[maxn], son[maxn], dep[maxn], cnt[maxn];
inline void add_Edge(int u, int v) {
link[E] = v;
jump[E] = first[u];
first[u] = E++;
}
void dfs (int u, int pre, int d) {
far[u] = pre;
son[u] = 0;
cnt[u] = 1;
dep[u] = d;
for (int i = first[u]; i + 1; i = jump[i]) {
int v = link[i];
if (v == pre)
continue;
dfs(v, u, d + 1);
cnt[u] += cnt[v];
if (cnt[son[u]] < cnt[v])
son[u] = v;
}
}
void dfs (int u, int rot) {
top[u] = rot;
idx[u] = ++id;
if (son[u])
dfs(son[u], rot);
for (int i = first[u]; i + 1; i = jump[i]) {
int v = link[i];
if (v == far[u] || v == son[u])
continue;
dfs(v, v);
}
}
void init () {
E = id = 0;
memset(first, -1, sizeof(first));
int u, v;
scanf("%d", &N);
for (int i = 1; i < N; i++) {
scanf("%d%d", &u, &v);
add_Edge(u, v);
add_Edge(v, u);
}
dfs(1, 0, 0);
dfs(1, 1);
W.build(1, 1, N);
L.build(1, 1, N);
}
void modify(int u, int v, int k) {
int p = top[u], q = top[v];
while (p != q) {
if (dep[p] < dep[q]) {
swap(p, q);
swap(u, v);
}
if (k) {
L.modify(1, idx[p], idx[u]);
W.modify(1, idx[p], idx[p]);
W.modify(1, idx[son[u]], idx[son[u]]);
} else
W.modify(1, idx[p], idx[u]);
u = far[p];
p = top[u];
}
if (dep[u] > dep[v])
swap(u, v);
if (k) {
L.modify(1, idx[u], idx[v]);
W.modify(1, idx[u], idx[u]);
W.modify(1, idx[son[v]], idx[son[v]]);
} else {
if (u == v)
return;
W.modify(1, idx[son[u]], idx[v]);
}
}
int query(int u, int v) {
int p = top[u], q = top[v], ret = 0;
while (p != q) {
if (dep[p] < dep[q]) {
swap(p, q);
swap(u, v);
}
if (u != p)
ret += W.query(1, idx[son[p]], idx[u]);
ret += (W.query(1, idx[p], idx[p]) ^ L.query(1, idx[far[p]], idx[far[p]]));
u = far[p];
p = top[u];
}
if (u == v) return ret;
if (dep[u] > dep[v])
swap(u, v);
ret += W.query(1, idx[son[u]], idx[v]);
return ret;
}
int main () {
int cas;
scanf("%d", &cas);
while (cas--) {
init();
int k, u, v;
scanf("%d", &Q);
while (Q--) {
scanf("%d%d%d", &k, &u, &v);
if (k == 3)
printf("%d\n", query(u, v));
else
modify(u, v, k - 1);
}
}
return 0;
}