嘟嘟嘟
这道题其实还是挺基础的,只不过操作有点多。
区间乘和区间加按线段树的方式想。
那么就先要下放乘标记,再下放加标记。但这两个和反转标记是没有先后顺序的。
对于区间加,sum加的是区间长度(*)lazy标记。但是线段树区间固定,而lct不是,所以还要单独维护一个size。
还有一点,这个是splay的性质,就是当前节点的sum还要算上自己的权值,而不像线段树完全由子树信息合并而来。
最最最后一点,得开long long,包括点权。
#include<cstdio>
#include<iostream>
#include<cmath>
#include<algorithm>
#include<cstring>
#include<cstdlib>
#include<cctype>
#include<vector>
#include<stack>
#include<queue>
using namespace std;
#define enter puts("")
#define space putchar(' ')
#define Mem(a, x) memset(a, x, sizeof(a))
#define In inline
typedef long long ll;
typedef double db;
const int INF = 0x3f3f3f3f;
const db eps = 1e-8;
const int maxn = 1e5 + 5;
const ll mod = 51061;
inline ll read()
{
ll ans = 0;
char ch = getchar(), last = ' ';
while(!isdigit(ch)) last = ch, ch = getchar();
while(isdigit(ch)) ans = (ans << 1) + (ans << 3) + ch - '0', ch = getchar();
if(last == '-') ans = -ans;
return ans;
}
inline void write(ll x)
{
if(x < 0) x = -x, putchar('-');
if(x >= 10) write(x / 10);
putchar(x % 10 + '0');
}
int n, q;
char c[2];
struct Tree
{
int ch[2], fa;
int siz, rev;
ll val, sum, add, mul;
}t[maxn];
In void c_rev(int now)
{
swap(t[now].ch[0], t[now].ch[1]);
t[now].rev ^= 1;
}
In void c_mul(int now, ll lzy)
{
t[now].sum *= lzy; t[now].sum %= mod;
t[now].val *= lzy; t[now].val %= mod;
t[now].mul *= lzy; t[now].mul %= mod;
t[now].add *= lzy; t[now].add %= mod;
}
In void c_add(int now, ll lzy)
{
t[now].sum += lzy * (ll)t[now].siz; t[now].sum %= mod;
t[now].val += lzy; t[now].val %= mod;
t[now].add += lzy; t[now].add %= mod;
}
In void pushdown(int now)
{
if(t[now].rev)
{
if(t[now].ch[0]) c_rev(t[now].ch[0]);
if(t[now].ch[1]) c_rev(t[now].ch[1]);
t[now].rev = 0;
}
if(t[now].mul != 1)
{
if(t[now].ch[0]) c_mul(t[now].ch[0], t[now].mul);
if(t[now].ch[1]) c_mul(t[now].ch[1], t[now].mul);
t[now].mul = 1;
}
if(t[now].add)
{
if(t[now].ch[0]) c_add(t[now].ch[0], t[now].add);
if(t[now].ch[1]) c_add(t[now].ch[1], t[now].add);
t[now].add = 0;
}
}
In void pushup(int now)
{
t[now].siz = t[t[now].ch[0]].siz + t[t[now].ch[1]].siz + 1;
t[now].sum = (t[t[now].ch[0]].sum + t[t[now].ch[1]].sum + t[now].val) % mod;
}
In bool n_root(int now)
{
return t[t[now].fa].ch[0] == now || t[t[now].fa].ch[1] == now;
}
In void rotate(int x)
{
int y = t[x].fa, z = t[y].fa, k = (t[y].ch[1] == x);
if(n_root(y)) t[z].ch[t[z].ch[1] == y] = x; t[x].fa = z;
t[y].ch[k] = t[x].ch[k ^ 1]; t[t[y].ch[k]].fa = y;
t[x].ch[k ^ 1] = y; t[y].fa = x;
pushup(y), pushup(x);
}
int st[maxn], top = 0;
In void splay(int x)
{
int y = x;
st[top = 1] = y;
while(n_root(y)) st[++top] = y = t[y].fa;
while(top) pushdown(st[top--]);
while(n_root(x))
{
int y = t[x].fa, z = t[y].fa;
if(n_root(y)) rotate(((t[y].ch[0] == x) ^ (t[z].ch[0] == y)) ? x : y);
rotate(x);
}
}
In void access(int x)
{
int y = 0;
while(x)
{
splay(x); t[x].ch[1] = y;
pushup(x);
y = x; x = t[x].fa;
}
}
In void make_root(int x)
{
access(x); splay(x);
c_rev(x);
}
In int find_root(int x)
{
access(x); splay(x);
while(t[x].ch[0]) pushdown(x), x = t[x].ch[0];
return x;
}
In void split(int x, int y)
{
make_root(x);
access(y); splay(y);
}
In void Link(int x, int y)
{
make_root(x);
if(find_root(y) != x) t[x].fa = y;
}
In void Cut(int x, int y)
{
make_root(x);
if(find_root(y) == x && t[x].fa == y && !t[x].ch[1])
t[y].ch[0] = t[x].fa = 0, pushup(y);
}
int main()
{
n = read(); q = read();
for(int i = 1; i <= n; ++i) t[i].val = t[i].mul = t[i].siz = 1;
for(int i = 1, x, y; i < n; ++i) x = read(), y = read(), Link(x, y);
for(int i = 1; i <= q; ++i)
{
scanf("%s", c); int x = read(), y = read();
if(c[0] == '+') {int d = read(); split(x, y); c_add(y, d);}
else if(c[0] == '*') {int d = read(); split(x, y); c_mul(y, d);}
else if(c[0] == '/') split(x, y), write(t[y].sum), enter;
else
{
Cut(x, y);
x = read(), y = read();
Link(x, y);
}
}
return 0;
}