解法
可以考虑每一个颜色都开一颗线段树来进行维护,但是这样会爆炸,所以我们用动态开点的线段树就可以过了。把不同颜色的节点分开进行维护,然后按照树链剖分套路即可。
代码
// P3313.cpp
#include <bits/stdc++.h>
#define mid ((l + r) >> 1)
using namespace std;
const int MAX_N = 1e5 + 2000;
int head[MAX_N], current, dfn[MAX_N], tot, anti[MAX_N], dep[MAX_N], fa[MAX_N];
int siz[MAX_N], son[MAX_N], top[MAX_N], colorstat[MAX_N], val[MAX_N], n, q;
struct edge
{
int to, nxt;
} edges[MAX_N << 1];
int roots[MAX_N], ptot;
struct node
{
int sum, mx, lson, rson;
} nodes[MAX_N * 40];
char opt[20];
void addpath(int src, int dst)
{
edges[current].to = dst, edges[current].nxt = head[src];
head[src] = current++;
}
void dfs1(int u)
{
dep[u] = dep[fa[u]] + 1, siz[u] = 1;
for (int i = head[u]; i != -1; i = edges[i].nxt)
if (edges[i].to != fa[u])
{
fa[edges[i].to] = u, dfs1(edges[i].to);
siz[u] += siz[edges[i].to];
if (siz[edges[i].to] > siz[son[u]])
son[u] = edges[i].to;
}
}
void dfs2(int u, int org)
{
dfn[u] = ++tot, anti[dfn[u]] = u, top[u] = org;
if (son[u] == 0)
return;
dfs2(son[u], org);
for (int i = head[u]; i != -1; i = edges[i].nxt)
if (edges[i].to != fa[u] && edges[i].to != son[u])
dfs2(edges[i].to, edges[i].to);
}
int update(int qx, int l, int r, int p, int val)
{
if (p == 0)
p = ++ptot;
if (l == r)
{
nodes[p].sum = nodes[p].mx = val;
return p;
}
if (qx <= mid)
nodes[p].lson = update(qx, l, mid, nodes[p].lson, val);
else
nodes[p].rson = update(qx, mid + 1, r, nodes[p].rson, val);
nodes[p].mx = max(nodes[nodes[p].lson].mx, nodes[nodes[p].rson].mx);
nodes[p].sum = nodes[nodes[p].lson].sum + nodes[nodes[p].rson].sum;
return p;
}
void remove(int qx, int l, int r, int p)
{
if (p == 0)
return;
if (l == r)
return (void)(nodes[p].sum = nodes[p].mx = 0);
if (qx <= mid)
(remove(qx, l, mid, nodes[p].lson));
else
(remove(qx, mid + 1, r, nodes[p].rson));
nodes[p].mx = max(nodes[nodes[p].lson].mx, nodes[nodes[p].rson].mx);
nodes[p].sum = nodes[nodes[p].lson].sum + nodes[nodes[p].rson].sum;
}
int query_sum(int ql, int qr, int l, int r, int p)
{
if (p == 0)
return 0;
if (ql <= l && r <= qr)
return nodes[p].sum;
int ans = 0;
if (ql <= mid)
ans += query_sum(ql, qr, l, mid, nodes[p].lson);
if (mid < qr)
ans += query_sum(ql, qr, mid + 1, r, nodes[p].rson);
return ans;
}
int query_mx(int ql, int qr, int l, int r, int p)
{
if (p == 0)
return 0;
if (ql <= l && r <= qr)
return nodes[p].mx;
int ans = 0;
if (ql <= mid)
ans = max(ans, query_mx(ql, qr, l, mid, nodes[p].lson));
if (mid < qr)
ans = max(ans, query_mx(ql, qr, mid + 1, r, nodes[p].rson));
return ans;
}
int query_sum(int x, int y)
{
int ans = 0, col = colorstat[x];
while (top[x] != top[y])
{
if (dep[top[x]] < dep[top[y]])
swap(x, y);
ans += query_sum(dfn[top[x]], dfn[x], 1, n, roots[col]);
x = fa[top[x]];
}
if (dep[x] > dep[y])
swap(x, y);
ans += query_sum(dfn[x], dfn[y], 1, n, roots[col]);
return ans;
}
int query_mx(int x, int y)
{
int ans = 0, col = colorstat[x];
while (top[x] != top[y])
{
if (dep[top[x]] < dep[top[y]])
swap(x, y);
ans = max(ans, query_mx(dfn[top[x]], dfn[x], 1, n, roots[col]));
x = fa[top[x]];
}
if (dep[x] > dep[y])
swap(x, y);
ans = max(ans, query_mx(dfn[x], dfn[y], 1, n, roots[col]));
return ans;
}
int main()
{
memset(head, -1, sizeof(head));
scanf("%d%d", &n, &q);
for (int i = 1; i <= n; i++)
scanf("%d%d", &val[i], &colorstat[i]);
for (int i = 1, tmpx, tmpy; i <= n - 1; i++)
scanf("%d%d", &tmpx, &tmpy), addpath(tmpx, tmpy), addpath(tmpy, tmpx);
dfs1(1), dfs2(1, 1);
for (int i = 1; i <= n; i++)
roots[colorstat[i]] = update(dfn[i], 1, n, roots[colorstat[i]], val[i]);
while (q--)
{
int x, y;
scanf("%s%d%d", opt, &x, &y);
switch (opt[1])
{
case 'C':
remove(dfn[x], 1, n, roots[colorstat[x]]);
colorstat[x] = y;
roots[colorstat[x]] = update(dfn[x], 1, n, roots[colorstat[x]], val[x]);
break;
case 'W':
remove(dfn[x], 1, n, roots[colorstat[x]]);
val[x] = y;
roots[colorstat[x]] = update(dfn[x], 1, n, roots[colorstat[x]], val[x]);
break;
case 'S':
printf("%d\n", query_sum(x, y));
break;
case 'M':
printf("%d\n", query_mx(x, y));
break;
}
}
return 0;
}