这是个假的最大流,其实是一个用树剖+线段树就能解决的事情
题目中的道路会对路径上的造成压力,最后询问最大的压力
其实就等价于对每条路径上的点加上 1 的权值,并且最后询问整个树中的最大值
然后树剖+最大值线段树裸题,完事,莫得别的问题了.
\(Updated:\)
其实,可以树上差分+遍历解决的吧...当时好像有点学数据结构学傻了
Code:
#include <iostream>
#include <cstdlib>
#include <cstdio>
#include <vector>
#define ls ( rt << 1 )
#define rs ( rt << 1 | 1 )
#define mid ( ( l + r ) >> 1 )
#define pushup(rt) t[rt].data = max ( t[ls].data , t[rs].data )
using std::vector ;
using std::max ;
const int N = 1e5 + 5 ;
struct seg {
int left , right , data , tag ;
inline int size () { return right - left + 1 ; }
}t[(N<<2)] ;
vector < int > G[N] ;
int n , k , val[N] , son[N] , idx[N] , ans ;
int tot , deep[N] , f[N] , siz[N] , top[N] ;
inline void dfs ( int cur , int anc , int dep ) {
f[cur] = anc ; deep[cur] = dep ; siz[cur] = 1 ;
int maxson = - 1 ; for ( int k : G[cur] ) {
if ( k == anc ) continue ;
dfs ( k , cur , dep + 1 ) ; siz[cur] += siz[k] ;
if ( siz[k] > maxson ) maxson = siz[k] , son[cur] = k ;
}
return ;
}
inline void _dfs ( int cur , int topf ) {
top[cur] = topf ; idx[cur] = ++ tot ; val[tot] = 0 ;
if ( ! son[cur] ) return ; _dfs ( son[cur] , topf ) ;
for ( int k : G[cur] ) {
if ( k == f[cur] || k == son[cur] ) continue ;
_dfs ( k , k ) ;
}
return ;
}
inline void build ( int rt , int l , int r ) {
t[rt].left = l ; t[rt].right = r ; t[rt].tag = 0 ;
if ( l == r ) { t[rt].data = val[l] ; return ; }
build ( ls , l , mid ) ; build ( rs , mid + 1 , r ) ;
pushup ( rt ) ; return ;
}
inline void pushdown ( int rt ) {
t[ls].tag += t[rt].tag ; t[rs].tag += t[rt].tag ;
t[ls].data += t[rt].tag ; t[rs].data += t[rt].tag ;
t[rt].tag = 0 ; return ;
}
inline void update ( int rt , int ll , int rr , int key ) {
int l = t[rt].left , r = t[rt].right ;
if ( ll <= l && r <= rr ) {
t[rt].tag += key ;
t[rt].data += key ;
return ;
}
if ( t[rt].tag != 0 ) pushdown ( rt ) ;
if ( ll <= mid ) update ( ls , ll , rr , key ) ;
if ( rr > mid ) update ( rs , ll , rr , key ) ;
pushup ( rt ) ; return ;
}
inline void query ( int rt , int ll , int rr ) {
int l = t[rt].left , r = t[rt].right ;
if ( ll <= l && r <= rr ) {
ans = max ( ans , t[rt].data ) ;
return ;
}
if ( t[rt].tag != 0 ) pushdown ( rt ) ;
if ( ll <= mid ) query ( ls , ll , rr ) ;
if ( rr > mid ) query ( rs , ll , rr ) ;
return ;
}
inline void uprange (int x , int y , int key) {
while ( top[x] != top[y] ) {
if ( deep[top[x]] < deep[top[y]] ) std::swap ( x , y ) ;
update ( 1 , idx[top[x]] , idx[x] , key ) ; x = f[top[x]] ;
}
if ( deep[x] > deep[y] ) std::swap ( x , y ) ;
update ( 1 , idx[x] , idx[y] , key ) ; return ;
}
int main () {
scanf ("%d%d" , & n , & k ) ;
for (int i = 1 ; i < n ; ++ i) {
register int u , v ;
scanf ("%d%d" , & u , & v ) ;
G[u].push_back ( v ) ;
G[v].push_back ( u ) ;
}
dfs ( 1 , 0 , 1 ) ; _dfs ( 1 , 1 ) ; build ( 1 , 1 , tot ) ;
while ( k -- ) {
register int u , v ;
scanf ("%d%d" , & u , & v ) ;
uprange ( u , v , 1 ) ;
}
ans = - 1 ; query ( 1 , idx[1] , idx[1] + siz[1] - 1 ) ;
printf ("%d\n" , ans ) ; system ("pause") ; return 0 ;
}