D. Developing Game
题目连接:
http://www.codeforces.com/contest/377/problem/D
Description
Pavel is going to make a game of his dream. However, he knows that he can't make it on his own so he founded a development company and hired n workers of staff. Now he wants to pick n workers from the staff who will be directly responsible for developing a game.
Each worker has a certain skill level vi. Besides, each worker doesn't want to work with the one whose skill is very different. In other words, the i-th worker won't work with those whose skill is less than li, and with those whose skill is more than ri.
Pavel understands that the game of his dream isn't too hard to develop, so the worker with any skill will be equally useful. That's why he wants to pick a team of the maximum possible size. Help him pick such team.
Input
The first line contains a single integer n (1 ≤ n ≤ 105) — the number of workers Pavel hired.
Each of the following n lines contains three space-separated integers li, vi, ri (1 ≤ li ≤ vi ≤ ri ≤ 3·105) — the minimum skill value of the workers that the i-th worker can work with, the i-th worker's skill and the maximum skill value of the workers that the i-th worker can work with.
Output
In the first line print a single integer m — the number of workers Pavel must pick for developing the game.
In the next line print m space-separated integers — the numbers of the workers in any order.
If there are multiple optimal solutions, print any of them.
Sample Input
4
2 8 9
1 4 7
3 6 8
5 8 10
Sample Output
3
1 3 4
Hint
题意
有n个人,这个人的属性v,他可以接受能力值在[l,r]里面的人
你是一个老板,你需要雇佣尽量多的人,问你怎么去雇佣……
题解:
感觉是一个网络流的样子,其实不然
假设答案是[L,R]区间,把这个抽象成二维平面上的点
那么对于每一个人,我们可以看做是[l,v],[v,R]这么一个矩形,只要这个矩形包括了那个点
那么这个人就是可选的。
知道这个之后,这道题就是傻逼题了
就直接扫描线莽一波就好了
代码
#include <bits/stdc++.h>
using namespace std;
const int maxn = 3e5 + 15;
struct Point{
int l , r , idx;
Point ( int l , int r , int idx ) : l( l) , r(r) , idx(idx){}
};
vector < Point > add[maxn] , del[maxn];
pair < int , int > Base[maxn];
int N , V[maxn];
struct Sgtree{
struct node{
int l , r , maxv , lazy , maxr;
void Update( int x ){
lazy += x;
maxv += x;
}
}tree[maxn << 2];
void ReleaseLabel( int o ){
tree[o << 1].Update( tree[o].lazy);
tree[o << 1|1].Update(tree[o].lazy);
tree[o].lazy = 0;
}
void Maintain( int o ){
if( tree[o << 1].maxv > tree[o << 1 |1].maxv ) tree[o].maxr = tree[o << 1].maxr;
else tree[o].maxr = tree[o << 1 | 1].maxr;
tree[o].maxv = max( tree[o << 1].maxv , tree[o << 1 | 1].maxv );
}
void Modify( int ql , int qr , int v , int o){
int l = tree[o].l , r = tree[o].r;
if( ql <= l && r <= qr ) tree[o].Update( v );
else{
int mid = l + r >> 1;
ReleaseLabel( o );
if( ql <= mid ) Modify( ql , qr , v , o << 1 );
if( qr > mid ) Modify( ql , qr , v , o << 1 | 1 );
Maintain( o );
}
}
void Build( int l , int r , int o ){
tree[o].l = l , tree[o].r = r , tree[o].maxv = 0 , tree[o].maxr = r;
if( r > l ){
int mid = l + r >> 1;
Build( l , mid , o << 1 );
Build( mid + 1 , r , o << 1 | 1);
}
}
int ask( int ql , int qr , int o ){
int l = tree[o].l , r = tree[o].r;
if( ql <= l && r <= qr ) return tree[o].maxv;
else{
int mid = l + r >> 1 , rs = -1;
ReleaseLabel( o );
if( ql <= mid ) rs = max( rs , ask( ql , qr , o << 1) );
if( qr > mid ) rs = max( rs , ask( ql , qr , o << 1 | 1) );
Maintain( o );
return rs;
}
}
}Sgtree;
int main( int argc , char * argv[]){
Sgtree.Build(1 , 300000 , 1);
scanf("%d",&N);
for(int i = 1 ; i <= N ; ++ i){
int l , r , v;
scanf("%d%d%d",&l,&v,&r);
add[l].push_back(Point(v,r,i));
del[v].push_back(Point(v,r,i));
Base[i] = make_pair( l , r );
V[i] = v;
}
int mx = 0 , ansl = -1 , ansr = -1;
for(int i = 1 ; i <= 3e5 ; ++ i){
for(int j = 0 ; j < add[i].size() ; ++ j){
int l = add[i][j].l;
int r = add[i][j].r;
Sgtree.Modify( l , r , 1 , 1 );
}
int newmx = Sgtree.tree[1].maxv;
if( newmx > mx ){
mx = newmx , ansl = i , ansr = Sgtree.tree[1].maxr;
assert( Sgtree.ask( ansr , ansr , 1 ) == newmx );
}
for(int j = 0 ; j < del[i].size() ; ++ j){
int l = del[i][j].l;
int r = del[i][j].r;
Sgtree.Modify( l , r , -1 , 1 );
}
}
printf("%d\n" , mx );
vector < int > out;
for(int i = 1 ; i <= N ; ++ i)
if( Base[i].first <= ansl && Base[i].second >= ansr && V[i] <= ansr && V[i] >= ansl )
out.push_back( i );
for(int i = 0 ; i < out.size() ; ++ i) printf("%d " ,out[i]);
printf("\n");
return 0;
}