#include "teams.h"
#include <bits/stdc++.h>
#define REP(v, i, j) for (long long v = i; v != j; v++)
#define FORI(v) for (auto i : v)
#define FORJ(v) for (auto j : v)
#define OUT(v, a) \
FORI(v) \
cout << i << a;
#define OUTS(v, a, b) \
cout << v.size() << a; \
OUT(v, b)
#define in(a, n) \
REP(i, 0, n) \
cin >> a[i];
#define SORT(v) sort(begin(v), end(v))
#define REV(v) reverse(begin(v), end(v))
#define MEMSET(m) memset(m, -1, sizeof m)
#define pb push_back
#define fi first
#define se second
#define detachIO \
ios_base::sync_with_stdio(false); \
cin.tie(0); \
cout.tie(0);
using namespace std;
template<typename _Tp, typename _Alloc = std::allocator<_Tp> >
bool operator==(const vector<_Tp, _Alloc>& __x, const vector<_Tp, _Alloc>& __y) {
if(__x.size() != __y.size()) return false;
return std::equal(__x.begin(), __x.end(), __y.begin());
}
typedef pair<long long, long long> pii;
typedef pair<pii, long long> piii;
typedef pair<pii, pii> piiii;
struct segment_tree {
struct node {
long long lmin=0;
long long rmin=0;
long long min =0;
long long sum =0;
long long lpas=0;
long long rpas=0;
bool operator==(const node &n){
return (n.lmin == this->lmin) &&
(n.rmin == this->rmin) &&
(n.min == this->min ) &&
(n.sum == this->sum ) &&
(n.lpas == this->lpas) &&
(n.rpas == this->rpas);
};
};
node e;
node merge(node a, node b){
if(a==e)return b;
if(b==e)return a;
node c;
assert(a.rpas == b.lpas);
c.lmin = min(a.lmin, a.sum+b.lmin-a.rpas);
c.rmin = min(b.rmin, b.sum+a.rmin-b.lpas);
c.lpas = a.lpas;
c.rpas = b.rpas;
c.sum = a.sum + b.sum - a.rpas;
c.min = min(min(min(a.min,b.min),a.rmin + b.lmin - a.rpas),min(min(a.rmin,a.lmin),min(b.rmin,b.lmin)));
return c;
}
vector<node> seg;
vector<long long> laz;
segment_tree(long long n){
seg.resize(4*n+20,e);
laz.resize(4*n+20,0);
}
void propogate(long long node){
seg[node*2+1].lmin+=laz[node];
seg[node*2+1].rmin+=laz[node];
seg[node*2+1].min +=laz[node];
seg[node*2+1].sum +=laz[node];
seg[node*2+1].lpas+=laz[node];
seg[node*2+1].rpas+=laz[node];
seg[node*2+2].lmin+=laz[node];
seg[node*2+2].rmin+=laz[node];
seg[node*2+2].min +=laz[node];
seg[node*2+2].sum +=laz[node];
seg[node*2+2].lpas+=laz[node];
seg[node*2+2].rpas+=laz[node];
laz[node*2+1]+=laz[node];
laz[node*2+2]+=laz[node];
laz[node]=0;
}
void add_student(long long node, long long l, long long r, long long ql, long long qr){
if(ql > r)return;
if(qr < l)return;
if(ql < l && r < qr){
laz[node]++;
seg[node].lmin++;
seg[node].rmin++;
seg[node].min ++;
seg[node].sum ++;
seg[node].lpas++;
seg[node].rpas++;
return;
}
if(l == r){
seg[node].lmin++;
seg[node].rmin++;
seg[node].min ++;
seg[node].sum ++;
if(l!=ql)seg[node].lpas++;
if(r!=qr)seg[node].rpas++;
return;
}
propogate(node);
add_student(node*2+1,l,(l+r)/2,ql,qr);
add_student(node*2+2,(l+r)/2 + 1,r,ql,qr);
seg[node]=merge(seg[node*2+1],seg[node*2+2]);
}
void update(long long node, long long l, long long r, long long pos, long long v){
if(l > pos)return;
if(pos > r)return;
if(l==r){
seg[node].lmin+=v;
seg[node].rmin+=v;
seg[node].min +=v;
seg[node].sum +=v;
return;
}
propogate(node);
update(node*2+1,l,(l+r)/2,pos,v);
update(node*2+2,(l+r)/2 + 1,r,pos,v);
seg[node]=merge(seg[node*2+1],seg[node*2+2]);
}
node query(long long node, long long l, long long r, long long ql, long long qr){
if(ql > r)return e;
if(qr < l)return e;
if(ql <= l && r <= qr){
return seg[node];
}
return merge(query(node*2+1,l,(l+r)/2,ql,qr),query(node*2+2,(l+r)/2 + 1,r,ql,qr));
}
};
long long N;
segment_tree tree(0);
void init(signed N, signed A[], signed B[]) {
::N = N;
segment_tree segtree(N);
tree=segtree;
REP(i,0,N){
tree.add_student(0,0,N,A[i],B[i]);
}
}
signed can(signed M, signed K[]) {
REP(i,0,M){
tree.update(0,0,N,K[i],-K[i]);
}
bool can=tree.query(0,0,N,0,N).min >= 0;
REP(i,0,M){
tree.update(0,0,N,K[i],K[i]);
}
return can;
}
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