use proconio::{input, marker::Usize1, fastout}; // 2e5に収まるなら3、そうでないなら4。4だと手元で実行できないので注意 const TREELEVEL: usize = 4; #[derive(Clone, Debug)] pub struct Predecessor64{ d: Box<[[u64; 1<<((TREELEVEL-1)*6)]; TREELEVEL],> } impl Predecessor64 { pub fn new()->Self{ Predecessor64{ d: Box::from([[0; 1<<((TREELEVEL-1)*6)]; TREELEVEL]), } } #[inline(always)] pub fn is_empty(&self) -> bool { self.d[TREELEVEL-1][0]==0 } #[inline(always)] pub fn include(&self, p: usize) -> bool { self.d[0][p>>6]&1<<(p&63)!=0 } #[inline(always)] pub fn insert(&mut self, p: usize){ for i in 0..TREELEVEL{ if self.d[i][p>>(6*(i+1))]&1<<((p>>(6*i))&63)==0{ self.d[i][p>>(6*(i+1))] |= 1<<((p>>(6*i))&63); } else { return; } } } #[inline(always)] pub fn remove(&mut self, p: usize){ if self.d[0][p>>6]&1<<(p&63)==0{return;} for i in 0..TREELEVEL{ self.d[i][p>>(6*(i+1))] ^= 1<<((p>>(6*i))&63); if self.d[i][p>>(6*(i+1))]!=0{ return; } } } #[inline(always)] fn ml(r: usize)->u64{ (1<u64{ if l==63{return 0;} !((1<<(l+1))-1) } #[inline(always)] fn msb(bit: u64)->usize{ 63-bit.leading_zeros()as usize } #[inline(always)] fn lsb(bit: u64)->usize{ bit.trailing_zeros()as usize } //存在しないは!0 #[inline(always)] pub fn prev(&self, mut p: usize)->usize{ for i in 0..TREELEVEL{ if Self::ml(p&63)&self.d[i][p>>6]!=0{ let mut res = ((p>>6)<<6)|Self::msb(self.d[i][p>>6]&Self::ml(p&63)); for j in (0..i).rev(){ res = (res<<6)|Self::msb(self.d[j][res]); } return res; } p >>= 6; } !0 } #[inline(always)] pub fn next(&self, mut p: usize)->usize{ for i in 0..TREELEVEL{ if Self::mr(p&63)&self.d[i][p>>6]!=0{ let mut res = ((p>>6)<<6)|Self::lsb(self.d[i][p>>6]&Self::mr(p&63)); for j in (0..i).rev(){ res = (res<<6)|Self::lsb(self.d[j][res]); } return res; } p >>= 6; } !0 } #[inline(always)] pub fn inprev(&self, p: usize)->usize{ if self.include(p){p} else {self.prev(p)} } #[inline(always)] pub fn innext(&self, p: usize)->usize{ if self.include(p){p} else {self.next(p)} } #[inline(always)] pub fn min(&self)->usize{ self.innext(0) } #[inline(always)] pub fn max(&self)->usize{ self.inprev((1<>(); ord.sort_unstable_by(|&u, &v| (qs[u].0/div).cmp(&(qs[v].0/div)).then(if qs[u].0/div%2==0{ qs[u].1.cmp(&qs[v].1) } else { qs[v].1.cmp(&qs[u].1) })); let mut ans = vec![0; qs.len()]; let mut cnt = Predecessor64::new(); let mut res = Predecessor64::new(); let mut fr1 = vec![0; 1<<20]; let mut fr2 = vec![0; 1<<21]; let (mut l, mut r) = (0, 0); for idx in ord{ let (left, right) = (qs[idx].0, qs[idx].1); while r < right{ if query[r].0!=!0{ let (p, u, v) = query[r]; a[p] = v; if p < l{ remove(u, &mut fr1, &mut fr2, &mut cnt, &mut res); insert(v, &mut fr1, &mut fr2, &mut cnt, &mut res); } } r += 1; } while l > left{ l -= 1; remove(a[l], &mut fr1, &mut fr2, &mut cnt, &mut res); } while r > right{ r -= 1; if query[r].0!=!0{ let (p, u, v) = query[r]; a[p] = u; if p < l{ remove(v, &mut fr1, &mut fr2, &mut cnt, &mut res); insert(u, &mut fr1, &mut fr2, &mut cnt, &mut res); } } } while l < left{ insert(a[l], &mut fr1, &mut fr2, &mut cnt, &mut res); l += 1; } ans[idx] = res.min(); } for x in ans{ println!("{}", x); } } //#[fastout] fn main() { if MULTI{ input!{ t: usize, } for _ in 0..t{ solve(); } } else { solve(); } }