fn run(sc: &mut scanner::Scanner, out: &mut std::io::BufWriter) { let n: usize = sc.next(); let q: usize = sc.next(); let mut a: Vec = sc.next_vec(n); let k = 20; let size = 1 << k; let cond = std::cell::RefCell::new(vec![Map::new(); n]); let rmq = std::cell::RefCell::new(SegmentTreePURQ::new(n, size, |a, b| std::cmp::min(*a, *b))); let insert = |pos: usize, val: usize| { let cond = &mut cond.borrow_mut()[pos]; *cond.entry(val).or_insert(0) += 1; while let Some((&val, &c)) = cond.iter().next() { if c == 0 { cond.remove(&val); } else { rmq.borrow_mut().update(pos, val); break; } } }; let delete = |pos: usize, val: usize| { let cond = &mut cond.borrow_mut()[pos]; let po = cond.entry(val).or_insert(0); assert!(*po > 0); *po -= 1; while let Some((&val, &c)) = cond.iter().next() { if c == 0 { cond.remove(&val); } else { rmq.borrow_mut().update(pos, val); break; } } }; let seg = std::cell::RefCell::new(vec![(n, size); 2 * size]); let set = std::cell::RefCell::new(vec![Set::new(); size]); let seg_update = |x: usize, index: usize| { assert!(x < size); let mut seg = seg.borrow_mut(); let mut pos = size + x; while pos > 1 { pos /= 2; let (l, r) = (seg[2 * pos], seg[2 * pos + 1]); if l.0.max(r.0) < n { delete(l.0.max(r.0), l.1 ^ r.1); } } pos = size + x; seg[pos] = (index, x); while pos > 1 { pos /= 2; let (l, r) = (seg[2 * pos], seg[2 * pos + 1]); if l.0.max(r.0) < n { insert(l.0.max(r.0), l.1 ^ r.1); } seg[pos] = std::cmp::min(l, r); } }; let seg_insert = |a: usize, index: usize| { assert!(a < size); let set = &mut set.borrow_mut()[a]; if let Some(&x) = set.iter().nth(1) { delete(x, 0); } set.insert(index); seg_update(a, *set.iter().next().unwrap()); if let Some(&x) = set.iter().nth(1) { insert(x, 0); } }; let seg_delete = |a: usize, index: usize| { assert!(a < size); let set = &mut set.borrow_mut()[a]; if let Some(&x) = set.iter().nth(1) { delete(x, 0); } set.remove(&index); seg_update(a, set.iter().next().map_or(n, |p| *p)); if let Some(&x) = set.iter().nth(1) { insert(x, 0); } }; for (i, &a) in a.iter().enumerate() { seg_insert(a, i); } for _ in 0..q { let op = sc.next::(); if op == 1 { let i = sc.next::() - 1; let x = sc.next::(); seg_delete(a[i], i); a[i] = x; seg_insert(a[i], i); } else { let r = sc.next::(); let ans = rmq.borrow().find(0, r); writeln!(out, "{}", ans).ok(); } } } // ---------- begin scannner ---------- #[allow(dead_code)] mod scanner { use std::str::FromStr; pub struct Scanner<'a> { it: std::str::SplitWhitespace<'a>, } impl<'a> Scanner<'a> { pub fn new(s: &'a String) -> Scanner<'a> { Scanner { it: s.split_whitespace(), } } pub fn next(&mut self) -> T { self.it.next().unwrap().parse::().ok().unwrap() } pub fn next_bytes(&mut self) -> Vec { self.it.next().unwrap().bytes().collect() } pub fn next_chars(&mut self) -> Vec { self.it.next().unwrap().chars().collect() } pub fn next_vec(&mut self, len: usize) -> Vec { (0..len).map(|_| self.next()).collect() } } } // ---------- end scannner ---------- use std::io::Write; use std::collections::*; type Map = BTreeMap; type Set = BTreeSet; type Deque = VecDeque; fn main() { use std::io::Read; let mut s = String::new(); std::io::stdin().read_to_string(&mut s).unwrap(); let mut sc = scanner::Scanner::new(&s); let out = std::io::stdout(); let mut out = std::io::BufWriter::new(out.lock()); run(&mut sc, &mut out); } // ---------- begin segment tree Point Update Range Query ---------- pub struct SegmentTreePURQ { n: usize, size: usize, data: Vec, e: T, op: F, } impl SegmentTreePURQ where T: Clone, F: Fn(&T, &T) -> T, { pub fn new(n: usize, e: T, op: F) -> Self { assert!(n > 0); let size = n.next_power_of_two(); let data = vec![e.clone(); 2 * size]; SegmentTreePURQ { n, size, data, e, op, } } pub fn update_tmp(&mut self, x: usize, v: T) { assert!(x < self.n); self.data[x + self.size] = v; } pub fn update_all(&mut self) { for i in (1..self.size).rev() { self.data[i] = (self.op)(&self.data[2 * i], &self.data[2 * i + 1]); } } pub fn update(&mut self, x: usize, v: T) { assert!(x < self.n); let mut x = x + self.size; self.data[x] = v; x >>= 1; while x > 0 { self.data[x] = (self.op)(&self.data[2 * x], &self.data[2 * x + 1]); x >>= 1; } } pub fn find(&self, l: usize, r: usize) -> T { assert!(l <= r && r <= self.n); if l == r { return self.e.clone(); } let mut l = self.size + l; let mut r = self.size + r; let mut x = self.e.clone(); let mut y = self.e.clone(); while l < r { if l & 1 == 1 { x = (self.op)(&x, &self.data[l]); l += 1; } if r & 1 == 1 { r -= 1; y = (self.op)(&self.data[r], &y); } l >>= 1; r >>= 1; } (self.op)(&x, &y) } pub fn max_right

(&self, l: usize, f: P) -> usize where P: Fn(&T) -> bool, { assert!(l <= self.n); assert!(f(&self.e)); if l == self.n { return self.n; } let mut l = l + self.size; let mut sum = self.e.clone(); while { l >>= l.trailing_zeros(); let v = (self.op)(&sum, &self.data[l]); if !f(&v) { while l < self.size { l <<= 1; let v = (self.op)(&sum, &self.data[l]); if f(&v) { sum = v; l += 1; } } return l - self.size; } sum = v; l += 1; l.count_ones() > 1 } {} self.n } pub fn min_left

(&self, r: usize, f: P) -> usize where P: Fn(&T) -> bool, { assert!(r <= self.n); assert!(f(&self.e)); if r == 0 { return 0; } let mut r = r + self.size; let mut sum = self.e.clone(); while { r -= 1; while r > 1 && r & 1 == 1 { r >>= 1; } let v = (self.op)(&self.data[r], &sum); if !f(&v) { while r < self.size { r = 2 * r + 1; let v = (self.op)(&self.data[r], &sum); if f(&v) { sum = v; r -= 1; } } return r + 1 - self.size; } sum = v; (r & (!r + 1)) != r } {} 0 } } // ---------- end segment tree Point Update Range Query ----------