const INF: isize = 1isize << 60; #[derive(Debug, Clone)] struct LazySegmentTree { n: usize, orgn: usize, unit: T, mem: Vec, lazy_unit: U, lazy: Vec, operator: F, mapper: G, composer: H, } impl LazySegmentTree where T: std::fmt::Debug + Copy, U: std::fmt::Debug + std::cmp::PartialEq + Copy, F: Fn(T, T) -> T, G: Fn(T, U) -> T, H: Fn(U, U) -> U, { fn new(n: usize, unit: T, lazy_unit: U, operator: F, mapper: G, composer: H) -> Self { let mut size = 1usize; while size < n { size *= 2; } Self { n: size, orgn: n, unit: unit, mem: vec![unit; size*2-1], lazy_unit: lazy_unit, lazy: vec![lazy_unit; size*2-1], operator: operator, mapper: mapper, composer: composer, } } fn find_closed(&mut self, l: usize, r: usize) -> T { self.find(l, r+1) } fn find(&mut self, l: usize, r: usize) -> T { self._find(l, r, 0, 0, self.n) } fn update_closed(&mut self, left: usize, right: usize, val: U) { self.update(left, right+1, val); } fn update(&mut self, left: usize, right: usize, val: U) { self._update(left, right, val, 0, 0, self.n); } fn get(&mut self, pos: usize) -> T { self.find_closed(pos, pos) } fn _evaluate(&mut self, k: usize) { if self.lazy[k] == self.lazy_unit { return; } if k < self.n-1 { let left = self._left(k); let right = self._right(k); self.lazy[left] = (self.composer)(self.lazy[left], self.lazy[k]); self.lazy[right] = (self.composer)(self.lazy[right], self.lazy[k]); } self.mem[k] = (self.mapper)(self.mem[k], self.lazy[k]); self.lazy[k] = self.lazy_unit; } fn _find(&mut self, a: usize, b: usize, nodenum: usize, l: usize, r: usize) -> T { self._evaluate(nodenum); if r <= a || b <= l { self.unit } else if a <= l && r <= b { self.mem[nodenum] } else { let left = self._find(a, b, self._left(nodenum), l, (l+r)/2); let right = self._find(a, b, self._right(nodenum), (l+r)/2, r); (self.operator)(left, right) } } fn _update(&mut self, a: usize, b: usize, x: U, nodenum: usize, l: usize, r: usize) { self._evaluate(nodenum); if a <= l && r <= b { self.lazy[nodenum] = (self.composer)(self.lazy[nodenum], x); self._evaluate(nodenum); } else if a < r && l < b { self._update(a, b, x, self._left(nodenum), l, (l + r) / 2); self._update(a, b, x, self._right(nodenum), (l + r) / 2, r); self.mem[nodenum] = (self.operator)(self.mem[self._left(nodenum)], self.mem[self._right(nodenum)]); } } fn _left(&self, k: usize) -> usize { 2*k+1 } fn _right(&self, k: usize) -> usize { 2*k+2 } fn _parent(&self, k: usize) -> usize { (k-1)/2 } } fn main() { let mut n = String::new(); std::io::stdin().read_line(&mut n).ok(); let n: usize = n.trim().parse().unwrap(); let mut a = String::new(); std::io::stdin().read_line(&mut a).ok(); let a: Vec = a.trim().split_whitespace().map(|s| s.parse().unwrap()).collect(); let mut q = String::new(); std::io::stdin().read_line(&mut q).ok(); let q: usize = q.trim().parse().unwrap(); let queries = (0..q).map(|_| { let mut temp = String::new(); std::io::stdin().read_line(&mut temp).ok(); let temp: Vec = temp.trim().split_whitespace().map(|s| s.parse().unwrap()).collect(); (temp[0], temp[1] as usize - 1, temp[2] as usize - 1, temp[3]) }) .collect::>(); let operator = |x: isize, y: isize| x.min(y); let mapper = |x, y| if x == INF { y } else { x+y }; let composer = |x, y| x+y; let mut segtree = LazySegmentTree::new(n, INF, 0isize, operator, mapper, composer); for i in 0..n { segtree.update_closed(i, i, a[i]); } for &(k, l, r, c) in queries.iter() { if k == 1 { segtree.update_closed(l, r, c); } else { println!("{}", segtree.find_closed(l, r)); } } }