#[allow(unused_imports)] use std::cmp::{max, min, Ordering}; #[allow(unused_imports)] use std::collections::{BTreeMap, BTreeSet, BinaryHeap, HashMap, HashSet, VecDeque}; #[allow(unused_imports)] use std::iter::FromIterator; #[allow(unused_imports)] use std::io::stdin; mod util { use std::io::stdin; use std::str::FromStr; use std::fmt::Debug; #[allow(dead_code)] pub fn line() -> String { let mut line: String = String::new(); stdin().read_line(&mut line).unwrap(); line.trim().to_string() } #[allow(dead_code)] pub fn gets() -> Vec where ::Err: Debug, { let mut line: String = String::new(); stdin().read_line(&mut line).unwrap(); line.split_whitespace() .map(|t| t.parse().unwrap()) .collect() } } #[allow(unused_macros)] macro_rules ! get { ( $ t : ty ) => { { let mut line : String = String :: new ( ) ; stdin ( ) . read_line ( & mut line ) . unwrap ( ) ; line . trim ( ) . parse ::<$ t > ( ) . unwrap ( ) } } ; ( $ ( $ t : ty ) ,* ) => { { let mut line : String = String :: new ( ) ; stdin ( ) . read_line ( & mut line ) . unwrap ( ) ; let mut iter = line . split_whitespace ( ) ; ( $ ( iter . next ( ) . unwrap ( ) . parse ::<$ t > ( ) . unwrap ( ) , ) * ) } } ; ( $ t : ty ; $ n : expr ) => { ( 0 ..$ n ) . map ( | _ | get ! ( $ t ) ) . collect ::< Vec < _ >> ( ) } ; ( $ ( $ t : ty ) ,*; $ n : expr ) => { ( 0 ..$ n ) . map ( | _ | get ! ( $ ( $ t ) ,* ) ) . collect ::< Vec < _ >> ( ) } ; ( $ t : ty ;; ) => { { let mut line : String = String :: new ( ) ; stdin ( ) . read_line ( & mut line ) . unwrap ( ) ; line . split_whitespace ( ) . map ( | t | t . parse ::<$ t > ( ) . unwrap ( ) ) . collect ::< Vec < _ >> ( ) } } ; } #[allow(unused_macros)] macro_rules ! debug { ( $ ( $ a : expr ) ,* ) => { println ! ( concat ! ( $ ( stringify ! ( $ a ) , " = {:?}, " ) ,* ) , $ ( $ a ) ,* ) ; } } struct Bucket { buf: Vec, // (delta, maximum) parent: Vec<(u64, u64)>, sqrt: usize, } impl Bucket { fn new(size: usize) -> Bucket { let sqrt = (1..).find(|x| x * x >= size).unwrap(); Bucket { buf: vec![0; sqrt * sqrt], parent: vec![(0, 0); sqrt], sqrt: sqrt, } } fn p(&mut self, i: usize) -> &mut (u64, u64) { &mut self.parent[i / self.sqrt] } fn set(&mut self, i: usize, x: u64) { self.buf[i] = x; let prev_max = self.p(i).1; self.p(i).1 = max(prev_max, x); } // (left cut, middle, right_cut) fn ranges( &self, l: usize, r: usize, ) -> ( std::ops::Range, std::ops::Range, std::ops::Range, ) { if l / self.sqrt == r / self.sqrt { return (l..r, 0..0, 0..0); } let left = l..min((l + self.sqrt - 1) / self.sqrt * self.sqrt, r); let mid = (l + self.sqrt - 1) / self.sqrt..r / self.sqrt; let right = r / self.sqrt * self.sqrt..r; (left, mid, right) } fn range_add(&mut self, l: usize, r: usize, delta: u64) { let (left, mid, right) = self.ranges(l, r); for i in left.chain(right) { self.buf[i] += delta; self.p(i).1 = max(self.buf[i] + self.p(i).0, self.p(i).1); } for i in mid { self.parent[i].0 += delta; self.parent[i].1 += delta; } } fn range_max(&mut self, l: usize, r: usize) -> u64 { let (left, mid, right) = self.ranges(l, r); let mut res = 0; for i in left.chain(right) { res = max(res, self.buf[i] + self.p(i).0); } for i in mid { res = max(res, self.parent[i].1); } res } } fn main() { let n = get!(usize); let ts = get!(u64;;); let m = get!(usize); let lrd = get!(usize, usize, u64; m); let mut bucket = Bucket::new(n); for (i, &t) in ts.iter().enumerate() { bucket.set(i, t + 3 * (n - i - 1) as u64); } for &(l, r, d) in &lrd { bucket.range_add(l - 1, r, d); println!("{}", bucket.range_max(0, n)); } }