#[doc = " https://github.com/hatoo/competitive-rust-snippets"] #[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::io::{stdin, stdout, BufWriter, Write}; #[allow(unused_imports)] use std::iter::FromIterator; mod util { use std::fmt::Debug; use std::io::{stdin, stdout, BufWriter, StdoutLock}; use std::str::FromStr; #[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 chars() -> Vec { line().chars().collect() } #[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(dead_code)] pub fn with_bufwriter) -> ()>(f: F) { let out = stdout(); let writer = BufWriter::new(out.lock()); f(writer) } } #[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 < _ >> ( ) } } ; ( $ t : ty ;; $ n : expr ) => { ( 0 ..$ n ) . map ( | _ | get ! ( $ t ;; ) ) . collect ::< Vec < _ >> ( ) } ; } #[allow(unused_macros)] macro_rules ! debug { ( $ ( $ a : expr ) ,* ) => { eprintln ! ( concat ! ( $ ( stringify ! ( $ a ) , " = {:?}, " ) ,* ) , $ ( $ a ) ,* ) ; } } const BIG_STACK_SIZE: bool = true; #[allow(dead_code)] fn main() { use std::thread; if BIG_STACK_SIZE { thread::Builder::new() .stack_size(32 * 1024 * 1024) .name("solve".into()) .spawn(solve) .unwrap() .join() .unwrap(); } else { solve(); } } #[doc = " Ported from [bluss/permutohedron](https://github.com/bluss/permutohedron)"] pub trait LexicalPermutation { #[doc = " at the last ordered permutation."] fn next_permutation(&mut self) -> bool; #[doc = " Return \\`true\\` if the slice was permuted, \\`false\\` if it is already"] #[doc = " at the first ordered permutation."] fn prev_permutation(&mut self) -> bool; } impl LexicalPermutation for [T] where T: Ord, { #[doc = " Original author in Rust: Thomas Backman "] fn next_permutation(&mut self) -> bool { if self.len() < 2 { return false; } let mut i = self.len() - 1; while i > 0 && self[i - 1] >= self[i] { i -= 1; } if i == 0 { return false; } let mut j = self.len() - 1; while j >= i && self[j] <= self[i - 1] { j -= 1; } self.swap(j, i - 1); self[i..].reverse(); true } fn prev_permutation(&mut self) -> bool { if self.len() < 2 { return false; } let mut i = self.len() - 1; while i > 0 && self[i - 1] <= self[i] { i -= 1; } if i == 0 { return false; } self[i..].reverse(); let mut j = self.len() - 1; while j >= i && self[j - 1] < self[i - 1] { j -= 1; } self.swap(i - 1, j); true } } fn solve() { let n = get!(usize); let xs = get!(u64;;); let mut perm = Vec::new(); for i in 0..n { perm.push(i / 2); } let mut ans = 0; while { let mut t = vec![None; n / 2]; for i in 0..n { if let Some(x) = t[perm[i]] { t[perm[i]] = Some(x ^ xs[i]); } else { t[perm[i]] = Some(xs[i]); } } let a = t.into_iter().map(|w| w.unwrap()).sum::(); ans = max(ans, a); perm.next_permutation() } {} println!("{}", ans); }