pub mod prime_factorization { pub fn prime_factorization(n: usize) -> std::collections::BTreeMap { let mut res = std::collections::BTreeMap::::new(); if n < 2 { return res; } let mut rem = n; { let mut i = 2; while i * i <= rem { while rem % i == 0 { *res.entry(i).or_insert(0) += 1; rem /= i; } i += 1; } } if rem > 1 { *res.entry(rem).or_insert(0) += 1; } res } pub fn divisors(n: usize) -> Vec { let mut res = vec![]; let mut i = 1; while i * i <= n { if n % i == 0 { res.push(i); let j = n / i; if i != j { res.push(j); } } i += 1; } res.sort(); res } } pub mod scanner { pub struct Scanner { buf: Vec, } impl Scanner { pub fn new() -> Self { Self { buf: vec![] } } pub fn new_from(source: &str) -> Self { let source = String::from(source); let buf = Self::split(source); Self { buf } } pub fn next(&mut self) -> T { loop { if let Some(x) = self.buf.pop() { return x.parse().ok().expect(""); } let mut source = String::new(); std::io::stdin().read_line(&mut source).expect(""); self.buf = Self::split(source); } } fn split(source: String) -> Vec { source .split_whitespace() .rev() .map(String::from) .collect::>() } } } use crate::{prime_factorization::prime_factorization, scanner::Scanner}; use std::io::Write; fn main() { let mut scanner = Scanner::new(); let out = std::io::stdout(); let mut out = std::io::BufWriter::new(out.lock()); let t: usize = 1; for _ in 0..t { solve(&mut scanner, &mut out); } } fn solve(scanner: &mut Scanner, out: &mut std::io::BufWriter) { let n: usize = scanner.next(); let pf = prime_factorization(n); if pf.len() <= 2 { writeln!(out, "Yes").unwrap(); } else { writeln!(out, "No").unwrap(); } }