use std::collections::BTreeSet; pub mod utils { const DYX: [(isize, isize); 8] = [ (0, 1), (1, 0), (0, -1), (-1, 0), (1, 1), (-1, 1), (1, -1), (-1, -1), ]; pub fn try_adj(y: usize, x: usize, dir: usize, h: usize, w: usize) -> Option<(usize, usize)> { let ny = y as isize + DYX[dir].0; let nx = x as isize + DYX[dir].1; if ny >= 0 && nx >= 0 && ny < h as isize && nx < w as isize { Some((ny as usize, nx as usize)) } else { None } } } #[derive(Default)] /// NOTE /// declare variables to reduce the number of parameters for dp and dfs etc. pub struct Solver {} impl Solver { pub fn is_prime(&mut self, x: i64) -> bool { if x == 1 { return false; } for y in 2.. { if y * y > x { break; } if x % y == 0 { return false; } } true } pub fn solve(&mut self) { let stdin = std::io::stdin(); #[allow(unused_mut, unused_variables)] let mut scn = fastio::Scanner::new(stdin.lock()); let s = scn .chars() .into_iter() .map(|x| x.to_digit(10).expect("digit") as i64) .collect::>(); let n = s.len(); if n == 1 { let result = if self.is_prime(s[0]) { 1 } else { 0 }; println!("{}", result); return ; } let m = n-1; let mut results = vec![]; for bit in 0..1<> i & 1 != 0 { total += x; x = s[i + 1]; } else { x = 10 * x + s[i+1]; } } total += x; results.push(total); } let mut result = 0; results.into_iter().for_each(|x| { //cecho!(x, self.is_prime(x)); if self.is_prime(x) { result += 1; } }); println!("{}", result); } } pub mod fastio { use std::collections::VecDeque; use std::io::BufWriter; use std::io::Write; pub struct Writer { writer: std::io::BufWriter, } impl Writer { pub fn new(write: W) -> Writer { Writer { writer: BufWriter::new(write), } } pub fn flush(&mut self) { self.writer.flush().unwrap(); } pub fn write(&mut self, s: S) { self.writer.write(s.to_string().as_bytes()).unwrap(); } pub fn writeln(&mut self, s: S) { self.write(s); self.write('\n'); } } pub struct Scanner { stdin: R, buffer: VecDeque, } impl Scanner { pub fn new(s: R) -> Scanner { Scanner { stdin: s, buffer: VecDeque::new(), } } pub fn read(&mut self) -> T { while self.buffer.is_empty() { let line = self.read_line(); for w in line.split_whitespace() { self.buffer.push_back(String::from(w)); } } self.buffer.pop_front().unwrap().parse::().ok().unwrap() } pub fn read_line(&mut self) -> String { let mut line = String::new(); let _ = self.stdin.read_line(&mut line); line.trim_end().to_string() } pub fn vec(&mut self, n: usize) -> Vec { (0..n).map(|_| self.read()).collect() } pub fn chars(&mut self) -> Vec { self.read::().chars().collect() } } } pub mod macros { #[macro_export] #[allow(unused_macros)] macro_rules ! max {($ x : expr ) => ($ x ) ; ($ x : expr , $ ($ y : expr ) ,+ ) => {std :: cmp :: max ($ x , max ! ($ ($ y ) ,+ ) ) } } #[macro_export] #[allow(unused_macros)] macro_rules ! min {($ x : expr ) => ($ x ) ; ($ x : expr , $ ($ y : expr ) ,+ ) => {std :: cmp :: min ($ x , min ! ($ ($ y ) ,+ ) ) } } #[macro_export] #[allow(unused_macros)] /// Display a line of variables macro_rules ! echo {() => {{use std :: io :: {self , Write } ; writeln ! (io :: stderr () , "{}:" , line ! () ) . unwrap () ; } } ; ($ e : expr , $ ($ es : expr ) ,+ $ (, ) ? ) => {{use std :: io :: {self , Write } ; write ! (io :: stderr () , "{}:" , line ! () ) . unwrap () ; write ! (io :: stderr () , " {} = {:?}" , stringify ! ($ e ) , $ e ) . unwrap () ; $ (write ! (io :: stderr () , " {} = {:?}" , stringify ! ($ es ) , $ es ) . unwrap () ; ) + writeln ! (io :: stderr () ) . unwrap () ; } } ; ($ e : expr ) => {{use std :: io :: {self , Write } ; let result = $ e ; writeln ! (io :: stderr () , "{}: {} = {:?}" , line ! () , stringify ! ($ e ) , result ) . unwrap () ; result } } ; } #[macro_export] #[allow(unused_macros)] /// Display a line of variables with colors macro_rules ! cecho {() => {{use std :: io :: {self , Write } ; writeln ! (io :: stderr () , "\x1b[31;1m{}\x1b[m:" , line ! () ) . unwrap () ; } } ; ($ e : expr , $ ($ es : expr ) ,+ $ (, ) ? ) => {{use std :: io :: {self , Write } ; write ! (io :: stderr () , "\x1b[31;1m{}\x1b[m:" , line ! () ) . unwrap () ; write ! (io :: stderr () , " \x1b[92;1m{}\x1b[m = {:?}" , stringify ! ($ e ) , $ e ) . unwrap () ; $ (write ! (io :: stderr () , " \x1b[92;1m{}\x1b[m = {:?}" , stringify ! ($ es ) , $ es ) . unwrap () ; ) + writeln ! (io :: stderr () ) . unwrap () ; } } ; ($ e : expr ) => {{use std :: io :: {self , Write } ; let result = $ e ; writeln ! (io :: stderr () , "\x1b[31;1m{}\x1b[m: \x1b[92;1m{}\x1b[m = {:?}" , line ! () , stringify ! ($ e ) , result ) . unwrap () ; result } } ; } } fn main() { std::thread::Builder::new() .stack_size(64 * 1024 * 1024) .spawn(|| Solver::default().solve()) .unwrap() .join() .unwrap(); }