結果
問題 | No.1529 Constant Lcm |
ユーザー | Moss_Local |
提出日時 | 2021-06-04 20:32:51 |
言語 | Rust (1.77.0 + proconio) |
結果 |
WA
|
実行時間 | - |
コード長 | 15,501 bytes |
コンパイル時間 | 11,597 ms |
コンパイル使用メモリ | 382,996 KB |
実行使用メモリ | 20,804 KB |
最終ジャッジ日時 | 2024-11-19 09:30:10 |
合計ジャッジ時間 | 68,015 ms |
ジャッジサーバーID (参考情報) |
judge1 / judge2 |
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テストケース
テストケース表示入力 | 結果 | 実行時間 実行使用メモリ |
---|---|---|
testcase_00 | WA | - |
testcase_01 | AC | 2 ms
13,632 KB |
testcase_02 | AC | 1 ms
11,044 KB |
testcase_03 | WA | - |
testcase_04 | WA | - |
testcase_05 | AC | 1 ms
12,964 KB |
testcase_06 | WA | - |
testcase_07 | WA | - |
testcase_08 | WA | - |
testcase_09 | WA | - |
testcase_10 | TLE | - |
testcase_11 | TLE | - |
testcase_12 | AC | 20 ms
13,636 KB |
testcase_13 | TLE | - |
testcase_14 | TLE | - |
testcase_15 | TLE | - |
testcase_16 | TLE | - |
testcase_17 | AC | 1,588 ms
6,816 KB |
testcase_18 | AC | 1,927 ms
13,640 KB |
testcase_19 | TLE | - |
testcase_20 | TLE | - |
testcase_21 | TLE | - |
testcase_22 | TLE | - |
testcase_23 | TLE | - |
testcase_24 | TLE | - |
testcase_25 | TLE | - |
コンパイルメッセージ
warning: unnecessary parentheses around type --> src/main.rs:66:15 | 66 | fn readi() -> (i64) { | ^ ^ | = note: `#[warn(unused_parens)]` on by default help: remove these parentheses | 66 - fn readi() -> (i64) { 66 + fn readi() -> i64 { | warning: unused variable: `a2` --> src/main.rs:450:14 | 450 | let (a2, e2) = mod_fact(k, p, fact); | ^^ help: if this is intentional, prefix it with an underscore: `_a2` | = note: `#[warn(unused_variables)]` on by default warning: unused variable: `a2` --> src/main.rs:498:18 | 498 | let (a2, e2) = mod_fact(k, p, &self.f_table); | ^^ help: if this is intentional, prefix it with an underscore: `_a2` warning: unused variable: `res` --> src/main.rs:593:13 | 593 | let mut res = 1; | ^^^ help: if this is intentional, prefix it with an underscore: `_res` warning: variable does not need to be mutable --> src/main.rs:593:9 | 593 | let mut res = 1; | ----^^^ | | | help: remove this `mut` | = note: `#[warn(unused_mut)]` on by default
ソースコード
// -*- coding:utf-8-unix -*- // #![feature(map_first_last)] #![allow(dead_code)] #![allow(unused_imports)] #![allow(unused_macros)] use std::collections::*; use std::convert::*; use std::convert::{From, Into}; use std::fmt::Debug; use std::fs::File; use std::io::prelude::*; use std::io::*; use std::marker::Copy; use std::mem::*; use std::ops::Bound::*; use std::ops::{Add, Mul, Neg, Sub}; use std::str; use std::vec; use std::{cmp, process::Output}; use std::{cmp::Ordering, env::consts::DLL_PREFIX}; use std::{cmp::Ordering::*, f32::consts::PI}; const INF: i64 = 1223372036854775807; const UINF: usize = INF as usize; const FINF: f64 = 122337203685.0; const INF128: i128 = 1223372036854775807000000000000; const LINF: i64 = 2147483647; // const MOD: i64 = 1000000007; const MOD: i64 = 998244353; // const MOD: i64 = INF; const UMOD: usize = MOD as usize; use std::cmp::*; use std::collections::*; use std::io::stdin; use std::io::stdout; use std::io::Write; macro_rules! p { ($x:expr) => { println!("{}", $x); }; } macro_rules! d { ($x:expr) => { println!("{:?}", $x); }; } macro_rules! dd { (x:expr) => { dbg!(x); }; } // use str::Chars; // use str::Chars; #[allow(dead_code)] fn read<T: std::str::FromStr>() -> T { let mut s = String::new(); std::io::stdin().read_line(&mut s).ok(); s.trim().parse().ok().unwrap() } #[allow(dead_code)] fn readi() -> (i64) { let mut str = String::new(); let _ = stdin().read_line(&mut str).unwrap(); let mut iter = str.split_whitespace(); iter.next().unwrap().parse::<i64>().unwrap() } #[allow(dead_code)] fn read_vec<T: std::str::FromStr>() -> Vec<T> { read::<String>() .split_whitespace() .map(|e| e.parse().ok().unwrap()) .collect() } #[allow(dead_code)] fn read_vec2<T: std::str::FromStr>(n: u32) -> Vec<Vec<T>> { (0..n).map(|_| read_vec()).collect() } #[allow(dead_code)] fn readii() -> (i64, i64) { let mut str = String::new(); let _ = stdin().read_line(&mut str).unwrap(); let mut iter = str.split_whitespace(); ( iter.next().unwrap().parse::<i64>().unwrap(), iter.next().unwrap().parse::<i64>().unwrap(), ) } fn readff() -> (f64, f64) { let mut str = String::new(); let _ = stdin().read_line(&mut str).unwrap(); let mut iter = str.split_whitespace(); ( iter.next().unwrap().parse::<f64>().unwrap(), iter.next().unwrap().parse::<f64>().unwrap(), ) } #[allow(dead_code)] fn readiii() -> (i64, i64, i64) { let mut str = String::new(); let _ = stdin().read_line(&mut str).unwrap(); let mut iter = str.split_whitespace(); ( iter.next().unwrap().parse::<i64>().unwrap(), iter.next().unwrap().parse::<i64>().unwrap(), iter.next().unwrap().parse::<i64>().unwrap(), ) } #[allow(dead_code)] fn readuu() -> (usize, usize) { let mut str = String::new(); let _ = stdin().read_line(&mut str).unwrap(); let mut iter = str.split_whitespace(); ( iter.next().unwrap().parse::<usize>().unwrap(), iter.next().unwrap().parse::<usize>().unwrap(), ) } fn readcc() -> (char, char) { let mut str = String::new(); let _ = stdin().read_line(&mut str).unwrap(); let mut iter = str.split_whitespace(); ( iter.next().unwrap().parse::<char>().unwrap(), iter.next().unwrap().parse::<char>().unwrap(), ) } #[allow(dead_code)] fn readuuu() -> (usize, usize, usize) { let mut str = String::new(); let _ = stdin().read_line(&mut str).unwrap(); let mut iter = str.split_whitespace(); ( iter.next().unwrap().parse::<usize>().unwrap(), iter.next().unwrap().parse::<usize>().unwrap(), iter.next().unwrap().parse::<usize>().unwrap(), ) } #[allow(dead_code)] fn readuuuu() -> (usize, usize, usize, usize) { let mut str = String::new(); let _ = stdin().read_line(&mut str).unwrap(); let mut iter = str.split_whitespace(); ( iter.next().unwrap().parse::<usize>().unwrap(), iter.next().unwrap().parse::<usize>().unwrap(), iter.next().unwrap().parse::<usize>().unwrap(), iter.next().unwrap().parse::<usize>().unwrap(), ) } fn readiiii() -> (i64, i64, i64, i64) { let mut str = String::new(); let _ = stdin().read_line(&mut str).unwrap(); let mut iter = str.split_whitespace(); ( iter.next().unwrap().parse::<i64>().unwrap(), iter.next().unwrap().parse::<i64>().unwrap(), iter.next().unwrap().parse::<i64>().unwrap(), iter.next().unwrap().parse::<i64>().unwrap(), ) } macro_rules! M { (a :expr ) => { M::new({ a }) }; } #[derive(Copy, Clone)] pub struct M(i64); impl M { fn new(x: i64) -> Self { M(x.rem_euclid(MOD)) } fn pow(self, n: usize) -> Self { match n { 0 => M::new(1), _ => { let mut a = self.pow(n >> 1); a *= a; if n & 1 == 1 { a *= self; } a } } } fn inv(self) -> Self { self.pow((MOD - 2) as usize) } } impl std::ops::Neg for M { type Output = M; fn neg(self) -> Self::Output { Self::new(-self.0) } } impl std::ops::AddAssign<M> for M { fn add_assign(&mut self, rhs: Self) { self.0 += rhs.0; self.0 %= MOD; } } impl std::ops::AddAssign<i64> for M { fn add_assign(&mut self, rhs: i64) { *self += M::new(rhs); } } impl std::ops::AddAssign<usize> for M { fn add_assign(&mut self, rhs: usize) { *self += M::new(rhs as i64); } } impl<T> std::ops::Add<T> for M where M: std::ops::AddAssign<T>, { type Output = Self; fn add(self, other: T) -> Self { let mut res = self; res += other; res } } impl std::ops::SubAssign<M> for M { fn sub_assign(&mut self, rhs: Self) { self.0 -= rhs.0; if self.0 < 0 { self.0 += MOD; } } } impl std::ops::SubAssign<i64> for M { fn sub_assign(&mut self, rhs: i64) { *self -= M::new(rhs); if (*self).0 < 0 { self.0 += MOD; } } } impl std::ops::SubAssign<usize> for M { fn sub_assign(&mut self, rhs: usize) { *self -= M::new(rhs as i64); if (*self).0 < 0 { self.0 += MOD; } } } impl<T> std::ops::Sub<T> for M where M: std::ops::SubAssign<T>, { type Output = Self; fn sub(self, other: T) -> Self { let mut res = self; res -= other; res } } impl std::ops::MulAssign<M> for M { fn mul_assign(&mut self, rhs: Self) { self.0 *= rhs.0; self.0 %= MOD; } } impl std::ops::MulAssign<i64> for M { fn mul_assign(&mut self, rhs: i64) { *self *= M::new(rhs); } } impl std::ops::MulAssign<usize> for M { fn mul_assign(&mut self, rhs: usize) { *self *= M::new(rhs as i64); } } impl<T> std::ops::Mul<T> for M where M: std::ops::MulAssign<T>, { type Output = Self; fn mul(self, other: T) -> Self { let mut res = self; res *= other; res } } impl std::ops::DivAssign<M> for M { fn div_assign(&mut self, rhs: Self) { *self *= rhs.inv(); } } impl std::ops::DivAssign<i64> for M { fn div_assign(&mut self, rhs: i64) { *self /= M::new(rhs); } } impl std::ops::DivAssign<usize> for M { fn div_assign(&mut self, rhs: usize) { *self /= M::new(rhs as i64); } } impl<T> std::ops::Div<T> for M where M: std::ops::DivAssign<T>, { type Output = Self; fn div(self, other: T) -> Self { let mut res = self; res /= other; res } } impl std::fmt::Display for M { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { write!(f, "{}", self.0) } } impl std::ops::Deref for M { type Target = i64; fn deref(&self) -> &Self::Target { &self.0 } } impl std::ops::DerefMut for M { fn deref_mut(&mut self) -> &mut Self::Target { &mut self.0 } } #[allow(dead_code)] pub fn gcd(a: usize, b: usize) -> usize { if b == 0 { a } else { gcd(b, a % b) } } #[allow(dead_code)] pub fn lcm(a: usize, b: usize) -> usize { a / gcd(a, b) * b } #[allow(dead_code)] /// (gcd, x, y) pub fn extgcd(a: i64, b: i64) -> (i64, i64, i64) { if b == 0 { (a, 1, 0) } else { let (gcd, x, y) = extgcd(b, a % b); (gcd, y, x - (a / b) * y) } } #[allow(dead_code)] /// x ^ n % m pub fn mod_pow(x: usize, n: usize, m: usize) -> usize { let mut res = 1; let mut x = x % m; let mut n = n; while n > 0 { if n & 1 == 1 { res = (res * x) % m; } x = (x * x) % m; n >>= 1; } res } #[allow(dead_code)] pub fn mod_inverse(a: usize, m: usize) -> usize { let (_, x, _) = extgcd(a as i64, m as i64); ((m as i64 + x) as usize % m) % m } #[allow(dead_code)] pub fn fact_table(len: usize, m: usize) -> Vec<usize> { let mut res = vec![1; len + 1]; for i in 1..len + 1 { res[i] = (i as usize * res[i - 1]) % m; } res } #[allow(dead_code)] /// Factorial and Inverse factorial table pub fn fact_inv_table(size: usize, m: usize) -> (Vec<usize>, Vec<usize>) { let mut fact = vec![1; size]; let mut fact_inv = vec![1; size]; for i in 2..size { fact[i] = fact[i - 1] * i as usize % m; fact_inv[i] = m - ((m / i as usize) * fact_inv[(m % i as usize) as usize] % m); } for i in 1..size { fact_inv[i] = fact_inv[i - 1] * fact_inv[i] % m; } (fact, fact_inv) } #[allow(dead_code)] /// (a mod p, e when n! = a p\^e) pub fn mod_fact(n: usize, p: usize, fact: &[usize]) -> (usize, usize) { if n == 0 { (1, 0) } else { let (a, b) = mod_fact(n / p, p, fact); let pow = b + n / p; if n / p % 2 != 0 { (a * (p - fact[(n % p) as usize]) % p, pow) } else { (a * fact[(n % p) as usize] % p, pow) } } } #[allow(dead_code)] /// C(n, k) % p pub fn mcom(n: usize, k: usize, fact: &[usize]) -> usize { let p = MOD as usize; if k == 0 { return 1; } if n < k { 0 } else { let (a1, e1) = mod_fact(n, p, fact); let (a2, e2) = mod_fact(k, p, fact); let (a3, e3) = mod_fact(n - k, p, fact); if e1 > e2 + e3 { 0 } else { a1 * mod_inverse(a2 * a3 % p, p) % p } } } pub fn mperm(n: usize, k: usize, fact: &[usize]) -> usize { let p = MOD as usize; if k == 0 { return 1; } if n < k { 0 } else { let (a1, e1) = mod_fact(n, p, fact); let (a2, e2) = mod_fact(k, p, fact); let (a3, e3) = mod_fact(n - k, p, fact); if e1 > e2 + e3 { 0 } else { a1 * mod_inverse(a3 % p, p) % p } } } pub fn hcom(n: usize, k: usize, fact: &[usize]) -> usize { return mcom(n + k - 1, k, fact); } pub struct Combination { m: usize, f_table: Vec<usize>, } impl Combination { // 0 <= size <= 10^8 is constrained. pub fn new(mod_num: usize, table_size: usize) -> Self { Self { m: mod_num, f_table: vec![0; table_size], } } pub fn build(&mut self) { let size = self.f_table.len(); self.f_table = fact_table(size, self.m); } fn fact_table(len: usize, m: usize) -> Vec<usize> { let mut res = vec![1; len + 1]; for i in 1..len + 1 { res[i] = (i as usize * res[i - 1]) % m; } res } pub fn p(&mut self, n: usize, k: usize) -> usize { let p = MOD as usize; if k == 0 { return 1; } if n < k { 0 } else { let (a1, e1) = mod_fact(n, p, &self.f_table); let (a2, e2) = mod_fact(k, p, &self.f_table); let (a3, e3) = mod_fact(n - k, p, &self.f_table); if e1 > e2 + e3 { 0 } else { a1 * mod_inverse(a3 % p, p) % p } } } pub fn c(&mut self, n: usize, k: usize) -> usize { let p = MOD as usize; if n == 0 { return 0; } if k == 0 { return 1; } if n < k { 0 } else { let (a1, e1) = mod_fact(n, p, &self.f_table); let (a2, e2) = mod_fact(k, p, &self.f_table); let (a3, e3) = mod_fact(n - k, p, &self.f_table); if e1 > e2 + e3 { 0 } else { a1 * mod_inverse(a2 * a3 % p, p) % p } } } pub fn h(&mut self, n: usize, k: usize) -> usize { return mcom(n + k - 1, k, &self.f_table); } pub fn factorial(&mut self, n: usize) -> usize { return self.p(n, n); } fn extgcd(a: i64, b: i64) -> (i64, i64, i64) { if b == 0 { (a, 1, 0) } else { let (gcd, x, y) = extgcd(b, a % b); (gcd, y, x - (a / b) * y) } } pub fn mod_inverse(a: usize, m: usize) -> usize { let (_, x, _) = extgcd(a as i64, m as i64); ((m as i64 + x) as usize % m) % m } fn mod_fact(&mut self, n: usize, p: usize, fact: &[usize]) -> (usize, usize) { if n == 0 { (1, 0) } else { let (a, b) = mod_fact(n / p, p, fact); let pow = b + n / p; if n / p % 2 != 0 { (a * (p - fact[(n % p) as usize]) % p, pow) } else { (a * fact[(n % p) as usize] % p, pow) } } } } fn prime_factorization(x: usize) -> BTreeMap<usize, usize> { let mut res: BTreeMap<usize, usize> = BTreeMap::new(); let mut xx = x; let mut p: usize = 2; while p * p <= xx { while xx % p == 0 { // println!("{:?}", p); let t = res.get_mut(&p); if t.is_none() { res.insert(p, 1); } else { *t.unwrap() += 1; } xx /= p; } // println!("{:?} {:?}", p, res); p += 1; } if xx != 1 { let t = res.get_mut(&xx); if t.is_none() { res.insert(xx, 1); } else { *t.unwrap() += 1; } } res } pub fn vector_lcm(vec: &Vec<usize>) -> usize { let mut res = 1; let mut alcm: BTreeMap<usize, usize> = BTreeMap::new(); for i in 0..vec.len() { let pf = prime_factorization(vec[i]); // println!("{:?}", vec[i]); // println!("{:?}", pf); for i in pf { let t = alcm.get_mut(&i.0); if t.is_none() { alcm.insert(i.0, i.1); } else { let val = *t.unwrap(); *alcm.get_mut(&i.0).unwrap() = max(val, i.1); } } } let mut r = M(1); for i in alcm { // for j in 0..i.1 { // // res *= i.0; // } r *= M(i.0 as i64).pow(i.1); // println!("{:?}", i); } r.0 as usize } fn solve() { let n: usize = read(); let mut vec = vec![]; for i in 1..n / 2 { vec.push(i * (n - i)); } // println!("{:?}", vec); println!("{:?}", vector_lcm(&vec)); return; } fn main() { solve(); }