結果
問題 | No.1250 汝は倍数なりや? |
ユーザー | manta1130 |
提出日時 | 2020-10-09 21:39:04 |
言語 | Rust (1.77.0 + proconio) |
結果 |
AC
|
実行時間 | 18 ms / 1,000 ms |
コード長 | 26,540 bytes |
コンパイル時間 | 13,974 ms |
コンパイル使用メモリ | 385,320 KB |
実行使用メモリ | 6,260 KB |
最終ジャッジ日時 | 2024-07-20 09:55:10 |
合計ジャッジ時間 | 16,044 ms |
ジャッジサーバーID (参考情報) |
judge2 / judge5 |
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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 |
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testcase_00 | AC | 1 ms
5,248 KB |
testcase_01 | AC | 1 ms
5,376 KB |
testcase_02 | AC | 1 ms
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testcase_03 | AC | 1 ms
5,376 KB |
testcase_04 | AC | 1 ms
5,376 KB |
testcase_05 | AC | 1 ms
5,376 KB |
testcase_06 | AC | 1 ms
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testcase_07 | AC | 1 ms
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testcase_08 | AC | 1 ms
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testcase_09 | AC | 1 ms
5,376 KB |
testcase_10 | AC | 1 ms
5,376 KB |
testcase_11 | AC | 1 ms
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testcase_12 | AC | 1 ms
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testcase_13 | AC | 1 ms
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testcase_14 | AC | 1 ms
5,376 KB |
testcase_15 | AC | 1 ms
5,376 KB |
testcase_16 | AC | 1 ms
5,376 KB |
testcase_17 | AC | 1 ms
5,376 KB |
testcase_18 | AC | 1 ms
5,376 KB |
testcase_19 | AC | 1 ms
5,376 KB |
testcase_20 | AC | 1 ms
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testcase_21 | AC | 1 ms
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testcase_22 | AC | 1 ms
5,376 KB |
testcase_23 | AC | 1 ms
5,376 KB |
testcase_24 | AC | 1 ms
5,376 KB |
testcase_25 | AC | 1 ms
5,376 KB |
testcase_26 | AC | 1 ms
5,376 KB |
testcase_27 | AC | 1 ms
5,376 KB |
testcase_28 | AC | 1 ms
5,376 KB |
testcase_29 | AC | 1 ms
5,376 KB |
testcase_30 | AC | 1 ms
5,376 KB |
testcase_31 | AC | 1 ms
5,376 KB |
testcase_32 | AC | 1 ms
5,376 KB |
testcase_33 | AC | 18 ms
6,260 KB |
testcase_34 | AC | 10 ms
5,376 KB |
testcase_35 | AC | 15 ms
5,868 KB |
testcase_36 | AC | 16 ms
6,088 KB |
testcase_37 | AC | 10 ms
5,376 KB |
testcase_38 | AC | 10 ms
5,376 KB |
testcase_39 | AC | 9 ms
5,376 KB |
testcase_40 | AC | 10 ms
5,376 KB |
testcase_41 | AC | 11 ms
5,376 KB |
testcase_42 | AC | 7 ms
5,376 KB |
testcase_43 | AC | 15 ms
5,932 KB |
testcase_44 | AC | 7 ms
5,376 KB |
testcase_45 | AC | 16 ms
5,972 KB |
testcase_46 | AC | 5 ms
5,376 KB |
testcase_47 | AC | 10 ms
5,376 KB |
testcase_48 | AC | 1 ms
5,376 KB |
testcase_49 | AC | 1 ms
5,376 KB |
testcase_50 | AC | 1 ms
5,376 KB |
testcase_51 | AC | 1 ms
5,376 KB |
コンパイルメッセージ
warning: unused attribute `macro_export` --> src/main.rs:28:5 | 28 | #[macro_export] | ^^^^^^^^^^^^^^^ | note: the built-in attribute `macro_export` will be ignored, since it's applied to the macro invocation `thread_local` --> src/main.rs:29:5 | 29 | thread_local! { | ^^^^^^^^^^^^ = note: `#[warn(unused_attributes)]` on by default warning: unused variable: `n` --> src/main.rs:3:9 | 3 | n:usize,h:u32 | ^ | help: `n` is captured in macro and introduced a unused variable --> src/main.rs:44:25 | 2 | / inputv! { 3 | | n:usize,h:u32 4 | | } | |_____- in this macro invocation ... 44 | let $x:$t = buf_split_result.parse().unwrap(); | ^^ = note: `#[warn(unused_variables)]` on by default = note: this warning originates in the macro `inputv` (in Nightly builds, run with -Z macro-backtrace for more info) warning: fields `sum_e` and `sum_ie` are never read --> src/main.rs:409:20 | 408 | pub struct ButterflyCache<M> { | -------------- fields in this struct 409 | pub(crate) sum_e: Vec<StaticModInt<M>>, | ^^^^^ 410 | pub(crate) sum_ie: Vec<StaticModInt<M>>, | ^^^^^^ | = note: `#[warn(dead_code)]` on by default
ソースコード
fn main() { inputv! { n:usize,h:u32 } let a = input_vector::<i64>(); ModInt::set_modulus(h); let mut m = ModInt::new(1); for i in a { let buf = ModInt::new(i); m *= buf; } if m == ModInt::new(0) { println!("YES"); } else { println!("NO"); } } //https://github.com/rust-lang-ja/ac-library-rs //https://github.com/manta1130/competitive-template-rs pub mod input { use std::cell::RefCell; use std::io; pub const SPLIT_DELIMITER: char = ' '; pub use std::io::prelude::*; #[macro_export] thread_local! { pub static INPUT_BUFFER:RefCell<std::collections::VecDeque<String>>=RefCell::new(std::collections::VecDeque::new()); } #[macro_export] macro_rules! inputv { ( $($x:ident : $t:ty),*) => { $( INPUT_BUFFER.with(|p| if p.borrow().len()==0{ let temp_str = input_line_str(); let mut split_result_iter = temp_str.split(SPLIT_DELIMITER).map(|q|q.to_string()).collect::<std::collections::VecDeque<_>>(); p.borrow_mut().append(&mut split_result_iter) }); let mut buf_split_result=String::new(); INPUT_BUFFER.with(|p| buf_split_result = p.borrow_mut().pop_front().unwrap()); let $x:$t = buf_split_result.parse().unwrap(); )* }; } #[macro_export] macro_rules! input_all { ( $($x:ident : $t:ty),*) => { $( INPUT_BUFFER.with(|p| if p.borrow().len()==0{ let mut temp_str = String::new(); std::io::stdin().read_to_string(&mut temp_str).unwrap(); let mut split_result_iter = temp_str.split_whitespace().map(|q|q.to_string()).collect::<std::collections::VecDeque<_>>(); p.borrow_mut().append(&mut split_result_iter) }); let mut buf_split_result=String::new(); INPUT_BUFFER.with(|p| buf_split_result = p.borrow_mut().pop_front().unwrap()); let ($x):($t) = buf_split_result.parse().unwrap(); )* }; } pub fn input_line_str() -> String { let mut s = String::new(); io::stdin().read_line(&mut s).unwrap(); s.trim().to_string() } #[allow(clippy::match_wild_err_arm)] pub fn input_vector<T>() -> Vec<T> where T: std::str::FromStr, { let mut v: Vec<T> = Vec::new(); let s = input_line_str(); let split_result = s.split(SPLIT_DELIMITER); for z in split_result { let buf = match z.parse() { Ok(r) => r, Err(_) => panic!("Parse Error",), }; v.push(buf); } v } #[allow(clippy::match_wild_err_arm)] pub fn input_vector_row<T>(n: usize) -> Vec<T> where T: std::str::FromStr, { let mut v = Vec::with_capacity(n); for _ in 0..n { let buf = match input_line_str().parse() { Ok(r) => r, Err(_) => panic!("Parse Error",), }; v.push(buf); } v } pub trait ToCharVec { fn to_charvec(&self) -> Vec<char>; } impl ToCharVec for String { fn to_charvec(&self) -> Vec<char> { self.to_string().chars().collect::<Vec<_>>() } } } pub mod internal_math { #![allow(dead_code)] use std::mem::swap; /* const */ pub(crate) fn safe_mod(mut x: i64, m: i64) -> i64 { x %= m; if x < 0 { x += m; } x } pub(crate) struct Barrett { pub(crate) _m: u32, pub(crate) im: u64, } impl Barrett { pub(crate) fn new(m: u32) -> Barrett { Barrett { _m: m, im: (-1i64 as u64 / m as u64).wrapping_add(1), } } pub(crate) fn umod(&self) -> u32 { self._m } #[allow(clippy::many_single_char_names)] pub(crate) fn mul(&self, a: u32, b: u32) -> u32 { let mut z = a as u64; z *= b as u64; let x = (((z as u128) * (self.im as u128)) >> 64) as u64; let mut v = z.wrapping_sub(x.wrapping_mul(self._m as u64)) as u32; if self._m <= v { v = v.wrapping_add(self._m); } v } } /* const */ #[allow(clippy::many_single_char_names)] pub(crate) fn pow_mod(x: i64, mut n: i64, m: i32) -> i64 { if m == 1 { return 0; } let _m = m as u32; let mut r: u64 = 1; let mut y: u64 = safe_mod(x, m as i64) as u64; while n != 0 { if (n & 1) > 0 { r = (r * y) % (_m as u64); } y = (y * y) % (_m as u64); n >>= 1; } r as i64 } /* const */ pub(crate) fn is_prime(n: i32) -> bool { let n = n as i64; match n { _ if n <= 1 => return false, 2 | 7 | 61 => return true, _ if n % 2 == 0 => return false, _ => {} } let mut d = n - 1; while d % 2 == 0 { d /= 2; } for &a in &[2, 7, 61] { let mut t = d; let mut y = pow_mod(a, t, n as i32); while t != n - 1 && y != 1 && y != n - 1 { y = y * y % n; t <<= 1; } if y != n - 1 && t % 2 == 0 { return false; } } true } /* const */ #[allow(clippy::many_single_char_names)] pub(crate) fn inv_gcd(a: i64, b: i64) -> (i64, i64) { let a = safe_mod(a, b); if a == 0 { return (b, 0); } let mut s = b; let mut t = a; let mut m0 = 0; let mut m1 = 1; while t != 0 { let u = s / t; s -= t * u; m0 -= m1 * u; // |m1 * u| <= |m1| * s <= b swap(&mut s, &mut t); swap(&mut m0, &mut m1); } if m0 < 0 { m0 += b / s; } (s, m0) } /* const */ pub(crate) fn primitive_root(m: i32) -> i32 { match m { 2 => return 1, 167_772_161 => return 3, 469_762_049 => return 3, 754_974_721 => return 11, 998_244_353 => return 3, _ => {} } let mut divs = [0; 20]; divs[0] = 2; let mut cnt = 1; let mut x = (m - 1) / 2; while x % 2 == 0 { x /= 2; } for i in (3..std::i32::MAX).step_by(2) { if i as i64 * i as i64 > x as i64 { break; } if x % i == 0 { divs[cnt] = i; cnt += 1; while x % i == 0 { x /= i; } } } if x > 1 { divs[cnt] = x; cnt += 1; } let mut g = 2; loop { if (0..cnt).all(|i| pow_mod(g, ((m - 1) / divs[i]) as i64, m) != 1) { break g as i32; } g += 1; } } } pub mod modint { use crate::internal_math; use std::{ cell::RefCell, convert::{Infallible, TryInto as _}, fmt, hash::{Hash, Hasher}, iter::{Product, Sum}, marker::PhantomData, ops::{Add, AddAssign, Div, DivAssign, Mul, MulAssign, Neg, Sub, SubAssign}, str::FromStr, thread::LocalKey, }; pub type ModInt1000000007 = StaticModInt<Mod1000000007>; pub type ModInt998244353 = StaticModInt<Mod998244353>; pub type ModInt = DynamicModInt<DefaultId>; #[derive(Copy, Clone, Eq, PartialEq)] #[repr(transparent)] pub struct StaticModInt<M> { val: u32, phantom: PhantomData<fn() -> M>, } impl<M: Modulus> StaticModInt<M> { #[inline(always)] pub fn modulus() -> u32 { M::VALUE } #[inline] pub fn new<T: RemEuclidU32>(val: T) -> Self { Self::raw(val.rem_euclid_u32(M::VALUE)) } #[inline] pub fn raw(val: u32) -> Self { Self { val, phantom: PhantomData, } } #[inline] pub fn val(self) -> u32 { self.val } #[inline] pub fn pow(self, n: u64) -> Self { <Self as ModIntBase>::pow(self, n) } #[inline] pub fn inv(self) -> Self { if M::HINT_VALUE_IS_PRIME { if self.val() == 0 { panic!("attempt to divide by zero"); } debug_assert!( internal_math::is_prime(M::VALUE.try_into().unwrap()), "{} is not a prime number", M::VALUE, ); self.pow((M::VALUE - 2).into()) } else { Self::inv_for_non_prime_modulus(self) } } } impl<M: Modulus> ModIntBase for StaticModInt<M> { #[inline(always)] fn modulus() -> u32 { Self::modulus() } #[inline] fn raw(val: u32) -> Self { Self::raw(val) } #[inline] fn val(self) -> u32 { self.val() } #[inline] fn inv(self) -> Self { self.inv() } } pub trait Modulus: 'static + Copy + Eq { const VALUE: u32; const HINT_VALUE_IS_PRIME: bool; fn butterfly_cache() -> &'static LocalKey<RefCell<Option<ButterflyCache<Self>>>>; } #[derive(Copy, Clone, Ord, PartialOrd, Eq, PartialEq, Hash, Debug)] pub enum Mod1000000007 {} impl Modulus for Mod1000000007 { const VALUE: u32 = 1_000_000_007; const HINT_VALUE_IS_PRIME: bool = true; fn butterfly_cache() -> &'static LocalKey<RefCell<Option<ButterflyCache<Self>>>> { thread_local! { static BUTTERFLY_CACHE: RefCell<Option<ButterflyCache<Mod1000000007>>> = RefCell::default(); } &BUTTERFLY_CACHE } } #[derive(Copy, Clone, Ord, PartialOrd, Eq, PartialEq, Hash, Debug)] pub enum Mod998244353 {} impl Modulus for Mod998244353 { const VALUE: u32 = 998_244_353; const HINT_VALUE_IS_PRIME: bool = true; fn butterfly_cache() -> &'static LocalKey<RefCell<Option<ButterflyCache<Self>>>> { thread_local! { static BUTTERFLY_CACHE: RefCell<Option<ButterflyCache<Mod998244353>>> = RefCell::default(); } &BUTTERFLY_CACHE } } pub struct ButterflyCache<M> { pub(crate) sum_e: Vec<StaticModInt<M>>, pub(crate) sum_ie: Vec<StaticModInt<M>>, } #[derive(Copy, Clone, Eq, PartialEq)] #[repr(transparent)] pub struct DynamicModInt<I> { val: u32, phantom: PhantomData<fn() -> I>, } impl<I: Id> DynamicModInt<I> { #[inline] pub fn modulus() -> u32 { I::companion_barrett().with(|bt| bt.borrow().umod()) } #[inline] pub fn set_modulus(modulus: u32) { if modulus == 0 { panic!("the modulus must not be 0"); } I::companion_barrett().with(|bt| *bt.borrow_mut() = Barrett::new(modulus)) } #[inline] pub fn new<T: RemEuclidU32>(val: T) -> Self { <Self as ModIntBase>::new(val) } #[inline] pub fn raw(val: u32) -> Self { Self { val, phantom: PhantomData, } } #[inline] pub fn val(self) -> u32 { self.val } #[inline] pub fn pow(self, n: u64) -> Self { <Self as ModIntBase>::pow(self, n) } #[inline] pub fn inv(self) -> Self { Self::inv_for_non_prime_modulus(self) } } impl<I: Id> ModIntBase for DynamicModInt<I> { #[inline] fn modulus() -> u32 { Self::modulus() } #[inline] fn raw(val: u32) -> Self { Self::raw(val) } #[inline] fn val(self) -> u32 { self.val() } #[inline] fn inv(self) -> Self { self.inv() } } pub trait Id: 'static + Copy + Eq { fn companion_barrett() -> &'static LocalKey<RefCell<Barrett>>; } #[derive(Copy, Clone, Ord, PartialOrd, Eq, PartialEq, Hash, Debug)] pub enum DefaultId {} impl Id for DefaultId { fn companion_barrett() -> &'static LocalKey<RefCell<Barrett>> { thread_local! { static BARRETT: RefCell<Barrett> = RefCell::default(); } &BARRETT } } pub struct Barrett(internal_math::Barrett); impl Barrett { #[inline] pub fn new(m: u32) -> Self { Self(internal_math::Barrett::new(m)) } #[inline] fn umod(&self) -> u32 { self.0.umod() } #[inline] fn mul(&self, a: u32, b: u32) -> u32 { self.0.mul(a, b) } } impl Default for Barrett { #[inline] fn default() -> Self { Self(internal_math::Barrett::new(998_244_353)) } } pub trait ModIntBase: Default + FromStr + From<i8> + From<i16> + From<i32> + From<i64> + From<i128> + From<isize> + From<u8> + From<u16> + From<u32> + From<u64> + From<u128> + From<usize> + Copy + Eq + Hash + fmt::Display + fmt::Debug + Neg<Output = Self> + Add<Output = Self> + Sub<Output = Self> + Mul<Output = Self> + Div<Output = Self> + AddAssign + SubAssign + MulAssign + DivAssign { fn modulus() -> u32; fn raw(val: u32) -> Self; fn val(self) -> u32; fn inv(self) -> Self; #[inline] fn new<T: RemEuclidU32>(val: T) -> Self { Self::raw(val.rem_euclid_u32(Self::modulus())) } #[inline] fn pow(self, mut n: u64) -> Self { let mut x = self; let mut r = Self::raw(1); while n > 0 { if n & 1 == 1 { r *= x; } x *= x; n >>= 1; } r } } pub trait RemEuclidU32 { fn rem_euclid_u32(self, modulus: u32) -> u32; } macro_rules! impl_rem_euclid_u32_for_small_signed { ($($ty:tt),*) => { $( impl RemEuclidU32 for $ty { #[inline] fn rem_euclid_u32(self, modulus: u32) -> u32 { (self as i64).rem_euclid(i64::from(modulus)) as _ } } )* } } impl_rem_euclid_u32_for_small_signed!(i8, i16, i32, i64, isize); impl RemEuclidU32 for i128 { #[inline] fn rem_euclid_u32(self, modulus: u32) -> u32 { self.rem_euclid(i128::from(modulus)) as _ } } macro_rules! impl_rem_euclid_u32_for_small_unsigned { ($($ty:tt),*) => { $( impl RemEuclidU32 for $ty { #[inline] fn rem_euclid_u32(self, modulus: u32) -> u32 { self as u32 % modulus } } )* } } macro_rules! impl_rem_euclid_u32_for_large_unsigned { ($($ty:tt),*) => { $( impl RemEuclidU32 for $ty { #[inline] fn rem_euclid_u32(self, modulus: u32) -> u32 { (self % (modulus as $ty)) as _ } } )* } } impl_rem_euclid_u32_for_small_unsigned!(u8, u16, u32); impl_rem_euclid_u32_for_large_unsigned!(u64, u128); #[cfg(target_pointer_width = "32")] impl_rem_euclid_u32_for_small_unsigned!(usize); #[cfg(target_pointer_width = "64")] impl_rem_euclid_u32_for_large_unsigned!(usize); trait InternalImplementations: ModIntBase { #[inline] fn inv_for_non_prime_modulus(this: Self) -> Self { let (gcd, x) = internal_math::inv_gcd(this.val().into(), Self::modulus().into()); if gcd != 1 { panic!("the multiplicative inverse does not exist"); } Self::new(x) } #[inline] fn default_impl() -> Self { Self::raw(0) } #[inline] fn from_str_impl(s: &str) -> Result<Self, Infallible> { Ok(s.parse::<i64>() .map(Self::new) .unwrap_or_else(|_| todo!("parsing as an arbitrary precision integer?"))) } #[inline] fn hash_impl(this: &Self, state: &mut impl Hasher) { this.val().hash(state) } #[inline] fn display_impl(this: &Self, f: &mut fmt::Formatter) -> fmt::Result { fmt::Display::fmt(&this.val(), f) } #[inline] fn debug_impl(this: &Self, f: &mut fmt::Formatter) -> fmt::Result { fmt::Debug::fmt(&this.val(), f) } #[inline] fn neg_impl(this: Self) -> Self { Self::sub_impl(Self::raw(0), this) } #[inline] fn add_impl(lhs: Self, rhs: Self) -> Self { let modulus = Self::modulus(); let mut val = lhs.val() + rhs.val(); if val >= modulus { val -= modulus; } Self::raw(val) } #[inline] fn sub_impl(lhs: Self, rhs: Self) -> Self { let modulus = Self::modulus(); let mut val = lhs.val().wrapping_sub(rhs.val()); if val >= modulus { val = val.wrapping_add(modulus) } Self::raw(val) } fn mul_impl(lhs: Self, rhs: Self) -> Self; #[inline] fn div_impl(lhs: Self, rhs: Self) -> Self { Self::mul_impl(lhs, rhs.inv()) } } impl<M: Modulus> InternalImplementations for StaticModInt<M> { #[inline] fn mul_impl(lhs: Self, rhs: Self) -> Self { Self::raw((u64::from(lhs.val()) * u64::from(rhs.val()) % u64::from(M::VALUE)) as u32) } } impl<I: Id> InternalImplementations for DynamicModInt<I> { #[inline] fn mul_impl(lhs: Self, rhs: Self) -> Self { I::companion_barrett().with(|bt| Self::raw(bt.borrow().mul(lhs.val, rhs.val))) } } macro_rules! impl_basic_traits { () => {}; (impl <$generic_param:ident : $generic_param_bound:tt> _ for $self:ty; $($rest:tt)*) => { impl <$generic_param: $generic_param_bound> Default for $self { #[inline] fn default() -> Self { Self::default_impl() } } impl <$generic_param: $generic_param_bound> FromStr for $self { type Err = Infallible; #[inline] fn from_str(s: &str) -> Result<Self, Infallible> { Self::from_str_impl(s) } } impl<$generic_param: $generic_param_bound, V: RemEuclidU32> From<V> for $self { #[inline] fn from(from: V) -> Self { Self::new(from) } } #[allow(clippy::derive_hash_xor_eq)] impl<$generic_param: $generic_param_bound> Hash for $self { #[inline] fn hash<H: Hasher>(&self, state: &mut H) { Self::hash_impl(self, state) } } impl<$generic_param: $generic_param_bound> fmt::Display for $self { #[inline] fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { Self::display_impl(self, f) } } impl<$generic_param: $generic_param_bound> fmt::Debug for $self { #[inline] fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { Self::debug_impl(self, f) } } impl<$generic_param: $generic_param_bound> Neg for $self { type Output = $self; #[inline] fn neg(self) -> $self { Self::neg_impl(self) } } impl<$generic_param: $generic_param_bound> Neg for &'_ $self { type Output = $self; #[inline] fn neg(self) -> $self { <$self>::neg_impl(*self) } } impl_basic_traits!($($rest)*); }; } impl_basic_traits! { impl <M: Modulus> _ for StaticModInt<M> ; impl <I: Id > _ for DynamicModInt<I>; } macro_rules! impl_bin_ops { () => {}; (for<$generic_param:ident : $generic_param_bound:tt> <$lhs_ty:ty> ~ <$rhs_ty:ty> -> $output:ty { { $lhs_body:expr } ~ { $rhs_body:expr } } $($rest:tt)*) => { impl <$generic_param: $generic_param_bound> Add<$rhs_ty> for $lhs_ty { type Output = $output; #[inline] fn add(self, rhs: $rhs_ty) -> $output { <$output>::add_impl(apply($lhs_body, self), apply($rhs_body, rhs)) } } impl <$generic_param: $generic_param_bound> Sub<$rhs_ty> for $lhs_ty { type Output = $output; #[inline] fn sub(self, rhs: $rhs_ty) -> $output { <$output>::sub_impl(apply($lhs_body, self), apply($rhs_body, rhs)) } } impl <$generic_param: $generic_param_bound> Mul<$rhs_ty> for $lhs_ty { type Output = $output; #[inline] fn mul(self, rhs: $rhs_ty) -> $output { <$output>::mul_impl(apply($lhs_body, self), apply($rhs_body, rhs)) } } impl <$generic_param: $generic_param_bound> Div<$rhs_ty> for $lhs_ty { type Output = $output; #[inline] fn div(self, rhs: $rhs_ty) -> $output { <$output>::div_impl(apply($lhs_body, self), apply($rhs_body, rhs)) } } impl_bin_ops!($($rest)*); }; } macro_rules! impl_assign_ops { () => {}; (for<$generic_param:ident : $generic_param_bound:tt> <$lhs_ty:ty> ~= <$rhs_ty:ty> { _ ~= { $rhs_body:expr } } $($rest:tt)*) => { impl <$generic_param: $generic_param_bound> AddAssign<$rhs_ty> for $lhs_ty { #[inline] fn add_assign(&mut self, rhs: $rhs_ty) { *self = *self + apply($rhs_body, rhs); } } impl <$generic_param: $generic_param_bound> SubAssign<$rhs_ty> for $lhs_ty { #[inline] fn sub_assign(&mut self, rhs: $rhs_ty) { *self = *self - apply($rhs_body, rhs); } } impl <$generic_param: $generic_param_bound> MulAssign<$rhs_ty> for $lhs_ty { #[inline] fn mul_assign(&mut self, rhs: $rhs_ty) { *self = *self * apply($rhs_body, rhs); } } impl <$generic_param: $generic_param_bound> DivAssign<$rhs_ty> for $lhs_ty { #[inline] fn div_assign(&mut self, rhs: $rhs_ty) { *self = *self / apply($rhs_body, rhs); } } impl_assign_ops!($($rest)*); }; } #[inline] fn apply<F: FnOnce(X) -> O, X, O>(f: F, x: X) -> O { f(x) } impl_bin_ops! { for<M: Modulus> <StaticModInt<M> > ~ <StaticModInt<M> > -> StaticModInt<M> { { |x| x } ~ { |x| x } } for<M: Modulus> <StaticModInt<M> > ~ <&'_ StaticModInt<M> > -> StaticModInt<M> { { |x| x } ~ { |&x| x } } for<M: Modulus> <&'_ StaticModInt<M> > ~ <StaticModInt<M> > -> StaticModInt<M> { { |&x| x } ~ { |x| x } } for<M: Modulus> <&'_ StaticModInt<M> > ~ <&'_ StaticModInt<M> > -> StaticModInt<M> { { |&x| x } ~ { |&x| x } } for<I: Id > <DynamicModInt<I> > ~ <DynamicModInt<I> > -> DynamicModInt<I> { { |x| x } ~ { |x| x } } for<I: Id > <DynamicModInt<I> > ~ <&'_ DynamicModInt<I>> -> DynamicModInt<I> { { |x| x } ~ { |&x| x } } for<I: Id > <&'_ DynamicModInt<I>> ~ <DynamicModInt<I> > -> DynamicModInt<I> { { |&x| x } ~ { |x| x } } for<I: Id > <&'_ DynamicModInt<I>> ~ <&'_ DynamicModInt<I>> -> DynamicModInt<I> { { |&x| x } ~ { |&x| x } } } impl_assign_ops! { for<M: Modulus> <StaticModInt<M> > ~= <StaticModInt<M> > { _ ~= { |x| x } } for<M: Modulus> <StaticModInt<M> > ~= <&'_ StaticModInt<M> > { _ ~= { |&x| x } } for<I: Id > <DynamicModInt<I>> ~= <DynamicModInt<I> > { _ ~= { |x| x } } for<I: Id > <DynamicModInt<I>> ~= <&'_ DynamicModInt<I>> { _ ~= { |&x| x } } } macro_rules! impl_folding { () => {}; (impl<$generic_param:ident : $generic_param_bound:tt> $trait:ident<_> for $self:ty { fn $method:ident(_) -> _ { _($unit:expr, $op:expr) } } $($rest:tt)*) => { impl<$generic_param: $generic_param_bound> $trait<Self> for $self { #[inline] fn $method<S>(iter: S) -> Self where S: Iterator<Item = Self>, { iter.fold($unit, $op) } } impl<'a, $generic_param: $generic_param_bound> $trait<&'a Self> for $self { #[inline] fn $method<S>(iter: S) -> Self where S: Iterator<Item = &'a Self>, { iter.fold($unit, $op) } } impl_folding!($($rest)*); }; } impl_folding! { impl<M: Modulus> Sum<_> for StaticModInt<M> { fn sum(_) -> _ { _(Self::raw(0), Add::add) } } impl<M: Modulus> Product<_> for StaticModInt<M> { fn product(_) -> _ { _(Self::raw(1), Mul::mul) } } impl<I: Id > Sum<_> for DynamicModInt<I> { fn sum(_) -> _ { _(Self::raw(0), Add::add) } } impl<I: Id > Product<_> for DynamicModInt<I> { fn product(_) -> _ { _(Self::raw(1), Mul::mul) } } } } use input::*; use modint::*;