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num-traits/src/identities.rs

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Rust
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use core::num::Wrapping;
use core::ops::{Add, Mul};
/// Defines an additive identity element for `Self`.
pub trait Zero: Sized + Add<Self, Output = Self> {
/// Returns the additive identity element of `Self`, `0`.
///
/// # Laws
///
/// ```{.text}
/// a + 0 = a ∀ a ∈ Self
/// 0 + a = a ∀ a ∈ Self
/// ```
///
/// # Purity
///
/// This function should return the same result at all times regardless of
/// external mutable state, for example values stored in TLS or in
/// `static mut`s.
// This cannot be an associated constant, because of bignums.
fn zero() -> Self;
/// Returns `true` if `self` is equal to the additive identity.
#[inline]
fn is_zero(&self) -> bool;
}
macro_rules! zero_impl {
($t:ty, $v:expr) => {
impl Zero for $t {
#[inline]
fn zero() -> $t {
$v
}
#[inline]
fn is_zero(&self) -> bool {
*self == $v
}
}
};
}
zero_impl!(usize, 0);
zero_impl!(u8, 0);
zero_impl!(u16, 0);
zero_impl!(u32, 0);
zero_impl!(u64, 0);
#[cfg(has_i128)]
zero_impl!(u128, 0);
zero_impl!(isize, 0);
zero_impl!(i8, 0);
zero_impl!(i16, 0);
zero_impl!(i32, 0);
zero_impl!(i64, 0);
#[cfg(has_i128)]
zero_impl!(i128, 0);
zero_impl!(f32, 0.0);
zero_impl!(f64, 0.0);
impl<T: Zero> Zero for Wrapping<T>
where
Wrapping<T>: Add<Output = Wrapping<T>>,
{
fn is_zero(&self) -> bool {
self.0.is_zero()
}
fn zero() -> Self {
Wrapping(T::zero())
}
}
/// Defines a multiplicative identity element for `Self`.
pub trait One: Sized + Mul<Self, Output = Self> {
/// Returns the multiplicative identity element of `Self`, `1`.
///
/// # Laws
///
/// ```{.text}
/// a * 1 = a ∀ a ∈ Self
/// 1 * a = a ∀ a ∈ Self
/// ```
///
/// # Purity
///
/// This function should return the same result at all times regardless of
/// external mutable state, for example values stored in TLS or in
/// `static mut`s.
// This cannot be an associated constant, because of bignums.
fn one() -> Self;
/// Returns `true` if `self` is equal to the multiplicative identity.
///
/// For performance reasons, it's best to implement this manually.
/// After a semver bump, this method will be required, and the
/// `where Self: PartialEq` bound will be removed.
#[inline]
fn is_one(&self) -> bool
where
Self: PartialEq,
{
*self == Self::one()
}
}
macro_rules! one_impl {
($t:ty, $v:expr) => {
impl One for $t {
#[inline]
fn one() -> $t {
$v
}
}
};
}
one_impl!(usize, 1);
one_impl!(u8, 1);
one_impl!(u16, 1);
one_impl!(u32, 1);
one_impl!(u64, 1);
#[cfg(has_i128)]
one_impl!(u128, 1);
one_impl!(isize, 1);
one_impl!(i8, 1);
one_impl!(i16, 1);
one_impl!(i32, 1);
one_impl!(i64, 1);
#[cfg(has_i128)]
one_impl!(i128, 1);
one_impl!(f32, 1.0);
one_impl!(f64, 1.0);
impl<T: One> One for Wrapping<T>
where
Wrapping<T>: Mul<Output = Wrapping<T>>,
{
fn one() -> Self {
Wrapping(T::one())
}
}
// Some helper functions provided for backwards compatibility.
/// Returns the additive identity, `0`.
#[inline(always)]
pub fn zero<T: Zero>() -> T {
Zero::zero()
}
/// Returns the multiplicative identity, `1`.
#[inline(always)]
pub fn one<T: One>() -> T {
One::one()
}
#[test]
fn wrapping_identities() {
macro_rules! test_wrapping_identities {
($($t:ty)+) => {
$(
assert_eq!(zero::<$t>(), zero::<Wrapping<$t>>().0);
assert_eq!(one::<$t>(), one::<Wrapping<$t>>().0);
assert_eq!((0 as $t).is_zero(), Wrapping(0 as $t).is_zero());
assert_eq!((1 as $t).is_zero(), Wrapping(1 as $t).is_zero());
)+
};
}
test_wrapping_identities!(isize i8 i16 i32 i64 usize u8 u16 u32 u64);
}
#[test]
fn wrapping_is_zero() {
fn require_zero<T: Zero>(_: &T) {}
require_zero(&Wrapping(42));
}
#[test]
fn wrapping_is_one() {
fn require_one<T: One>(_: &T) {}
require_one(&Wrapping(42));
}
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