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use core::num::Wrapping;
use core::{f32, f64};
use core::{i128, i16, i32, i64, i8, isize};
use core::{u128, u16, u32, u64, u8, usize};
/// Numbers which have upper and lower bounds
pub trait Bounded {
// FIXME (#5527): These should be associated constants
/// Returns the smallest finite number this type can represent
fn min_value() -> Self;
/// Returns the largest finite number this type can represent
fn max_value() -> Self;
}
/// Numbers which have lower bounds
pub trait LowerBounded {
/// Returns the smallest finite number this type can represent
fn min_value() -> Self;
}
// FIXME: With a major version bump, this should be a supertrait instead
impl<T: Bounded> LowerBounded for T {
fn min_value() -> T {
Bounded::min_value()
}
}
/// Numbers which have upper bounds
pub trait UpperBounded {
/// Returns the largest finite number this type can represent
fn max_value() -> Self;
}
// FIXME: With a major version bump, this should be a supertrait instead
impl<T: Bounded> UpperBounded for T {
fn max_value() -> T {
Bounded::max_value()
}
}
macro_rules! bounded_impl {
($t:ty, $min:expr, $max:expr) => {
impl Bounded for $t {
#[inline]
fn min_value() -> $t {
$min
}
#[inline]
fn max_value() -> $t {
$max
}
}
};
}
bounded_impl!(usize, usize::MIN, usize::MAX);
bounded_impl!(u8, u8::MIN, u8::MAX);
bounded_impl!(u16, u16::MIN, u16::MAX);
bounded_impl!(u32, u32::MIN, u32::MAX);
bounded_impl!(u64, u64::MIN, u64::MAX);
bounded_impl!(u128, u128::MIN, u128::MAX);
bounded_impl!(isize, isize::MIN, isize::MAX);
bounded_impl!(i8, i8::MIN, i8::MAX);
bounded_impl!(i16, i16::MIN, i16::MAX);
bounded_impl!(i32, i32::MIN, i32::MAX);
bounded_impl!(i64, i64::MIN, i64::MAX);
bounded_impl!(i128, i128::MIN, i128::MAX);
impl<T: Bounded> Bounded for Wrapping<T> {
fn min_value() -> Self {
Wrapping(T::min_value())
}
fn max_value() -> Self {
Wrapping(T::max_value())
}
}
bounded_impl!(f32, f32::MIN, f32::MAX);
macro_rules! for_each_tuple_ {
( $m:ident !! ) => (
$m! { }
);
( $m:ident !! $h:ident, $($t:ident,)* ) => (
$m! { $h $($t)* }
for_each_tuple_! { $m !! $($t,)* }
);
}
macro_rules! for_each_tuple {
($m:ident) => {
for_each_tuple_! { $m !! A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, }
};
}
macro_rules! bounded_tuple {
( $($name:ident)* ) => (
impl<$($name: Bounded,)*> Bounded for ($($name,)*) {
#[inline]
fn min_value() -> Self {
($($name::min_value(),)*)
}
#[inline]
fn max_value() -> Self {
($($name::max_value(),)*)
}
}
);
}
for_each_tuple!(bounded_tuple);
bounded_impl!(f64, f64::MIN, f64::MAX);
#[test]
fn wrapping_bounded() {
macro_rules! test_wrapping_bounded {
($($t:ty)+) => {
$(
assert_eq!(<Wrapping<$t> as Bounded>::min_value().0, <$t>::min_value());
assert_eq!(<Wrapping<$t> as Bounded>::max_value().0, <$t>::max_value());
)+
};
}
test_wrapping_bounded!(usize u8 u16 u32 u64 isize i8 i16 i32 i64);
}
#[test]
fn wrapping_bounded_i128() {
macro_rules! test_wrapping_bounded {
($($t:ty)+) => {
$(
assert_eq!(<Wrapping<$t> as Bounded>::min_value().0, <$t>::min_value());
assert_eq!(<Wrapping<$t> as Bounded>::max_value().0, <$t>::max_value());
)+
};
}
test_wrapping_bounded!(u128 i128);
}
#[test]
fn wrapping_is_bounded() {
fn require_bounded<T: Bounded>(_: &T) {}
require_bounded(&Wrapping(42_u32));
require_bounded(&Wrapping(-42));
}