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//! Definitions of `Wrapping<T>`.
use crate::fmt;
use crate::ops::{Add, AddAssign, BitAnd, BitAndAssign, BitOr, BitOrAssign};
use crate::ops::{BitXor, BitXorAssign, Div, DivAssign};
use crate::ops::{Mul, MulAssign, Neg, Not, Rem, RemAssign};
use crate::ops::{Shl, ShlAssign, Shr, ShrAssign, Sub, SubAssign};
/// Provides intentionally-wrapped arithmetic on `T`.
///
/// Operations like ` ` on `u32` values are intended to never overflow,
/// and in some debug configurations overflow is detected and results
/// in a panic. While most arithmetic falls into this category, some
/// code explicitly expects and relies upon modular arithmetic (e.g.,
/// hashing).
///
/// Wrapping arithmetic can be achieved either through methods like
/// `wrapping_add`, or through the `Wrapping<T>` type, which says that
/// all standard arithmetic operations on the underlying value are
/// intended to have wrapping semantics.
///
/// The underlying value can be retrieved through the `.0` index of the
/// `Wrapping` tuple.
///
/// # Examples
///
/// ```
/// use std::num::Wrapping;
///
/// let zero = Wrapping(0u32);
/// let one = Wrapping(1u32);
///
/// assert_eq!(u32::MAX, (zero - one).0);
/// ```
///
/// # Layout
///
/// `Wrapping<T>` is guaranteed to have the same layout and ABI as `T`.
#[stable(feature = "rust1", since = "1.0.0")]
#[derive(PartialEq, Eq, PartialOrd, Ord, Clone, Copy, Default, Hash)]
#[repr(transparent)]
#[rustc_diagnostic_item = "Wrapping"]
pub struct Wrapping<T>(#[stable(feature = "rust1", since = "1.0.0")] pub T);
#[stable(feature = "rust1", since = "1.0.0")]
impl<T: fmt::Debug> fmt::Debug for Wrapping<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.0.fmt(f)
}
}
#[stable(feature = "wrapping_display", since = "1.10.0")]
impl<T: fmt::Display> fmt::Display for Wrapping<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.0.fmt(f)
}
}
#[stable(feature = "wrapping_fmt", since = "1.11.0")]
impl<T: fmt::Binary> fmt::Binary for Wrapping<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.0.fmt(f)
}
}
#[stable(feature = "wrapping_fmt", since = "1.11.0")]
impl<T: fmt::Octal> fmt::Octal for Wrapping<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.0.fmt(f)
}
}
#[stable(feature = "wrapping_fmt", since = "1.11.0")]
impl<T: fmt::LowerHex> fmt::LowerHex for Wrapping<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.0.fmt(f)
}
}
#[stable(feature = "wrapping_fmt", since = "1.11.0")]
impl<T: fmt::UpperHex> fmt::UpperHex for Wrapping<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.0.fmt(f)
}
}
#[allow(unused_macros)]
macro_rules! sh_impl_signed {
($t:ident, $f:ident) => {
#[stable(feature = "rust1", since = "1.0.0")]
impl Shl<$f> for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn shl(self, other: $f) -> Wrapping<$t> {
if other < 0 {
Wrapping(self.0.wrapping_shr((-other & self::shift_max::$t as $f) as u32))
} else {
Wrapping(self.0.wrapping_shl((other & self::shift_max::$t as $f) as u32))
}
}
}
forward_ref_binop! { impl Shl, shl for Wrapping<$t>, $f,
#[stable(feature = "wrapping_ref_ops", since = "1.39.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl ShlAssign<$f> for Wrapping<$t> {
#[inline]
fn shl_assign(&mut self, other: $f) {
*self = *self << other;
}
}
forward_ref_op_assign! { impl ShlAssign, shl_assign for Wrapping<$t>, $f }
#[stable(feature = "rust1", since = "1.0.0")]
impl Shr<$f> for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn shr(self, other: $f) -> Wrapping<$t> {
if other < 0 {
Wrapping(self.0.wrapping_shl((-other & self::shift_max::$t as $f) as u32))
} else {
Wrapping(self.0.wrapping_shr((other & self::shift_max::$t as $f) as u32))
}
}
}
forward_ref_binop! { impl Shr, shr for Wrapping<$t>, $f,
#[stable(feature = "wrapping_ref_ops", since = "1.39.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl ShrAssign<$f> for Wrapping<$t> {
#[inline]
fn shr_assign(&mut self, other: $f) {
*self = *self >> other;
}
}
forward_ref_op_assign! { impl ShrAssign, shr_assign for Wrapping<$t>, $f }
};
}
macro_rules! sh_impl_unsigned {
($t:ident, $f:ident) => {
#[stable(feature = "rust1", since = "1.0.0")]
impl Shl<$f> for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn shl(self, other: $f) -> Wrapping<$t> {
Wrapping(self.0.wrapping_shl((other & self::shift_max::$t as $f) as u32))
}
}
forward_ref_binop! { impl Shl, shl for Wrapping<$t>, $f,
#[stable(feature = "wrapping_ref_ops", since = "1.39.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl ShlAssign<$f> for Wrapping<$t> {
#[inline]
fn shl_assign(&mut self, other: $f) {
*self = *self << other;
}
}
forward_ref_op_assign! { impl ShlAssign, shl_assign for Wrapping<$t>, $f }
#[stable(feature = "rust1", since = "1.0.0")]
impl Shr<$f> for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn shr(self, other: $f) -> Wrapping<$t> {
Wrapping(self.0.wrapping_shr((other & self::shift_max::$t as $f) as u32))
}
}
forward_ref_binop! { impl Shr, shr for Wrapping<$t>, $f,
#[stable(feature = "wrapping_ref_ops", since = "1.39.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl ShrAssign<$f> for Wrapping<$t> {
#[inline]
fn shr_assign(&mut self, other: $f) {
*self = *self >> other;
}
}
forward_ref_op_assign! { impl ShrAssign, shr_assign for Wrapping<$t>, $f }
};
}
// FIXME (#23545): uncomment the remaining impls
macro_rules! sh_impl_all {
($($t:ident)*) => ($(
//sh_impl_unsigned! { $t, u8 }
//sh_impl_unsigned! { $t, u16 }
//sh_impl_unsigned! { $t, u32 }
//sh_impl_unsigned! { $t, u64 }
//sh_impl_unsigned! { $t, u128 }
sh_impl_unsigned! { $t, usize }
//sh_impl_signed! { $t, i8 }
//sh_impl_signed! { $t, i16 }
//sh_impl_signed! { $t, i32 }
//sh_impl_signed! { $t, i64 }
//sh_impl_signed! { $t, i128 }
//sh_impl_signed! { $t, isize }
)*)
}
sh_impl_all! { u8 u16 u32 u64 u128 usize i8 i16 i32 i64 i128 isize }
// FIXME(30524): impl Op<T> for Wrapping<T>, impl OpAssign<T> for Wrapping<T>
macro_rules! wrapping_impl {
($($t:ty)*) => ($(
#[stable(feature = "rust1", since = "1.0.0")]
impl Add for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn add(self, other: Wrapping<$t>) -> Wrapping<$t> {
Wrapping(self.0.wrapping_add(other.0))
}
}
forward_ref_binop! { impl Add, add for Wrapping<$t>, Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl AddAssign for Wrapping<$t> {
#[inline]
fn add_assign(&mut self, other: Wrapping<$t>) {
*self = *self other;
}
}
forward_ref_op_assign! { impl AddAssign, add_assign for Wrapping<$t>, Wrapping<$t> }
#[stable(feature = "wrapping_int_assign_impl", since = "1.60.0")]
impl AddAssign<$t> for Wrapping<$t> {
#[inline]
fn add_assign(&mut self, other: $t) {
*self = *self Wrapping(other);
}
}
forward_ref_op_assign! { impl AddAssign, add_assign for Wrapping<$t>, $t }
#[stable(feature = "rust1", since = "1.0.0")]
impl Sub for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn sub(self, other: Wrapping<$t>) -> Wrapping<$t> {
Wrapping(self.0.wrapping_sub(other.0))
}
}
forward_ref_binop! { impl Sub, sub for Wrapping<$t>, Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl SubAssign for Wrapping<$t> {
#[inline]
fn sub_assign(&mut self, other: Wrapping<$t>) {
*self = *self - other;
}
}
forward_ref_op_assign! { impl SubAssign, sub_assign for Wrapping<$t>, Wrapping<$t> }
#[stable(feature = "wrapping_int_assign_impl", since = "1.60.0")]
impl SubAssign<$t> for Wrapping<$t> {
#[inline]
fn sub_assign(&mut self, other: $t) {
*self = *self - Wrapping(other);
}
}
forward_ref_op_assign! { impl SubAssign, sub_assign for Wrapping<$t>, $t }
#[stable(feature = "rust1", since = "1.0.0")]
impl Mul for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn mul(self, other: Wrapping<$t>) -> Wrapping<$t> {
Wrapping(self.0.wrapping_mul(other.0))
}
}
forward_ref_binop! { impl Mul, mul for Wrapping<$t>, Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl MulAssign for Wrapping<$t> {
#[inline]
fn mul_assign(&mut self, other: Wrapping<$t>) {
*self = *self * other;
}
}
forward_ref_op_assign! { impl MulAssign, mul_assign for Wrapping<$t>, Wrapping<$t> }
#[stable(feature = "wrapping_int_assign_impl", since = "1.60.0")]
impl MulAssign<$t> for Wrapping<$t> {
#[inline]
fn mul_assign(&mut self, other: $t) {
*self = *self * Wrapping(other);
}
}
forward_ref_op_assign! { impl MulAssign, mul_assign for Wrapping<$t>, $t }
#[stable(feature = "wrapping_div", since = "1.3.0")]
impl Div for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn div(self, other: Wrapping<$t>) -> Wrapping<$t> {
Wrapping(self.0.wrapping_div(other.0))
}
}
forward_ref_binop! { impl Div, div for Wrapping<$t>, Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl DivAssign for Wrapping<$t> {
#[inline]
fn div_assign(&mut self, other: Wrapping<$t>) {
*self = *self / other;
}
}
forward_ref_op_assign! { impl DivAssign, div_assign for Wrapping<$t>, Wrapping<$t> }
#[stable(feature = "wrapping_int_assign_impl", since = "1.60.0")]
impl DivAssign<$t> for Wrapping<$t> {
#[inline]
fn div_assign(&mut self, other: $t) {
*self = *self / Wrapping(other);
}
}
forward_ref_op_assign! { impl DivAssign, div_assign for Wrapping<$t>, $t }
#[stable(feature = "wrapping_impls", since = "1.7.0")]
impl Rem for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn rem(self, other: Wrapping<$t>) -> Wrapping<$t> {
Wrapping(self.0.wrapping_rem(other.0))
}
}
forward_ref_binop! { impl Rem, rem for Wrapping<$t>, Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl RemAssign for Wrapping<$t> {
#[inline]
fn rem_assign(&mut self, other: Wrapping<$t>) {
*self = *self % other;
}
}
forward_ref_op_assign! { impl RemAssign, rem_assign for Wrapping<$t>, Wrapping<$t> }
#[stable(feature = "wrapping_int_assign_impl", since = "1.60.0")]
impl RemAssign<$t> for Wrapping<$t> {
#[inline]
fn rem_assign(&mut self, other: $t) {
*self = *self % Wrapping(other);
}
}
forward_ref_op_assign! { impl RemAssign, rem_assign for Wrapping<$t>, $t }
#[stable(feature = "rust1", since = "1.0.0")]
impl Not for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn not(self) -> Wrapping<$t> {
Wrapping(!self.0)
}
}
forward_ref_unop! { impl Not, not for Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
#[stable(feature = "rust1", since = "1.0.0")]
impl BitXor for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn bitxor(self, other: Wrapping<$t>) -> Wrapping<$t> {
Wrapping(self.0 ^ other.0)
}
}
forward_ref_binop! { impl BitXor, bitxor for Wrapping<$t>, Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl BitXorAssign for Wrapping<$t> {
#[inline]
fn bitxor_assign(&mut self, other: Wrapping<$t>) {
*self = *self ^ other;
}
}
forward_ref_op_assign! { impl BitXorAssign, bitxor_assign for Wrapping<$t>, Wrapping<$t> }
#[stable(feature = "wrapping_int_assign_impl", since = "1.60.0")]
impl BitXorAssign<$t> for Wrapping<$t> {
#[inline]
fn bitxor_assign(&mut self, other: $t) {
*self = *self ^ Wrapping(other);
}
}
forward_ref_op_assign! { impl BitXorAssign, bitxor_assign for Wrapping<$t>, $t }
#[stable(feature = "rust1", since = "1.0.0")]
impl BitOr for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn bitor(self, other: Wrapping<$t>) -> Wrapping<$t> {
Wrapping(self.0 | other.0)
}
}
forward_ref_binop! { impl BitOr, bitor for Wrapping<$t>, Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl BitOrAssign for Wrapping<$t> {
#[inline]
fn bitor_assign(&mut self, other: Wrapping<$t>) {
*self = *self | other;
}
}
forward_ref_op_assign! { impl BitOrAssign, bitor_assign for Wrapping<$t>, Wrapping<$t> }
#[stable(feature = "wrapping_int_assign_impl", since = "1.60.0")]
impl BitOrAssign<$t> for Wrapping<$t> {
#[inline]
fn bitor_assign(&mut self, other: $t) {
*self = *self | Wrapping(other);
}
}
forward_ref_op_assign! { impl BitOrAssign, bitor_assign for Wrapping<$t>, $t }
#[stable(feature = "rust1", since = "1.0.0")]
impl BitAnd for Wrapping<$t> {
type Output = Wrapping<$t>;
#[inline]
fn bitand(self, other: Wrapping<$t>) -> Wrapping<$t> {
Wrapping(self.0 & other.0)
}
}
forward_ref_binop! { impl BitAnd, bitand for Wrapping<$t>, Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
#[stable(feature = "op_assign_traits", since = "1.8.0")]
impl BitAndAssign for Wrapping<$t> {
#[inline]
fn bitand_assign(&mut self, other: Wrapping<$t>) {
*self = *self & other;
}
}
forward_ref_op_assign! { impl BitAndAssign, bitand_assign for Wrapping<$t>, Wrapping<$t> }
#[stable(feature = "wrapping_int_assign_impl", since = "1.60.0")]
impl BitAndAssign<$t> for Wrapping<$t> {
#[inline]
fn bitand_assign(&mut self, other: $t) {
*self = *self & Wrapping(other);
}
}
forward_ref_op_assign! { impl BitAndAssign, bitand_assign for Wrapping<$t>, $t }
#[stable(feature = "wrapping_neg", since = "1.10.0")]
impl Neg for Wrapping<$t> {
type Output = Self;
#[inline]
fn neg(self) -> Self {
Wrapping(0) - self
}
}
forward_ref_unop! { impl Neg, neg for Wrapping<$t>,
#[stable(feature = "wrapping_ref", since = "1.14.0")] }
)*)
}
wrapping_impl! { usize u8 u16 u32 u64 u128 isize i8 i16 i32 i64 i128 }
macro_rules! wrapping_int_impl {
($($t:ty)*) => ($(
impl Wrapping<$t> {
/// Returns the smallest value that can be represented by this integer type.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert_eq!(<Wrapping<", stringify!($t), ">>::MIN, Wrapping(", stringify!($t), "::MIN));")]
/// ```
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const MIN: Self = Self(<$t>::MIN);
/// Returns the largest value that can be represented by this integer type.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert_eq!(<Wrapping<", stringify!($t), ">>::MAX, Wrapping(", stringify!($t), "::MAX));")]
/// ```
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const MAX: Self = Self(<$t>::MAX);
/// Returns the size of this integer type in bits.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert_eq!(<Wrapping<", stringify!($t), ">>::BITS, ", stringify!($t), "::BITS);")]
/// ```
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const BITS: u32 = <$t>::BITS;
/// Returns the number of ones in the binary representation of `self`.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("let n = Wrapping(0b01001100", stringify!($t), ");")]
///
/// assert_eq!(n.count_ones(), 3);
/// ```
#[inline]
#[doc(alias = "popcount")]
#[doc(alias = "popcnt")]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn count_ones(self) -> u32 {
self.0.count_ones()
}
/// Returns the number of zeros in the binary representation of `self`.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert_eq!(Wrapping(!0", stringify!($t), ").count_zeros(), 0);")]
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn count_zeros(self) -> u32 {
self.0.count_zeros()
}
/// Returns the number of trailing zeros in the binary representation of `self`.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("let n = Wrapping(0b0101000", stringify!($t), ");")]
///
/// assert_eq!(n.trailing_zeros(), 3);
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn trailing_zeros(self) -> u32 {
self.0.trailing_zeros()
}
/// Shifts the bits to the left by a specified amount, `n`,
/// wrapping the truncated bits to the end of the resulting
/// integer.
///
/// Please note this isn't the same operation as the `<<` shifting
/// operator!
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
/// let n: Wrapping<i64> = Wrapping(0x0123456789ABCDEF);
/// let m: Wrapping<i64> = Wrapping(-0x76543210FEDCBA99);
///
/// assert_eq!(n.rotate_left(32), m);
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn rotate_left(self, n: u32) -> Self {
Wrapping(self.0.rotate_left(n))
}
/// Shifts the bits to the right by a specified amount, `n`,
/// wrapping the truncated bits to the beginning of the resulting
/// integer.
///
/// Please note this isn't the same operation as the `>>` shifting
/// operator!
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
/// let n: Wrapping<i64> = Wrapping(0x0123456789ABCDEF);
/// let m: Wrapping<i64> = Wrapping(-0xFEDCBA987654322);
///
/// assert_eq!(n.rotate_right(4), m);
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn rotate_right(self, n: u32) -> Self {
Wrapping(self.0.rotate_right(n))
}
/// Reverses the byte order of the integer.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
/// let n: Wrapping<i16> = Wrapping(0b0000000_01010101);
/// assert_eq!(n, Wrapping(85));
///
/// let m = n.swap_bytes();
///
/// assert_eq!(m, Wrapping(0b01010101_00000000));
/// assert_eq!(m, Wrapping(21760));
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn swap_bytes(self) -> Self {
Wrapping(self.0.swap_bytes())
}
/// Reverses the bit pattern of the integer.
///
/// # Examples
///
/// Please note that this example is shared between integer types.
/// Which explains why `i16` is used here.
///
/// Basic usage:
///
/// ```
/// use std::num::Wrapping;
///
/// let n = Wrapping(0b0000000_01010101i16);
/// assert_eq!(n, Wrapping(85));
///
/// let m = n.reverse_bits();
///
/// assert_eq!(m.0 as u16, 0b10101010_00000000);
/// assert_eq!(m, Wrapping(-22016));
/// ```
#[stable(feature = "reverse_bits", since = "1.37.0")]
#[rustc_const_stable(feature = "const_reverse_bits", since = "1.37.0")]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[inline]
pub const fn reverse_bits(self) -> Self {
Wrapping(self.0.reverse_bits())
}
/// Converts an integer from big endian to the target's endianness.
///
/// On big endian this is a no-op. On little endian the bytes are
/// swapped.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("let n = Wrapping(0x1A", stringify!($t), ");")]
///
/// if cfg!(target_endian = "big") {
#[doc = concat!(" assert_eq!(<Wrapping<", stringify!($t), ">>::from_be(n), n)")]
/// } else {
#[doc = concat!(" assert_eq!(<Wrapping<", stringify!($t), ">>::from_be(n), n.swap_bytes())")]
/// }
/// ```
#[inline]
#[must_use]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn from_be(x: Self) -> Self {
Wrapping(<$t>::from_be(x.0))
}
/// Converts an integer from little endian to the target's endianness.
///
/// On little endian this is a no-op. On big endian the bytes are
/// swapped.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("let n = Wrapping(0x1A", stringify!($t), ");")]
///
/// if cfg!(target_endian = "little") {
#[doc = concat!(" assert_eq!(<Wrapping<", stringify!($t), ">>::from_le(n), n)")]
/// } else {
#[doc = concat!(" assert_eq!(<Wrapping<", stringify!($t), ">>::from_le(n), n.swap_bytes())")]
/// }
/// ```
#[inline]
#[must_use]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn from_le(x: Self) -> Self {
Wrapping(<$t>::from_le(x.0))
}
/// Converts `self` to big endian from the target's endianness.
///
/// On big endian this is a no-op. On little endian the bytes are
/// swapped.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("let n = Wrapping(0x1A", stringify!($t), ");")]
///
/// if cfg!(target_endian = "big") {
/// assert_eq!(n.to_be(), n)
/// } else {
/// assert_eq!(n.to_be(), n.swap_bytes())
/// }
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn to_be(self) -> Self {
Wrapping(self.0.to_be())
}
/// Converts `self` to little endian from the target's endianness.
///
/// On little endian this is a no-op. On big endian the bytes are
/// swapped.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("let n = Wrapping(0x1A", stringify!($t), ");")]
///
/// if cfg!(target_endian = "little") {
/// assert_eq!(n.to_le(), n)
/// } else {
/// assert_eq!(n.to_le(), n.swap_bytes())
/// }
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn to_le(self) -> Self {
Wrapping(self.0.to_le())
}
/// Raises self to the power of `exp`, using exponentiation by squaring.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert_eq!(Wrapping(3", stringify!($t), ").pow(4), Wrapping(81));")]
/// ```
///
/// Results that are too large are wrapped:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
/// assert_eq!(Wrapping(3i8).pow(5), Wrapping(-13));
/// assert_eq!(Wrapping(3i8).pow(6), Wrapping(-39));
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub fn pow(self, exp: u32) -> Self {
Wrapping(self.0.wrapping_pow(exp))
}
}
)*)
}
wrapping_int_impl! { usize u8 u16 u32 u64 u128 isize i8 i16 i32 i64 i128 }
macro_rules! wrapping_int_impl_signed {
($($t:ty)*) => ($(
impl Wrapping<$t> {
/// Returns the number of leading zeros in the binary representation of `self`.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("let n = Wrapping(", stringify!($t), "::MAX) >> 2;")]
///
/// assert_eq!(n.leading_zeros(), 3);
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn leading_zeros(self) -> u32 {
self.0.leading_zeros()
}
/// Computes the absolute value of `self`, wrapping around at
/// the boundary of the type.
///
/// The only case where such wrapping can occur is when one takes the absolute value of the negative
/// minimal value for the type this is a positive value that is too large to represent in the type. In
/// such a case, this function returns `MIN` itself.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert_eq!(Wrapping(100", stringify!($t), ").abs(), Wrapping(100));")]
#[doc = concat!("assert_eq!(Wrapping(-100", stringify!($t), ").abs(), Wrapping(100));")]
#[doc = concat!("assert_eq!(Wrapping(", stringify!($t), "::MIN).abs(), Wrapping(", stringify!($t), "::MIN));")]
/// assert_eq!(Wrapping(-128i8).abs().0 as u8, 128u8);
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub fn abs(self) -> Wrapping<$t> {
Wrapping(self.0.wrapping_abs())
}
/// Returns a number representing sign of `self`.
///
/// - `0` if the number is zero
/// - `1` if the number is positive
/// - `-1` if the number is negative
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert_eq!(Wrapping(10", stringify!($t), ").signum(), Wrapping(1));")]
#[doc = concat!("assert_eq!(Wrapping(0", stringify!($t), ").signum(), Wrapping(0));")]
#[doc = concat!("assert_eq!(Wrapping(-10", stringify!($t), ").signum(), Wrapping(-1));")]
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub fn signum(self) -> Wrapping<$t> {
Wrapping(self.0.signum())
}
/// Returns `true` if `self` is positive and `false` if the number is zero or
/// negative.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert!(Wrapping(10", stringify!($t), ").is_positive());")]
#[doc = concat!("assert!(!Wrapping(-10", stringify!($t), ").is_positive());")]
/// ```
#[must_use]
#[inline]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn is_positive(self) -> bool {
self.0.is_positive()
}
/// Returns `true` if `self` is negative and `false` if the number is zero or
/// positive.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert!(Wrapping(-10", stringify!($t), ").is_negative());")]
#[doc = concat!("assert!(!Wrapping(10", stringify!($t), ").is_negative());")]
/// ```
#[must_use]
#[inline]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn is_negative(self) -> bool {
self.0.is_negative()
}
}
)*)
}
wrapping_int_impl_signed! { isize i8 i16 i32 i64 i128 }
macro_rules! wrapping_int_impl_unsigned {
($($t:ty)*) => ($(
impl Wrapping<$t> {
/// Returns the number of leading zeros in the binary representation of `self`.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("let n = Wrapping(", stringify!($t), "::MAX) >> 2;")]
///
/// assert_eq!(n.leading_zeros(), 2);
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub const fn leading_zeros(self) -> u32 {
self.0.leading_zeros()
}
/// Returns `true` if and only if `self == 2^k` for some `k`.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_int_impl)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert!(Wrapping(16", stringify!($t), ").is_power_of_two());")]
#[doc = concat!("assert!(!Wrapping(10", stringify!($t), ").is_power_of_two());")]
/// ```
#[must_use]
#[inline]
#[unstable(feature = "wrapping_int_impl", issue = "32463")]
pub fn is_power_of_two(self) -> bool {
self.0.is_power_of_two()
}
/// Returns the smallest power of two greater than or equal to `self`.
///
/// When return value overflows (i.e., `self > (1 << (N-1))` for type
/// `uN`), overflows to `2^N = 0`.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(wrapping_next_power_of_two)]
/// use std::num::Wrapping;
///
#[doc = concat!("assert_eq!(Wrapping(2", stringify!($t), ").next_power_of_two(), Wrapping(2));")]
#[doc = concat!("assert_eq!(Wrapping(3", stringify!($t), ").next_power_of_two(), Wrapping(4));")]
#[doc = concat!("assert_eq!(Wrapping(200_u8).next_power_of_two(), Wrapping(0));")]
/// ```
#[inline]
#[must_use = "this returns the result of the operation, \
without modifying the original"]
#[unstable(feature = "wrapping_next_power_of_two", issue = "32463",
reason = "needs decision on wrapping behaviour")]
pub fn next_power_of_two(self) -> Self {
Wrapping(self.0.wrapping_next_power_of_two())
}
}
)*)
}
wrapping_int_impl_unsigned! { usize u8 u16 u32 u64 u128 }
mod shift_max {
#![allow(non_upper_case_globals)]
#[cfg(target_pointer_width = "16")]
mod platform {
pub const usize: u32 = super::u16;
pub const isize: u32 = super::i16;
}
#[cfg(target_pointer_width = "32")]
mod platform {
pub const usize: u32 = super::u32;
pub const isize: u32 = super::i32;
}
#[cfg(target_pointer_width = "64")]
mod platform {
pub const usize: u32 = super::u64;
pub const isize: u32 = super::i64;
}
pub const i8: u32 = (1 << 3) - 1;
pub const i16: u32 = (1 << 4) - 1;
pub const i32: u32 = (1 << 5) - 1;
pub const i64: u32 = (1 << 6) - 1;
pub const i128: u32 = (1 << 7) - 1;
pub use self::platform::isize;
pub const u8: u32 = i8;
pub const u16: u32 = i16;
pub const u32: u32 = i32;
pub const u64: u32 = i64;
pub const u128: u32 = i128;
pub use self::platform::usize;
}