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Auto merge of #125188 - tgross35:f16-f128-powi, r=Nilstrieb

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Add `powi` fo `f16` and `f128`

This will unblock adding support to compiler_builtins (<https://github.com/rust-lang/compiler-builtins/pull/614>), which will then unblock adding tests for these new functions.
This commit is contained in:
bors 2024-05-17 11:24:07 +00:00
commit ddba1dc97e
6 changed files with 100 additions and 1 deletions
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12
library/core/src/intrinsics.rs
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@ -1594,6 +1594,12 @@ pub const fn unlikely(b: bool) -> bool {
#[rustc_nounwind]
pub fn sqrtf64(x: f64) -> f64;
/// Raises an `f16` to an integer power.
///
/// The stabilized version of this intrinsic is
/// [`f16::powi`](../../std/primitive.f16.html#method.powi)
#[rustc_nounwind]
pub fn powif16(a: f16, x: i32) -> f16;
/// Raises an `f32` to an integer power.
///
/// The stabilized version of this intrinsic is
@ -1606,6 +1612,12 @@ pub const fn unlikely(b: bool) -> bool {
/// [`f64::powi`](../../std/primitive.f64.html#method.powi)
#[rustc_nounwind]
pub fn powif64(a: f64, x: i32) -> f64;
/// Raises an `f128` to an integer power.
///
/// The stabilized version of this intrinsic is
/// [`f128::powi`](../../std/primitive.f128.html#method.powi)
#[rustc_nounwind]
pub fn powif128(a: f128, x: i32) -> f128;
/// Returns the sine of an `f32`.
///

20
library/core/src/num/f128.rs
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@ -228,6 +228,16 @@ pub const fn is_nan(self) -> bool {
/// the bit pattern of NaNs are conserved over arithmetic operations, the result of
/// `is_sign_positive` on a NaN might produce an unexpected result in some cases.
/// See [explanation of NaN as a special value](f32) for more info.
///
/// ```
/// #![feature(f128)]
///
/// let f = 7.0_f128;
/// let g = -7.0_f128;
///
/// assert!(f.is_sign_positive());
/// assert!(!g.is_sign_positive());
/// ```
#[inline]
#[must_use]
#[unstable(feature = "f128", issue = "116909")]
@ -241,6 +251,16 @@ pub fn is_sign_positive(self) -> bool {
/// the bit pattern of NaNs are conserved over arithmetic operations, the result of
/// `is_sign_negative` on a NaN might produce an unexpected result in some cases.
/// See [explanation of NaN as a special value](f32) for more info.
///
/// ```
/// #![feature(f128)]
///
/// let f = 7.0_f128;
/// let g = -7.0_f128;
///
/// assert!(!f.is_sign_negative());
/// assert!(g.is_sign_negative());
/// ```
#[inline]
#[must_use]
#[unstable(feature = "f128", issue = "116909")]

20
library/core/src/num/f16.rs
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@ -224,6 +224,16 @@ pub const fn is_nan(self) -> bool {
/// the bit pattern of NaNs are conserved over arithmetic operations, the result of
/// `is_sign_positive` on a NaN might produce an unexpected result in some cases.
/// See [explanation of NaN as a special value](f32) for more info.
///
/// ```
/// #![feature(f16)]
///
/// let f = 7.0_f16;
/// let g = -7.0_f16;
///
/// assert!(f.is_sign_positive());
/// assert!(!g.is_sign_positive());
/// ```
#[inline]
#[must_use]
#[unstable(feature = "f16", issue = "116909")]
@ -237,6 +247,16 @@ pub fn is_sign_positive(self) -> bool {
/// the bit pattern of NaNs are conserved over arithmetic operations, the result of
/// `is_sign_negative` on a NaN might produce an unexpected result in some cases.
/// See [explanation of NaN as a special value](f32) for more info.
///
/// ```
/// #![feature(f16)]
///
/// let f = 7.0_f16;
/// let g = -7.0_f16;
///
/// assert!(!f.is_sign_negative());
/// assert!(g.is_sign_negative());
/// ```
#[inline]
#[must_use]
#[unstable(feature = "f16", issue = "116909")]

1
library/core/src/num/f64.rs
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@ -1111,7 +1111,6 @@ pub unsafe fn to_int_unchecked<Int>(self) -> Int
/// ```
/// assert!((1f64).to_bits() != 1f64 as u64); // to_bits() is not casting!
/// assert_eq!((12.5f64).to_bits(), 0x4029000000000000);
///
/// ```
#[must_use = "this returns the result of the operation, \
without modifying the original"]

24
library/std/src/f128.rs
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@ -7,5 +7,29 @@
#[cfg(test)]
mod tests;
#[cfg(not(test))]
use crate::intrinsics;
#[unstable(feature = "f128", issue = "116909")]
pub use core::f128::consts;
#[cfg(not(test))]
impl f128 {
/// Raises a number to an integer power.
///
/// Using this function is generally faster than using `powf`.
/// It might have a different sequence of rounding operations than `powf`,
/// so the results are not guaranteed to agree.
///
/// # Unspecified precision
///
/// The precision of this function is non-deterministic. This means it varies by platform, Rust version, and
/// can even differ within the same execution from one invocation to the next.
#[inline]
#[rustc_allow_incoherent_impl]
#[unstable(feature = "f128", issue = "116909")]
#[must_use = "method returns a new number and does not mutate the original value"]
pub fn powi(self, n: i32) -> f128 {
unsafe { intrinsics::powif128(self, n) }
}
}

24
library/std/src/f16.rs
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@ -7,5 +7,29 @@
#[cfg(test)]
mod tests;
#[cfg(not(test))]
use crate::intrinsics;
#[unstable(feature = "f16", issue = "116909")]
pub use core::f16::consts;
#[cfg(not(test))]
impl f16 {
/// Raises a number to an integer power.
///
/// Using this function is generally faster than using `powf`.
/// It might have a different sequence of rounding operations than `powf`,
/// so the results are not guaranteed to agree.
///
/// # Unspecified precision
///
/// The precision of this function is non-deterministic. This means it varies by platform, Rust version, and
/// can even differ within the same execution from one invocation to the next.
#[inline]
#[rustc_allow_incoherent_impl]
#[unstable(feature = "f16", issue = "116909")]
#[must_use = "method returns a new number and does not mutate the original value"]
pub fn powi(self, n: i32) -> f16 {
unsafe { intrinsics::powif16(self, n) }
}
}