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Auto merge of #123783 - tgross35:f16-f128-debug-impl, r=Amanieu
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Add a `Debug` impl and some basic functions to `f16` and `f128`

`compiler_builtins` uses some convenience functions like `is_nan` and `is_sign_positive`. Add these, as well as a temporary implementation for `Debug` that prints the bit representation.
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bors committed Apr 12, 2024
2 parents ab71ee7 + 5159ecd commit 7bdae13
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16 changes: 16 additions & 0 deletions library/core/src/fmt/float.rs
Original file line number Diff line number Diff line change
Expand Up @@ -228,3 +228,19 @@ macro_rules! floating {

floating! { f32 }
floating! { f64 }

#[stable(feature = "rust1", since = "1.0.0")]
impl Debug for f16 {
#[inline]
fn fmt(&self, f: &mut Formatter<'_>) -> Result {
write!(f, "{:#06x}", self.to_bits())
}
}

#[stable(feature = "rust1", since = "1.0.0")]
impl Debug for f128 {
#[inline]
fn fmt(&self, f: &mut Formatter<'_>) -> Result {
write!(f, "{:#034x}", self.to_bits())
}
}
104 changes: 104 additions & 0 deletions library/core/src/num/f128.rs
Original file line number Diff line number Diff line change
Expand Up @@ -11,6 +11,110 @@

#![unstable(feature = "f128", issue = "116909")]

use crate::mem;

/// Basic mathematical constants.
#[unstable(feature = "f128", issue = "116909")]
pub mod consts {}

#[cfg(not(test))]
impl f128 {
// FIXME(f16_f128): almost everything in this `impl` is missing examples and a const
// implementation. Add these once we can run code on all platforms and have f16/f128 in CTFE.

/// Returns `true` if this value is NaN.
#[inline]
#[must_use]
#[unstable(feature = "f128", issue = "116909")]
#[allow(clippy::eq_op)] // > if you intended to check if the operand is NaN, use `.is_nan()` instead :)
pub const fn is_nan(self) -> bool {
self != self
}

/// Returns `true` if `self` has a positive sign, including `+0.0`, NaNs with
/// positive sign bit and positive infinity. Note that IEEE 754 doesn't assign any
/// meaning to the sign bit in case of a NaN, and as Rust doesn't guarantee that
/// 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.
#[inline]
#[must_use]
#[unstable(feature = "f128", issue = "116909")]
pub fn is_sign_positive(self) -> bool {
!self.is_sign_negative()
}

/// Returns `true` if `self` has a negative sign, including `-0.0`, NaNs with
/// negative sign bit and negative infinity. Note that IEEE 754 doesn't assign any
/// meaning to the sign bit in case of a NaN, and as Rust doesn't guarantee that
/// 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.
#[inline]
#[must_use]
#[unstable(feature = "f128", issue = "116909")]
pub fn is_sign_negative(self) -> bool {
// IEEE754 says: isSignMinus(x) is true if and only if x has negative sign. isSignMinus
// applies to zeros and NaNs as well.
// SAFETY: This is just transmuting to get the sign bit, it's fine.
(self.to_bits() & (1 << 127)) != 0
}

/// Raw transmutation to `u128`.
///
/// This is currently identical to `transmute::<f128, u128>(self)` on all platforms.
///
/// See [`from_bits`](#method.from_bits) for some discussion of the
/// portability of this operation (there are almost no issues).
///
/// Note that this function is distinct from `as` casting, which attempts to
/// preserve the *numeric* value, and not the bitwise value.
#[inline]
#[unstable(feature = "f128", issue = "116909")]
#[must_use = "this returns the result of the operation, without modifying the original"]
pub fn to_bits(self) -> u128 {
// SAFETY: `u128` is a plain old datatype so we can always... uh...
// ...look, just pretend you forgot what you just read.
// Stability concerns.
unsafe { mem::transmute(self) }
}

/// Raw transmutation from `u128`.
///
/// This is currently identical to `transmute::<u128, f128>(v)` on all platforms.
/// It turns out this is incredibly portable, for two reasons:
///
/// * Floats and Ints have the same endianness on all supported platforms.
/// * IEEE 754 very precisely specifies the bit layout of floats.
///
/// However there is one caveat: prior to the 2008 version of IEEE 754, how
/// to interpret the NaN signaling bit wasn't actually specified. Most platforms
/// (notably x86 and ARM) picked the interpretation that was ultimately
/// standardized in 2008, but some didn't (notably MIPS). As a result, all
/// signaling NaNs on MIPS are quiet NaNs on x86, and vice-versa.
///
/// Rather than trying to preserve signaling-ness cross-platform, this
/// implementation favors preserving the exact bits. This means that
/// any payloads encoded in NaNs will be preserved even if the result of
/// this method is sent over the network from an x86 machine to a MIPS one.
///
/// If the results of this method are only manipulated by the same
/// architecture that produced them, then there is no portability concern.
///
/// If the input isn't NaN, then there is no portability concern.
///
/// If you don't care about signalingness (very likely), then there is no
/// portability concern.
///
/// Note that this function is distinct from `as` casting, which attempts to
/// preserve the *numeric* value, and not the bitwise value.
#[inline]
#[must_use]
#[unstable(feature = "f128", issue = "116909")]
pub fn from_bits(v: u128) -> Self {
// SAFETY: `u128 is a plain old datatype so we can always... uh...
// ...look, just pretend you forgot what you just read.
// Stability concerns.
unsafe { mem::transmute(v) }
}
}
104 changes: 104 additions & 0 deletions library/core/src/num/f16.rs
Original file line number Diff line number Diff line change
Expand Up @@ -11,6 +11,110 @@

#![unstable(feature = "f16", issue = "116909")]

use crate::mem;

/// Basic mathematical constants.
#[unstable(feature = "f16", issue = "116909")]
pub mod consts {}

#[cfg(not(test))]
impl f16 {
// FIXME(f16_f128): almost everything in this `impl` is missing examples and a const
// implementation. Add these once we can run code on all platforms and have f16/f128 in CTFE.

/// Returns `true` if this value is NaN.
#[inline]
#[must_use]
#[unstable(feature = "f16", issue = "116909")]
#[allow(clippy::eq_op)] // > if you intended to check if the operand is NaN, use `.is_nan()` instead :)
pub const fn is_nan(self) -> bool {
self != self
}

/// Returns `true` if `self` has a positive sign, including `+0.0`, NaNs with
/// positive sign bit and positive infinity. Note that IEEE 754 doesn't assign any
/// meaning to the sign bit in case of a NaN, and as Rust doesn't guarantee that
/// 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.
#[inline]
#[must_use]
#[unstable(feature = "f128", issue = "116909")]
pub fn is_sign_positive(self) -> bool {
!self.is_sign_negative()
}

/// Returns `true` if `self` has a negative sign, including `-0.0`, NaNs with
/// negative sign bit and negative infinity. Note that IEEE 754 doesn't assign any
/// meaning to the sign bit in case of a NaN, and as Rust doesn't guarantee that
/// 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.
#[inline]
#[must_use]
#[unstable(feature = "f128", issue = "116909")]
pub fn is_sign_negative(self) -> bool {
// IEEE754 says: isSignMinus(x) is true if and only if x has negative sign. isSignMinus
// applies to zeros and NaNs as well.
// SAFETY: This is just transmuting to get the sign bit, it's fine.
(self.to_bits() & (1 << 15)) != 0
}

/// Raw transmutation to `u16`.
///
/// This is currently identical to `transmute::<f16, u16>(self)` on all platforms.
///
/// See [`from_bits`](#method.from_bits) for some discussion of the
/// portability of this operation (there are almost no issues).
///
/// Note that this function is distinct from `as` casting, which attempts to
/// preserve the *numeric* value, and not the bitwise value.
#[inline]
#[unstable(feature = "f16", issue = "116909")]
#[must_use = "this returns the result of the operation, without modifying the original"]
pub fn to_bits(self) -> u16 {
// SAFETY: `u16` is a plain old datatype so we can always... uh...
// ...look, just pretend you forgot what you just read.
// Stability concerns.
unsafe { mem::transmute(self) }
}

/// Raw transmutation from `u16`.
///
/// This is currently identical to `transmute::<u16, f16>(v)` on all platforms.
/// It turns out this is incredibly portable, for two reasons:
///
/// * Floats and Ints have the same endianness on all supported platforms.
/// * IEEE 754 very precisely specifies the bit layout of floats.
///
/// However there is one caveat: prior to the 2008 version of IEEE 754, how
/// to interpret the NaN signaling bit wasn't actually specified. Most platforms
/// (notably x86 and ARM) picked the interpretation that was ultimately
/// standardized in 2008, but some didn't (notably MIPS). As a result, all
/// signaling NaNs on MIPS are quiet NaNs on x86, and vice-versa.
///
/// Rather than trying to preserve signaling-ness cross-platform, this
/// implementation favors preserving the exact bits. This means that
/// any payloads encoded in NaNs will be preserved even if the result of
/// this method is sent over the network from an x86 machine to a MIPS one.
///
/// If the results of this method are only manipulated by the same
/// architecture that produced them, then there is no portability concern.
///
/// If the input isn't NaN, then there is no portability concern.
///
/// If you don't care about signalingness (very likely), then there is no
/// portability concern.
///
/// Note that this function is distinct from `as` casting, which attempts to
/// preserve the *numeric* value, and not the bitwise value.
#[inline]
#[must_use]
#[unstable(feature = "f16", issue = "116909")]
pub fn from_bits(v: u16) -> Self {
// SAFETY: `u16` is a plain old datatype so we can always... uh...
// ...look, just pretend you forgot what you just read.
// Stability concerns.
unsafe { mem::transmute(v) }
}
}

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