diff --git a/library/std/src/f32.rs b/library/std/src/f32.rs index de9bde51f2a..4fc82fec0ad 100644 --- a/library/std/src/f32.rs +++ b/library/std/src/f32.rs @@ -371,9 +371,10 @@ impl f32 { /// It might have a different sequence of rounding operations than `powf`, /// so the results are not guaranteed to agree. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -393,9 +394,10 @@ impl f32 { /// Raises a number to a floating point power. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -444,9 +446,10 @@ impl f32 { /// Returns `e^(self)`, (the exponential function). /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -470,9 +473,10 @@ impl f32 { /// Returns `2^(self)`. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -494,9 +498,10 @@ impl f32 { /// Returns the natural logarithm of the number. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -524,9 +529,10 @@ impl f32 { /// `self.log2()` can produce more accurate results for base 2, and /// `self.log10()` can produce more accurate results for base 10. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -548,9 +554,10 @@ impl f32 { /// Returns the base 2 logarithm of the number. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -572,9 +579,10 @@ impl f32 { /// Returns the base 10 logarithm of the number. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -599,9 +607,10 @@ impl f32 { /// * If `self <= other`: `0.0` /// * Else: `self - other` /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `fdimf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -637,9 +646,10 @@ impl f32 { /// Returns the cube root of a number. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `cbrtf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -666,9 +676,10 @@ impl f32 { /// right-angle triangle with other sides having length `x.abs()` and /// `y.abs()`. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `hypotf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -693,9 +704,10 @@ impl f32 { /// Computes the sine of a number (in radians). /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -716,9 +728,10 @@ impl f32 { /// Computes the cosine of a number (in radians). /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -739,9 +752,10 @@ impl f32 { /// Computes the tangent of a number (in radians). /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `tanf` from libc on Unix and /// Windows. Note that this might change in the future. /// @@ -765,9 +779,10 @@ impl f32 { /// the range [-pi/2, pi/2] or NaN if the number is outside the range /// [-1, 1]. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `asinf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -794,9 +809,10 @@ impl f32 { /// the range [0, pi] or NaN if the number is outside the range /// [-1, 1]. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `acosf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -822,9 +838,10 @@ impl f32 { /// Computes the arctangent of a number. Return value is in radians in the /// range [-pi/2, pi/2]; /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `atanf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -854,9 +871,10 @@ impl f32 { /// * `y >= 0`: `arctan(y/x) + pi` -> `(pi/2, pi]` /// * `y < 0`: `arctan(y/x) - pi` -> `(-pi, -pi/2)` /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `atan2f` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -890,9 +908,10 @@ impl f32 { /// Simultaneously computes the sine and cosine of the number, `x`. Returns /// `(sin(x), cos(x))`. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `(f32::sin(x), /// f32::cos(x))`. Note that this might change in the future. /// @@ -919,9 +938,10 @@ impl f32 { /// Returns `e^(self) - 1` in a way that is accurate even if the /// number is close to zero. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `expm1f` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -947,9 +967,10 @@ impl f32 { /// Returns `ln(1+n)` (natural logarithm) more accurately than if /// the operations were performed separately. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `log1pf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -975,9 +996,10 @@ impl f32 { /// Hyperbolic sine function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `sinhf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -1004,9 +1026,10 @@ impl f32 { /// Hyperbolic cosine function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `coshf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -1033,9 +1056,10 @@ impl f32 { /// Hyperbolic tangent function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `tanhf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -1062,9 +1086,10 @@ impl f32 { /// Inverse hyperbolic sine function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -1089,9 +1114,10 @@ impl f32 { /// Inverse hyperbolic cosine function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -1118,9 +1144,10 @@ impl f32 { /// Inverse hyperbolic tangent function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -1143,9 +1170,10 @@ impl f32 { /// Gamma function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `tgammaf` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -1171,9 +1199,10 @@ impl f32 { /// /// The integer part of the tuple indicates the sign of the gamma function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `lgamma_r` from libc on Unix /// and Windows. Note that this might change in the future. /// diff --git a/library/std/src/f64.rs b/library/std/src/f64.rs index 944186d602c..f8c66a3e717 100644 --- a/library/std/src/f64.rs +++ b/library/std/src/f64.rs @@ -371,9 +371,10 @@ impl f64 { /// It might have a different sequence of rounding operations than `powf`, /// so the results are not guaranteed to agree. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -393,9 +394,10 @@ impl f64 { /// Raises a number to a floating point power. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -444,9 +446,10 @@ impl f64 { /// Returns `e^(self)`, (the exponential function). /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -470,9 +473,10 @@ impl f64 { /// Returns `2^(self)`. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -494,9 +498,10 @@ impl f64 { /// Returns the natural logarithm of the number. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -524,9 +529,10 @@ impl f64 { /// `self.log2()` can produce more accurate results for base 2, and /// `self.log10()` can produce more accurate results for base 10. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -548,9 +554,10 @@ impl f64 { /// Returns the base 2 logarithm of the number. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -572,9 +579,10 @@ impl f64 { /// Returns the base 10 logarithm of the number. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -599,9 +607,10 @@ impl f64 { /// * If `self <= other`: `0.0` /// * Else: `self - other` /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `fdim` from libc on Unix and /// Windows. Note that this might change in the future. /// @@ -637,9 +646,10 @@ impl f64 { /// Returns the cube root of a number. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `cbrt` from libc on Unix and /// Windows. Note that this might change in the future. /// @@ -666,9 +676,10 @@ impl f64 { /// right-angle triangle with other sides having length `x.abs()` and /// `y.abs()`. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `hypot` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -693,9 +704,10 @@ impl f64 { /// Computes the sine of a number (in radians). /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -716,9 +728,10 @@ impl f64 { /// Computes the cosine of a number (in radians). /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -739,9 +752,10 @@ impl f64 { /// Computes the tangent of a number (in radians). /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `tan` from libc on Unix and /// Windows. Note that this might change in the future. /// @@ -765,9 +779,10 @@ impl f64 { /// the range [-pi/2, pi/2] or NaN if the number is outside the range /// [-1, 1]. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `asin` from libc on Unix and /// Windows. Note that this might change in the future. /// @@ -794,9 +809,10 @@ impl f64 { /// the range [0, pi] or NaN if the number is outside the range /// [-1, 1]. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `acos` from libc on Unix and /// Windows. Note that this might change in the future. /// @@ -822,9 +838,10 @@ impl f64 { /// Computes the arctangent of a number. Return value is in radians in the /// range [-pi/2, pi/2]; /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `atan` from libc on Unix and /// Windows. Note that this might change in the future. /// @@ -854,9 +871,10 @@ impl f64 { /// * `y >= 0`: `arctan(y/x) + pi` -> `(pi/2, pi]` /// * `y < 0`: `arctan(y/x) - pi` -> `(-pi, -pi/2)` /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `atan2` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -890,9 +908,10 @@ impl f64 { /// Simultaneously computes the sine and cosine of the number, `x`. Returns /// `(sin(x), cos(x))`. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `(f64::sin(x), /// f64::cos(x))`. Note that this might change in the future. /// @@ -919,9 +938,10 @@ impl f64 { /// Returns `e^(self) - 1` in a way that is accurate even if the /// number is close to zero. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `expm1` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -947,9 +967,10 @@ impl f64 { /// Returns `ln(1+n)` (natural logarithm) more accurately than if /// the operations were performed separately. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `log1p` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -975,9 +996,10 @@ impl f64 { /// Hyperbolic sine function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `sinh` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -1004,9 +1026,10 @@ impl f64 { /// Hyperbolic cosine function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `cosh` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -1033,9 +1056,10 @@ impl f64 { /// Hyperbolic tangent function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `tanh` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -1062,9 +1086,10 @@ impl f64 { /// Inverse hyperbolic sine function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -1089,9 +1114,10 @@ impl f64 { /// Inverse hyperbolic cosine function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -1118,9 +1144,10 @@ impl f64 { /// Inverse hyperbolic tangent function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// /// # Examples /// @@ -1143,9 +1170,10 @@ impl f64 { /// Gamma function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `tgamma` from libc on Unix /// and Windows. Note that this might change in the future. /// @@ -1171,9 +1199,10 @@ impl f64 { /// /// The integer part of the tuple indicates the sign of the gamma function. /// - /// # Platform-specific precision + /// # Unspecified precision /// - /// The precision of this function varies by platform and Rust version. + /// 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. /// This function currently corresponds to the `lgamma_r` from libc on Unix /// and Windows. Note that this might change in the future. ///