#[cfg(not(test))]
use intrinsics;
#[cfg(not(test))]
-use libc::c_int;
-#[cfg(not(test))]
use num::FpCategory;
pub fn erfcf(n: c_float) -> c_float;
pub fn expm1f(n: c_float) -> c_float;
pub fn fdimf(a: c_float, b: c_float) -> c_float;
- pub fn fmaxf(a: c_float, b: c_float) -> c_float;
- pub fn fminf(a: c_float, b: c_float) -> c_float;
pub fn fmodf(a: c_float, b: c_float) -> c_float;
pub fn ilogbf(n: c_float) -> c_int;
pub fn logbf(n: c_float) -> c_float;
pub fn atan2f(a: c_float, b: c_float) -> c_float;
pub fn atanf(n: c_float) -> c_float;
pub fn coshf(n: c_float) -> c_float;
- pub fn frexpf(n: c_float, value: &mut c_int) -> c_float;
- pub fn ldexpf(x: c_float, n: c_int) -> c_float;
pub fn sinhf(n: c_float) -> c_float;
pub fn tanf(n: c_float) -> c_float;
pub fn tanhf(n: c_float) -> c_float;
pub use self::shims::*;
#[cfg(target_env = "msvc")]
mod shims {
- use libc::{c_float, c_int};
+ use libc::c_float;
#[inline]
pub unsafe fn acosf(n: c_float) -> c_float {
f64::cosh(n as f64) as c_float
}
- #[inline]
- #[allow(deprecated)]
- pub unsafe fn frexpf(x: c_float, value: &mut c_int) -> c_float {
- let (a, b) = f64::frexp(x as f64);
- *value = b as c_int;
- a as c_float
- }
-
- #[inline]
- #[allow(deprecated)]
- pub unsafe fn ldexpf(x: c_float, n: c_int) -> c_float {
- f64::ldexp(x as f64, n as isize) as c_float
- }
-
#[inline]
pub unsafe fn sinhf(n: c_float) -> c_float {
f64::sinh(n as f64) as c_float
#[inline]
pub fn classify(self) -> FpCategory { num::Float::classify(self) }
- /// Returns the mantissa, base 2 exponent, and sign as integers, respectively.
- /// The original number can be recovered by `sign * mantissa * 2 ^ exponent`.
- /// The floating point encoding is documented in the [Reference][floating-point].
- ///
- /// ```
- /// #![feature(float_extras)]
- ///
- /// use std::f32;
- ///
- /// let num = 2.0f32;
- ///
- /// // (8388608, -22, 1)
- /// let (mantissa, exponent, sign) = num.integer_decode();
- /// let sign_f = sign as f32;
- /// let mantissa_f = mantissa as f32;
- /// let exponent_f = num.powf(exponent as f32);
- ///
- /// // 1 * 8388608 * 2^(-22) == 2
- /// let abs_difference = (sign_f * mantissa_f * exponent_f - num).abs();
- ///
- /// assert!(abs_difference <= f32::EPSILON);
- /// ```
- /// [floating-point]: ../reference/types.html#machine-types
- #[unstable(feature = "float_extras", reason = "signature is undecided",
- issue = "27752")]
- #[rustc_deprecated(since = "1.11.0",
- reason = "never really came to fruition and easily \
- implementable outside the standard library")]
- #[inline]
- #[allow(deprecated)]
- pub fn integer_decode(self) -> (u64, i16, i8) {
- num::Float::integer_decode(self)
- }
-
/// Returns the largest integer less than or equal to a number.
///
/// ```
#[inline]
pub fn to_radians(self) -> f32 { num::Float::to_radians(self) }
- /// Constructs a floating point number of `x*2^exp`.
- ///
- /// ```
- /// #![feature(float_extras)]
- ///
- /// use std::f32;
- /// // 3*2^2 - 12 == 0
- /// let abs_difference = (f32::ldexp(3.0, 2) - 12.0).abs();
- ///
- /// assert!(abs_difference <= f32::EPSILON);
- /// ```
- #[unstable(feature = "float_extras",
- reason = "pending integer conventions",
- issue = "27752")]
- #[rustc_deprecated(since = "1.11.0",
- reason = "never really came to fruition and easily \
- implementable outside the standard library")]
- #[inline]
- pub fn ldexp(x: f32, exp: isize) -> f32 {
- unsafe { cmath::ldexpf(x, exp as c_int) }
- }
-
- /// Breaks the number into a normalized fraction and a base-2 exponent,
- /// satisfying:
- ///
- /// * `self = x * 2^exp`
- /// * `0.5 <= abs(x) < 1.0`
- ///
- /// ```
- /// #![feature(float_extras)]
- ///
- /// use std::f32;
- ///
- /// let x = 4.0f32;
- ///
- /// // (1/2)*2^3 -> 1 * 8/2 -> 4.0
- /// let f = x.frexp();
- /// let abs_difference_0 = (f.0 - 0.5).abs();
- /// let abs_difference_1 = (f.1 as f32 - 3.0).abs();
- ///
- /// assert!(abs_difference_0 <= f32::EPSILON);
- /// assert!(abs_difference_1 <= f32::EPSILON);
- /// ```
- #[unstable(feature = "float_extras",
- reason = "pending integer conventions",
- issue = "27752")]
- #[rustc_deprecated(since = "1.11.0",
- reason = "never really came to fruition and easily \
- implementable outside the standard library")]
- #[inline]
- pub fn frexp(self) -> (f32, isize) {
- unsafe {
- let mut exp = 0;
- let x = cmath::frexpf(self, &mut exp);
- (x, exp as isize)
- }
- }
-
- /// Returns the next representable floating-point value in the direction of
- /// `other`.
- ///
- /// ```
- /// #![feature(float_extras)]
- ///
- /// use std::f32;
- ///
- /// let x = 1.0f32;
- ///
- /// let abs_diff = (x.next_after(2.0) - 1.00000011920928955078125_f32).abs();
- ///
- /// assert!(abs_diff <= f32::EPSILON);
- /// ```
- #[unstable(feature = "float_extras",
- reason = "unsure about its place in the world",
- issue = "27752")]
- #[rustc_deprecated(since = "1.11.0",
- reason = "never really came to fruition and easily \
- implementable outside the standard library")]
- #[inline]
- pub fn next_after(self, other: f32) -> f32 {
- unsafe { cmath::nextafterf(self, other) }
- }
-
/// Returns the maximum of the two numbers.
///
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
#[inline]
pub fn max(self, other: f32) -> f32 {
- unsafe { cmath::fmaxf(self, other) }
+ num::Float::max(self, other)
}
/// Returns the minimum of the two numbers.
#[stable(feature = "rust1", since = "1.0.0")]
#[inline]
pub fn min(self, other: f32) -> f32 {
- unsafe { cmath::fminf(self, other) }
+ num::Float::min(self, other)
}
/// The positive difference of two numbers.
assert_eq!(1e-38f32.classify(), Fp::Subnormal);
}
- #[test]
- #[allow(deprecated)]
- fn test_integer_decode() {
- assert_eq!(3.14159265359f32.integer_decode(), (13176795, -22, 1));
- assert_eq!((-8573.5918555f32).integer_decode(), (8779358, -10, -1));
- assert_eq!(2f32.powf(100.0).integer_decode(), (8388608, 77, 1));
- assert_eq!(0f32.integer_decode(), (0, -150, 1));
- assert_eq!((-0f32).integer_decode(), (0, -150, -1));
- assert_eq!(INFINITY.integer_decode(), (8388608, 105, 1));
- assert_eq!(NEG_INFINITY.integer_decode(), (8388608, 105, -1));
-
- // Ignore the "sign" (quiet / signalling flag) of NAN.
- // It can vary between runtime operations and LLVM folding.
- let (nan_m, nan_e, _nan_s) = NAN.integer_decode();
- assert_eq!((nan_m, nan_e), (12582912, 105));
- }
-
#[test]
fn test_floor() {
assert_approx_eq!(1.0f32.floor(), 1.0f32);
assert_eq!(neg_inf.to_radians(), neg_inf);
}
- #[test]
- #[allow(deprecated)]
- fn test_ldexp() {
- let f1 = 2.0f32.powi(-123);
- let f2 = 2.0f32.powi(-111);
- let f3 = 1.75 * 2.0f32.powi(-12);
- assert_eq!(f32::ldexp(1f32, -123), f1);
- assert_eq!(f32::ldexp(1f32, -111), f2);
- assert_eq!(f32::ldexp(1.75f32, -12), f3);
-
- assert_eq!(f32::ldexp(0f32, -123), 0f32);
- assert_eq!(f32::ldexp(-0f32, -123), -0f32);
-
- let inf: f32 = f32::INFINITY;
- let neg_inf: f32 = f32::NEG_INFINITY;
- let nan: f32 = f32::NAN;
- assert_eq!(f32::ldexp(inf, -123), inf);
- assert_eq!(f32::ldexp(neg_inf, -123), neg_inf);
- assert!(f32::ldexp(nan, -123).is_nan());
- }
-
- #[test]
- #[allow(deprecated)]
- fn test_frexp() {
- let f1 = 2.0f32.powi(-123);
- let f2 = 2.0f32.powi(-111);
- let f3 = 1.75 * 2.0f32.powi(-123);
- let (x1, exp1) = f1.frexp();
- let (x2, exp2) = f2.frexp();
- let (x3, exp3) = f3.frexp();
- assert_eq!((x1, exp1), (0.5f32, -122));
- assert_eq!((x2, exp2), (0.5f32, -110));
- assert_eq!((x3, exp3), (0.875f32, -122));
- assert_eq!(f32::ldexp(x1, exp1), f1);
- assert_eq!(f32::ldexp(x2, exp2), f2);
- assert_eq!(f32::ldexp(x3, exp3), f3);
-
- assert_eq!(0f32.frexp(), (0f32, 0));
- assert_eq!((-0f32).frexp(), (-0f32, 0));
- }
-
- #[test] #[cfg_attr(windows, ignore)] // FIXME #8755
- #[allow(deprecated)]
- fn test_frexp_nowin() {
- let inf: f32 = f32::INFINITY;
- let neg_inf: f32 = f32::NEG_INFINITY;
- let nan: f32 = f32::NAN;
- assert_eq!(match inf.frexp() { (x, _) => x }, inf);
- assert_eq!(match neg_inf.frexp() { (x, _) => x }, neg_inf);
- assert!(match nan.frexp() { (x, _) => x.is_nan() })
- }
-
#[test]
fn test_asinh() {
assert_eq!(0.0f32.asinh(), 0.0f32);