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Untersuchungsergebnis.rs Download desUnknown {[0] [0] [0]}zum Wurzelverzeichnis wechseln /* origin: FreeBSD /usr/src/lib/msun/src/e_sqrtf.c */
/* * Conversion to float by Ian Lance Taylor, Cygnus Support, ian@cygnus.com. */ /* * ==================================================== * Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved. * * Developed at SunPro, a Sun Microsystems, Inc. business. * Permission to use, copy, modify, and distribute this * software is freely granted, provided that this notice * is preserved. * ==================================================== */ #[cfg_attr(all(test, assert_no_panic), no_panic::no_panic)] pub fn sqrtf(x: f32) -> f32 { // On wasm32 we know that LLVM's intrinsic will compile to an optimized // `f32.sqrt` native instruction, so we can leverage this for both code size // and speed. llvm_intrinsically_optimized! { #[cfg(target_arch = "wasm32")] { return if x < 0.0 { ::core::f32::NAN } else { unsafe { ::core::intrinsics::sqrtf32(x) } } } } #[cfg(target_feature = "sse")] { // Note: This path is unlikely since LLVM will usually have already // optimized sqrt calls into hardware instructions if sse is available, // but if someone does end up here they'll apprected the speed increase. #[cfg(target_arch = "x86")] use core::arch::x86::*; #[cfg(target_arch = "x86_64")] use core::arch::x86_64::*; unsafe { let m = _mm_set_ss(x); let m_sqrt = _mm_sqrt_ss(m); _mm_cvtss_f32(m_sqrt) } } #[cfg(not(target_feature = "sse"))] { const TINY: f32 = 1.0e-30; let mut z: f32; let sign: i32 = 0x80000000u32 as i32; let mut ix: i32; let mut s: i32; let mut q: i32; let mut m: i32; let mut t: i32; let mut i: i32; let mut r: u32; ix = x.to_bits() as i32; /* take care of Inf and NaN */ if (ix as u32 & 0x7f800000) == 0x7f800000 { return x * x + x; /* sqrt(NaN)=NaN, sqrt(+inf)=+inf, sqrt(-inf)=sNaN */ } /* take care of zero */ if ix <= 0 { if (ix & !sign) == 0 { return x; /* sqrt(+-0) = +-0 */ } if ix < 0 { return (x - x) / (x - x); /* sqrt(-ve) = sNaN */ } } /* normalize x */ m = ix >> 23; if m == 0 { /* subnormal x */ i = 0; while ix & 0x00800000 == 0 { ix <<= 1; i = i + 1; } m -= i - 1; } m -= 127; /* unbias exponent */ ix = (ix & 0x007fffff) | 0x00800000; if m & 1 == 1 { /* odd m, double x to make it even */ ix += ix; } m >>= 1; /* m = [m/2] */ /* generate sqrt(x) bit by bit */ ix += ix; q = 0; s = 0; r = 0x01000000; /* r = moving bit from right to left */ while r != 0 { t = s + r as i32; if t <= ix { s = t + r as i32; ix -= t; q += r as i32; } ix += ix; r >>= 1; } /* use floating add to find out rounding direction */ if ix != 0 { z = 1.0 - TINY; /* raise inexact flag */ if z >= 1.0 { z = 1.0 + TINY; if z > 1.0 { q += 2; } else { q += q & 1; } } } ix = (q >> 1) + 0x3f000000; ix += m << 23; f32::from_bits(ix as u32) } } // PowerPC tests are failing on LLVM 13: https://github.com/rust-lang/rust/issues/88520 #[cfg(not(target_arch = "powerpc64"))] #[cfg(test)] mod tests { use super::*; use core::f32::*; #[test] fn sanity_check() { assert_eq!(sqrtf(100.0), 10.0); assert_eq!(sqrtf(4.0), 2.0); } /// The spec: https://en.cppreference.com/w/cpp/numeric/math/sqrt #[test] fn spec_tests() { // Not Asserted: FE_INVALID exception is raised if argument is negative. assert!(sqrtf(-1.0).is_nan()); assert!(sqrtf(NAN).is_nan()); for f in [0.0, -0.0, INFINITY].iter().copied() { assert_eq!(sqrtf(f), f); } } } [ zur Elbe Produktseite wechseln0.71Quellennavigators ] |
2026-04-02