Rollup merge of #120740 - ChrisDenton:cmaths, r=Mark-Simulacrum

Make cmath.rs a single file

It makes sense to have this all in one file. There's essentially only one target that has missing symbols and that's easy enough to handle inline.

Note that the Windows definitions used to use `c_float` and `c_double` whereas the other platforms all used `f32` and `f64`. They've now been made consistent. However, `c_float` and `c_double` have the expected definitions on all Windows platforms we support.
This commit is contained in:
Matthias Krüger 2024-02-11 23:19:08 +01:00 committed by GitHub
commit f64bc316f6
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4 changed files with 88 additions and 140 deletions

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#![cfg(not(test))]
// These symbols are all defined by `libm`,
// or by `compiler-builtins` on unsupported platforms.
extern "C" {
pub fn acos(n: f64) -> f64;
pub fn asin(n: f64) -> f64;
pub fn atan(n: f64) -> f64;
pub fn atan2(a: f64, b: f64) -> f64;
pub fn cbrt(n: f64) -> f64;
pub fn cbrtf(n: f32) -> f32;
pub fn cosh(n: f64) -> f64;
pub fn expm1(n: f64) -> f64;
pub fn expm1f(n: f32) -> f32;
pub fn fdim(a: f64, b: f64) -> f64;
pub fn fdimf(a: f32, b: f32) -> f32;
#[cfg_attr(target_env = "msvc", link_name = "_hypot")]
pub fn hypot(x: f64, y: f64) -> f64;
#[cfg_attr(target_env = "msvc", link_name = "_hypotf")]
pub fn hypotf(x: f32, y: f32) -> f32;
pub fn log1p(n: f64) -> f64;
pub fn log1pf(n: f32) -> f32;
pub fn sinh(n: f64) -> f64;
pub fn tan(n: f64) -> f64;
pub fn tanh(n: f64) -> f64;
pub fn tgamma(n: f64) -> f64;
pub fn tgammaf(n: f32) -> f32;
pub fn lgamma_r(n: f64, s: &mut i32) -> f64;
pub fn lgammaf_r(n: f32, s: &mut i32) -> f32;
cfg_if::cfg_if! {
if #[cfg(not(all(target_os = "windows", target_env = "msvc", target_arch = "x86")))] {
pub fn acosf(n: f32) -> f32;
pub fn asinf(n: f32) -> f32;
pub fn atan2f(a: f32, b: f32) -> f32;
pub fn atanf(n: f32) -> f32;
pub fn coshf(n: f32) -> f32;
pub fn sinhf(n: f32) -> f32;
pub fn tanf(n: f32) -> f32;
pub fn tanhf(n: f32) -> f32;
}}
}
// On 32-bit x86 MSVC these functions aren't defined, so we just define shims
// which promote everything to f64, perform the calculation, and then demote
// back to f32. While not precisely correct should be "correct enough" for now.
cfg_if::cfg_if! {
if #[cfg(all(target_os = "windows", target_env = "msvc", target_arch = "x86"))] {
#[inline]
pub unsafe fn acosf(n: f32) -> f32 {
f64::acos(n as f64) as f32
}
#[inline]
pub unsafe fn asinf(n: f32) -> f32 {
f64::asin(n as f64) as f32
}
#[inline]
pub unsafe fn atan2f(n: f32, b: f32) -> f32 {
f64::atan2(n as f64, b as f64) as f32
}
#[inline]
pub unsafe fn atanf(n: f32) -> f32 {
f64::atan(n as f64) as f32
}
#[inline]
pub unsafe fn coshf(n: f32) -> f32 {
f64::cosh(n as f64) as f32
}
#[inline]
pub unsafe fn sinhf(n: f32) -> f32 {
f64::sinh(n as f64) as f32
}
#[inline]
pub unsafe fn tanf(n: f32) -> f32 {
f64::tan(n as f64) as f32
}
#[inline]
pub unsafe fn tanhf(n: f32) -> f32 {
f64::tanh(n as f64) as f32
}
}}

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@ -1,35 +0,0 @@
// These symbols are all defined by `libm`,
// or by `compiler-builtins` on unsupported platforms.
extern "C" {
pub fn acos(n: f64) -> f64;
pub fn acosf(n: f32) -> f32;
pub fn asin(n: f64) -> f64;
pub fn asinf(n: f32) -> f32;
pub fn atan(n: f64) -> f64;
pub fn atan2(a: f64, b: f64) -> f64;
pub fn atan2f(a: f32, b: f32) -> f32;
pub fn atanf(n: f32) -> f32;
pub fn cbrt(n: f64) -> f64;
pub fn cbrtf(n: f32) -> f32;
pub fn cosh(n: f64) -> f64;
pub fn coshf(n: f32) -> f32;
pub fn expm1(n: f64) -> f64;
pub fn expm1f(n: f32) -> f32;
pub fn fdim(a: f64, b: f64) -> f64;
pub fn fdimf(a: f32, b: f32) -> f32;
pub fn hypot(x: f64, y: f64) -> f64;
pub fn hypotf(x: f32, y: f32) -> f32;
pub fn log1p(n: f64) -> f64;
pub fn log1pf(n: f32) -> f32;
pub fn sinh(n: f64) -> f64;
pub fn sinhf(n: f32) -> f32;
pub fn tan(n: f64) -> f64;
pub fn tanf(n: f32) -> f32;
pub fn tanh(n: f64) -> f64;
pub fn tanhf(n: f32) -> f32;
pub fn tgamma(n: f64) -> f64;
pub fn tgammaf(n: f32) -> f32;
pub fn lgamma_r(n: f64, s: &mut i32) -> f64;
pub fn lgammaf_r(n: f32, s: &mut i32) -> f32;
}

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#![cfg(not(test))]
cfg_if::cfg_if! {
if #[cfg(target_os = "windows")] {
mod windows;
pub use windows::*;
} else {
mod builtins;
pub use builtins::*;
}
}

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use core::ffi::{c_double, c_float, c_int};
extern "C" {
pub fn acos(n: c_double) -> c_double;
pub fn asin(n: c_double) -> c_double;
pub fn atan(n: c_double) -> c_double;
pub fn atan2(a: c_double, b: c_double) -> c_double;
pub fn cbrt(n: c_double) -> c_double;
pub fn cbrtf(n: c_float) -> c_float;
pub fn cosh(n: c_double) -> c_double;
pub fn expm1(n: c_double) -> c_double;
pub fn expm1f(n: c_float) -> c_float;
pub fn fdim(a: c_double, b: c_double) -> c_double;
pub fn fdimf(a: c_float, b: c_float) -> c_float;
#[cfg_attr(target_env = "msvc", link_name = "_hypot")]
pub fn hypot(x: c_double, y: c_double) -> c_double;
#[cfg_attr(target_env = "msvc", link_name = "_hypotf")]
pub fn hypotf(x: c_float, y: c_float) -> c_float;
pub fn log1p(n: c_double) -> c_double;
pub fn log1pf(n: c_float) -> c_float;
pub fn sinh(n: c_double) -> c_double;
pub fn tan(n: c_double) -> c_double;
pub fn tanh(n: c_double) -> c_double;
pub fn tgamma(n: c_double) -> c_double;
pub fn tgammaf(n: c_float) -> c_float;
pub fn lgamma_r(n: c_double, s: &mut c_int) -> c_double;
pub fn lgammaf_r(n: c_float, s: &mut c_int) -> c_float;
}
pub use self::shims::*;
#[cfg(not(all(target_env = "msvc", target_arch = "x86")))]
mod shims {
use core::ffi::c_float;
extern "C" {
pub fn acosf(n: c_float) -> c_float;
pub fn asinf(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 sinhf(n: c_float) -> c_float;
pub fn tanf(n: c_float) -> c_float;
pub fn tanhf(n: c_float) -> c_float;
}
}
// On 32-bit x86 MSVC these functions aren't defined, so we just define shims
// which promote everything to f64, perform the calculation, and then demote
// back to f32. While not precisely correct should be "correct enough" for now.
#[cfg(all(target_env = "msvc", target_arch = "x86"))]
mod shims {
use core::ffi::c_float;
#[inline]
pub unsafe fn acosf(n: c_float) -> c_float {
f64::acos(n as f64) as c_float
}
#[inline]
pub unsafe fn asinf(n: c_float) -> c_float {
f64::asin(n as f64) as c_float
}
#[inline]
pub unsafe fn atan2f(n: c_float, b: c_float) -> c_float {
f64::atan2(n as f64, b as f64) as c_float
}
#[inline]
pub unsafe fn atanf(n: c_float) -> c_float {
f64::atan(n as f64) as c_float
}
#[inline]
pub unsafe fn coshf(n: c_float) -> c_float {
f64::cosh(n as f64) as c_float
}
#[inline]
pub unsafe fn sinhf(n: c_float) -> c_float {
f64::sinh(n as f64) as c_float
}
#[inline]
pub unsafe fn tanf(n: c_float) -> c_float {
f64::tan(n as f64) as c_float
}
#[inline]
pub unsafe fn tanhf(n: c_float) -> c_float {
f64::tanh(n as f64) as c_float
}
}