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# EditorConfig helps developers define and maintain consistent | ||
# coding styles between different editors and IDEs | ||
# editorconfig.org | ||
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root = true | ||
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[*] | ||
end_of_line = lf | ||
charset = utf-8 | ||
trim_trailing_whitespace = true | ||
insert_final_newline = true | ||
indent_style = space | ||
indent_size = 4 | ||
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[*.md] | ||
# double whitespace at end of line | ||
# denotes a line break in Markdown | ||
trim_trailing_whitespace = false | ||
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[*.yml] | ||
indent_size = 2 |
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use core::marker::PhantomData; | ||
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use crate::*; | ||
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/// Generic helper for libm functions, abstracting over f32 and f64. <br/> | ||
/// # Type Parameter: | ||
/// - `T`: Either `f32` or `f64` | ||
/// | ||
/// # Examples | ||
/// ```rust | ||
/// use libm::{self, Libm}; | ||
/// | ||
/// const PI_F32: f32 = 3.1415927410e+00; | ||
/// const PI_F64: f64 = 3.1415926535897931160e+00; | ||
/// | ||
/// assert!(Libm::<f32>::cos(0.0f32) == libm::cosf(0.0)); | ||
/// assert!(Libm::<f32>::sin(PI_F32) == libm::sinf(PI_F32)); | ||
/// | ||
/// assert!(Libm::<f64>::cos(0.0f64) == libm::cos(0.0)); | ||
/// assert!(Libm::<f64>::sin(PI_F64) == libm::sin(PI_F64)); | ||
/// ``` | ||
pub struct Libm<T>(PhantomData<T>); | ||
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macro_rules! libm_helper { | ||
($t:ident, funcs: $funcs:tt) => { | ||
impl Libm<$t> { | ||
#![allow(unused_parens)] | ||
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libm_helper! { $funcs } | ||
} | ||
}; | ||
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({$($func:tt);*}) => { | ||
$( | ||
libm_helper! { $func } | ||
)* | ||
}; | ||
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((fn $func:ident($($arg:ident: $arg_typ:ty),*) -> ($($ret_typ:ty),*); => $libm_fn:ident)) => { | ||
#[inline(always)] | ||
pub fn $func($($arg: $arg_typ),*) -> ($($ret_typ),*) { | ||
$libm_fn($($arg),*) | ||
} | ||
}; | ||
} | ||
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libm_helper! { | ||
f32, | ||
funcs: { | ||
(fn acos(x: f32) -> (f32); => acosf); | ||
(fn acosh(x: f32) -> (f32); => acoshf); | ||
(fn asin(x: f32) -> (f32); => asinf); | ||
(fn asinh(x: f32) -> (f32); => asinhf); | ||
(fn atan(x: f32) -> (f32); => atanf); | ||
(fn atan2(y: f32, x: f32) -> (f32); => atan2f); | ||
(fn atanh(x: f32) -> (f32); => atanhf); | ||
(fn cbrt(x: f32) -> (f32); => cbrtf); | ||
(fn ceil(x: f32) -> (f32); => ceilf); | ||
(fn copysign(x: f32, y: f32) -> (f32); => copysignf); | ||
(fn cos(x: f32) -> (f32); => cosf); | ||
(fn cosh(x: f32) -> (f32); => coshf); | ||
(fn erf(x: f32) -> (f32); => erff); | ||
(fn erfc(x: f32) -> (f32); => erfcf); | ||
(fn exp(x: f32) -> (f32); => expf); | ||
(fn exp2(x: f32) -> (f32); => exp2f); | ||
(fn exp10(x: f32) -> (f32); => exp10f); | ||
(fn expm1(x: f32) -> (f32); => expm1f); | ||
(fn fabs(x: f32) -> (f32); => fabsf); | ||
(fn fdim(x: f32, y: f32) -> (f32); => fdimf); | ||
(fn floor(x: f32) -> (f32); => floorf); | ||
(fn fma(x: f32, y: f32, z: f32) -> (f32); => fmaf); | ||
(fn fmax(x: f32, y: f32) -> (f32); => fmaxf); | ||
(fn fmin(x: f32, y: f32) -> (f32); => fminf); | ||
(fn fmod(x: f32, y: f32) -> (f32); => fmodf); | ||
(fn frexp(x: f32) -> (f32, i32); => frexpf); | ||
(fn hypot(x: f32, y: f32) -> (f32); => hypotf); | ||
(fn ilogb(x: f32) -> (i32); => ilogbf); | ||
(fn j0(x: f32) -> (f32); => j0f); | ||
(fn j1(x: f32) -> (f32); => j1f); | ||
(fn jn(n: i32, x: f32) -> (f32); => jnf); | ||
(fn ldexp(x: f32, n: i32) -> (f32); => ldexpf); | ||
(fn lgamma_r(x: f32) -> (f32, i32); => lgammaf_r); | ||
(fn lgamma(x: f32) -> (f32); => lgammaf); | ||
(fn log(x: f32) -> (f32); => logf); | ||
(fn log1p(x: f32) -> (f32); => log1pf); | ||
(fn log2(x: f32) -> (f32); => log2f); | ||
(fn log10(x: f32) -> (f32); => log10f); | ||
(fn modf(x: f32) -> (f32, f32); => modff); | ||
(fn nextafter(x: f32, y: f32) -> (f32); => nextafterf); | ||
(fn pow(x: f32, y: f32) -> (f32); => powf); | ||
(fn remainder(x: f32, y: f32) -> (f32); => remainderf); | ||
(fn remquo(x: f32, y: f32) -> (f32, i32); => remquof); | ||
(fn rint(x: f32) -> (f32); => rintf); | ||
(fn round(x: f32) -> (f32); => roundf); | ||
(fn scalbn(x: f32, n: i32) -> (f32); => scalbnf); | ||
(fn sin(x: f32) -> (f32); => sinf); | ||
(fn sincos(x: f32) -> (f32, f32); => sincosf); | ||
(fn sinh(x: f32) -> (f32); => sinhf); | ||
(fn sqrt(x: f32) -> (f32); => sqrtf); | ||
(fn tan(x: f32) -> (f32); => tanf); | ||
(fn tanh(x: f32) -> (f32); => tanhf); | ||
(fn tgamma(x: f32) -> (f32); => tgammaf); | ||
(fn trunc(x: f32) -> (f32); => truncf); | ||
(fn y0(x: f32) -> (f32); => y0f); | ||
(fn y1(x: f32) -> (f32); => y1f); | ||
(fn yn(n: i32, x: f32) -> (f32); => ynf) | ||
} | ||
} | ||
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libm_helper! { | ||
f64, | ||
funcs: { | ||
(fn acos(x: f64) -> (f64); => acos); | ||
(fn acosh(x: f64) -> (f64); => acosh); | ||
(fn asin(x: f64) -> (f64); => asin); | ||
(fn asinh(x: f64) -> (f64); => asinh); | ||
(fn atan(x: f64) -> (f64); => atan); | ||
(fn atan2(y: f64, x: f64) -> (f64); => atan2); | ||
(fn atanh(x: f64) -> (f64); => atanh); | ||
(fn cbrt(x: f64) -> (f64); => cbrt); | ||
(fn ceil(x: f64) -> (f64); => ceil); | ||
(fn copysign(x: f64, y: f64) -> (f64); => copysign); | ||
(fn cos(x: f64) -> (f64); => cos); | ||
(fn cosh(x: f64) -> (f64); => cosh); | ||
(fn erf(x: f64) -> (f64); => erf); | ||
(fn erfc(x: f64) -> (f64); => erfc); | ||
(fn exp(x: f64) -> (f64); => exp); | ||
(fn exp2(x: f64) -> (f64); => exp2); | ||
(fn exp10(x: f64) -> (f64); => exp10); | ||
(fn expm1(x: f64) -> (f64); => expm1); | ||
(fn fabs(x: f64) -> (f64); => fabs); | ||
(fn fdim(x: f64, y: f64) -> (f64); => fdim); | ||
(fn floor(x: f64) -> (f64); => floor); | ||
(fn fma(x: f64, y: f64, z: f64) -> (f64); => fma); | ||
(fn fmax(x: f64, y: f64) -> (f64); => fmax); | ||
(fn fmin(x: f64, y: f64) -> (f64); => fmin); | ||
(fn fmod(x: f64, y: f64) -> (f64); => fmod); | ||
(fn frexp(x: f64) -> (f64, i32); => frexp); | ||
(fn hypot(x: f64, y: f64) -> (f64); => hypot); | ||
(fn ilogb(x: f64) -> (i32); => ilogb); | ||
(fn j0(x: f64) -> (f64); => j0); | ||
(fn j1(x: f64) -> (f64); => j1); | ||
(fn jn(n: i32, x: f64) -> (f64); => jn); | ||
(fn ldexp(x: f64, n: i32) -> (f64); => ldexp); | ||
(fn lgamma_r(x: f64) -> (f64, i32); => lgamma_r); | ||
(fn lgamma(x: f64) -> (f64); => lgamma); | ||
(fn log(x: f64) -> (f64); => log); | ||
(fn log1p(x: f64) -> (f64); => log1p); | ||
(fn log2(x: f64) -> (f64); => log2); | ||
(fn log10(x: f64) -> (f64); => log10); | ||
(fn modf(x: f64) -> (f64, f64); => modf); | ||
(fn nextafter(x: f64, y: f64) -> (f64); => nextafter); | ||
(fn pow(x: f64, y: f64) -> (f64); => pow); | ||
(fn remainder(x: f64, y: f64) -> (f64); => remainder); | ||
(fn remquo(x: f64, y: f64) -> (f64, i32); => remquo); | ||
(fn rint(x: f64) -> (f64); => rint); | ||
(fn round(x: f64) -> (f64); => round); | ||
(fn scalbn(x: f64, n: i32) -> (f64); => scalbn); | ||
(fn sin(x: f64) -> (f64); => sin); | ||
(fn sincos(x: f64) -> (f64, f64); => sincos); | ||
(fn sinh(x: f64) -> (f64); => sinh); | ||
(fn sqrt(x: f64) -> (f64); => sqrt); | ||
(fn tan(x: f64) -> (f64); => tan); | ||
(fn tanh(x: f64) -> (f64); => tanh); | ||
(fn tgamma(x: f64) -> (f64); => tgamma); | ||
(fn trunc(x: f64) -> (f64); => trunc); | ||
(fn y0(x: f64) -> (f64); => y0); | ||
(fn y1(x: f64) -> (f64); => y1); | ||
(fn yn(n: i32, x: f64) -> (f64); => yn) | ||
} | ||
} |