library/compiler-builtins/libm/src/math/fabs.rs - rust - Git at Google

 /// Absolute value (magnitude) (f16)
 ///
 /// Calculates the absolute value (magnitude) of the argument `x`,
 /// by direct manipulation of the bit representation of `x`.
 #[cfg(f16_enabled)]
 #[cfg_attr(assert_no_panic, no_panic::no_panic)]
 pub fn fabsf16(x: f16) -> f16 {
     super::generic::fabs(x)
 }

 /// Absolute value (magnitude) (f32)
 ///
 /// Calculates the absolute value (magnitude) of the argument `x`,
 /// by direct manipulation of the bit representation of `x`.
 #[cfg_attr(assert_no_panic, no_panic::no_panic)]
 pub fn fabsf(x: f32) -> f32 {
     select_implementation! {
         name: fabsf,
         use_arch: all(target_arch = "wasm32", intrinsics_enabled),
         args: x,
     }

     super::generic::fabs(x)
 }

 /// Absolute value (magnitude) (f64)
 ///
 /// Calculates the absolute value (magnitude) of the argument `x`,
 /// by direct manipulation of the bit representation of `x`.
 #[cfg_attr(assert_no_panic, no_panic::no_panic)]
 pub fn fabs(x: f64) -> f64 {
     select_implementation! {
         name: fabs,
         use_arch: all(target_arch = "wasm32", intrinsics_enabled),
         args: x,
     }

     super::generic::fabs(x)
 }

 /// Absolute value (magnitude) (f128)
 ///
 /// Calculates the absolute value (magnitude) of the argument `x`,
 /// by direct manipulation of the bit representation of `x`.
 #[cfg(f128_enabled)]
 #[cfg_attr(assert_no_panic, no_panic::no_panic)]
 pub fn fabsf128(x: f128) -> f128 {
     super::generic::fabs(x)
 }

 #[cfg(test)]
 mod tests {
     use super::*;
     use crate::support::Float;

     /// Based on https://en.cppreference.com/w/cpp/numeric/math/fabs
     fn spec_test<F: Float>(f: impl Fn(F) -> F) {
         assert_biteq!(f(F::ZERO), F::ZERO);
         assert_biteq!(f(F::NEG_ZERO), F::ZERO);
         assert_biteq!(f(F::INFINITY), F::INFINITY);
         assert_biteq!(f(F::NEG_INFINITY), F::INFINITY);
         assert!(f(F::NAN).is_nan());

         // Not spec rewquired but we expect it
         assert!(f(F::NAN).is_sign_positive());
         assert!(f(F::from_bits(F::NAN.to_bits() | F::SIGN_MASK)).is_sign_positive());
     }

     #[test]
     #[cfg(f16_enabled)]
     fn sanity_check_f16() {
         assert_eq!(fabsf16(-1.0f16), 1.0);
         assert_eq!(fabsf16(2.8f16), 2.8);
     }

     #[test]
     #[cfg(f16_enabled)]
     fn spec_tests_f16() {
         spec_test::<f16>(fabsf16);
     }

     #[test]
     fn sanity_check_f32() {
         assert_eq!(fabsf(-1.0f32), 1.0);
         assert_eq!(fabsf(2.8f32), 2.8);
     }

     #[test]
     fn spec_tests_f32() {
         spec_test::<f32>(fabsf);
     }

     #[test]
     fn sanity_check_f64() {
         assert_eq!(fabs(-1.0f64), 1.0);
         assert_eq!(fabs(2.8f64), 2.8);
     }

     #[test]
     fn spec_tests_f64() {
         spec_test::<f64>(fabs);
     }

     #[test]
     #[cfg(f128_enabled)]
     fn sanity_check_f128() {
         assert_eq!(fabsf128(-1.0f128), 1.0);
         assert_eq!(fabsf128(2.8f128), 2.8);
     }

     #[test]
     #[cfg(f128_enabled)]
     fn spec_tests_f128() {
         spec_test::<f128>(fabsf128);
     }
 }
	/// Absolute value (magnitude) (f16)
	///
	/// Calculates the absolute value (magnitude) of the argument `x`,
	/// by direct manipulation of the bit representation of `x`.
	#[cfg(f16_enabled)]
	#[cfg_attr(assert_no_panic, no_panic::no_panic)]
	pub fn fabsf16(x: f16) -> f16 {
	super::generic::fabs(x)
	}

	/// Absolute value (magnitude) (f32)
	///
	/// Calculates the absolute value (magnitude) of the argument `x`,
	/// by direct manipulation of the bit representation of `x`.
	#[cfg_attr(assert_no_panic, no_panic::no_panic)]
	pub fn fabsf(x: f32) -> f32 {
	select_implementation! {
	name: fabsf,
	use_arch: all(target_arch = "wasm32", intrinsics_enabled),
	args: x,
	}

	super::generic::fabs(x)
	}

	/// Absolute value (magnitude) (f64)
	///
	/// Calculates the absolute value (magnitude) of the argument `x`,
	/// by direct manipulation of the bit representation of `x`.
	#[cfg_attr(assert_no_panic, no_panic::no_panic)]
	pub fn fabs(x: f64) -> f64 {
	select_implementation! {
	name: fabs,
	use_arch: all(target_arch = "wasm32", intrinsics_enabled),
	args: x,
	}

	super::generic::fabs(x)
	}

	/// Absolute value (magnitude) (f128)
	///
	/// Calculates the absolute value (magnitude) of the argument `x`,
	/// by direct manipulation of the bit representation of `x`.
	#[cfg(f128_enabled)]
	#[cfg_attr(assert_no_panic, no_panic::no_panic)]
	pub fn fabsf128(x: f128) -> f128 {
	super::generic::fabs(x)
	}

	#[cfg(test)]
	mod tests {
	use super::*;
	use crate::support::Float;

	/// Based on https://en.cppreference.com/w/cpp/numeric/math/fabs
	fn spec_test<F: Float>(f: impl Fn(F) -> F) {
	assert_biteq!(f(F::ZERO), F::ZERO);
	assert_biteq!(f(F::NEG_ZERO), F::ZERO);
	assert_biteq!(f(F::INFINITY), F::INFINITY);
	assert_biteq!(f(F::NEG_INFINITY), F::INFINITY);
	assert!(f(F::NAN).is_nan());

	// Not spec rewquired but we expect it
	assert!(f(F::NAN).is_sign_positive());
	assert!(f(F::from_bits(F::NAN.to_bits() \| F::SIGN_MASK)).is_sign_positive());
	}

	#[test]
	#[cfg(f16_enabled)]
	fn sanity_check_f16() {
	assert_eq!(fabsf16(-1.0f16), 1.0);
	assert_eq!(fabsf16(2.8f16), 2.8);
	}

	#[test]
	#[cfg(f16_enabled)]
	fn spec_tests_f16() {
	spec_test::<f16>(fabsf16);
	}

	#[test]
	fn sanity_check_f32() {
	assert_eq!(fabsf(-1.0f32), 1.0);
	assert_eq!(fabsf(2.8f32), 2.8);
	}

	#[test]
	fn spec_tests_f32() {
	spec_test::<f32>(fabsf);
	}

	#[test]
	fn sanity_check_f64() {
	assert_eq!(fabs(-1.0f64), 1.0);
	assert_eq!(fabs(2.8f64), 2.8);
	}

	#[test]
	fn spec_tests_f64() {
	spec_test::<f64>(fabs);
	}

	#[test]
	#[cfg(f128_enabled)]
	fn sanity_check_f128() {
	assert_eq!(fabsf128(-1.0f128), 1.0);
	assert_eq!(fabsf128(2.8f128), 2.8);
	}

	#[test]
	#[cfg(f128_enabled)]
	fn spec_tests_f128() {
	spec_test::<f128>(fabsf128);
	}
	}