Struct faer_core::complex_native::c32

#[repr(C)]
pub struct c32 {
    pub re: f32,
    pub im: f32,
}

Fields

re: f32

im: f32

Implementations

impl c32

pub fn new(re: f32, im: f32) -> Self

pub fn abs(self) -> f32

Trait Implementations

impl Add<c32> for f32

type Output = c32

The resulting type after applying the + operator.

fn add(self, rhs: c32) -> Self::Output

Performs the + operation.

impl Add<f32> for c32

type Output = c32

The resulting type after applying the + operator.

fn add(self, rhs: f32) -> Self::Output

Performs the + operation.

impl Add for c32

type Output = c32

The resulting type after applying the + operator.

fn add(self, rhs: Self) -> Self::Output

Performs the + operation.

impl Clone for c32

fn clone(&self) -> c32

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl ComplexField for c32

type Real = f32

type Simd = Arch

type ScalarSimd = NoSimd

type PortableSimd = Arch

fn faer_from_f64(value: f64) -> Self

Converts value from f64 to Self.
The conversion may be lossy when converting to a type with less precision.

fn faer_add(self, rhs: Self) -> Self

Returns self + rhs.

fn faer_sub(self, rhs: Self) -> Self

Returns self - rhs.

fn faer_mul(self, rhs: Self) -> Self

Returns self * rhs.

fn faer_neg(self) -> Self

Returns -self.

fn faer_inv(self) -> Self

Returns 1.0/self.

fn faer_conj(self) -> Self

Returns conjugate(self).

fn faer_sqrt(self) -> Self

Returns the square root of self.

fn faer_scale_real(self, rhs: Self::Real) -> Self

Returns the input, scaled by rhs.

fn faer_scale_power_of_two(self, rhs: Self::Real) -> Self

Returns the input, scaled by rhs.

fn faer_score(self) -> Self::Real

Returns either the norm or squared norm of the number.

fn faer_abs(self) -> Self::Real

Returns the absolute value of self.

fn faer_abs2(self) -> Self::Real

Returns the squared absolute value of self.

fn faer_nan() -> Self

Returns a NaN value.

fn faer_from_real(real: Self::Real) -> Self

Returns a complex number whose real part is equal to real, and a zero imaginary part.

fn faer_real(self) -> Self::Real

Returns the real part.

fn faer_imag(self) -> Self::Real

Returns the imaginary part.

fn faer_zero() -> Self

Returns 0.0.

fn faer_one() -> Self

Returns 1.0.

fn faer_slice_as_simd<S: Simd>( slice: &[Self::Unit] ) -> (&[Self::SimdUnit<S>], &[Self::Unit])

fn faer_slice_as_mut_simd<S: Simd>( slice: &mut [Self::Unit] ) -> (&mut [Self::SimdUnit<S>], &mut [Self::Unit])

fn faer_partial_load_last_unit<S: Simd>( simd: S, slice: &[Self::Unit] ) -> Self::SimdUnit<S>

fn faer_partial_store_last_unit<S: Simd>( simd: S, slice: &mut [Self::Unit], values: Self::SimdUnit<S> )

fn faer_partial_load_unit<S: Simd>( simd: S, slice: &[Self::Unit] ) -> Self::SimdUnit<S>

fn faer_partial_store_unit<S: Simd>( simd: S, slice: &mut [Self::Unit], values: Self::SimdUnit<S> )

fn faer_simd_splat_unit<S: Simd>(simd: S, unit: Self::Unit) -> Self::SimdUnit<S>

fn faer_simd_neg<S: Simd>( simd: S, values: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self, S>

fn faer_simd_conj<S: Simd>( simd: S, values: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self, S>

fn faer_simd_add<S: Simd>( simd: S, lhs: SimdGroupFor<Self, S>, rhs: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self, S>

fn faer_simd_sub<S: Simd>( simd: S, lhs: SimdGroupFor<Self, S>, rhs: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self, S>

fn faer_simd_mul<S: Simd>( simd: S, lhs: SimdGroupFor<Self, S>, rhs: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self, S>

fn faer_simd_scale_real<S: Simd>( simd: S, lhs: SimdGroupFor<Self::Real, S>, rhs: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self, S>

fn faer_simd_conj_mul<S: Simd>( simd: S, lhs: SimdGroupFor<Self, S>, rhs: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self, S>

fn faer_simd_mul_adde<S: Simd>( simd: S, lhs: SimdGroupFor<Self, S>, rhs: SimdGroupFor<Self, S>, acc: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self, S>

fn faer_simd_conj_mul_adde<S: Simd>( simd: S, lhs: SimdGroupFor<Self, S>, rhs: SimdGroupFor<Self, S>, acc: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self, S>

fn faer_simd_reduce_add<S: Simd>(simd: S, values: SimdGroupFor<Self, S>) -> Self

fn faer_simd_abs2_adde<S: Simd>( simd: S, values: SimdGroupFor<Self, S>, acc: SimdGroupFor<Self::Real, S> ) -> SimdGroupFor<Self::Real, S>

fn faer_simd_abs2<S: Simd>( simd: S, values: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self::Real, S>

fn faer_simd_score<S: Simd>( simd: S, values: SimdGroupFor<Self, S> ) -> SimdGroupFor<Self::Real, S>

fn faer_simd_scalar_mul<S: Simd>(simd: S, lhs: Self, rhs: Self) -> Self

fn faer_simd_scalar_conj_mul<S: Simd>(simd: S, lhs: Self, rhs: Self) -> Self

fn faer_simd_scalar_mul_adde<S: Simd>( simd: S, lhs: Self, rhs: Self, acc: Self ) -> Self

fn faer_simd_scalar_conj_mul_adde<S: Simd>( simd: S, lhs: Self, rhs: Self, acc: Self ) -> Self

fn faer_is_nan(&self) -> bool

Returns true if self is a NaN value, or false otherwise.

fn faer_is_finite(&self) -> bool

Returns true if self is a NaN value, or false otherwise.

fn faer_partial_load<S>( simd: S, slice: <Self::Group as ForType>::FaerOf<&[Self::Unit]> ) -> <Self::Group as ForType>::FaerOf<Self::SimdUnit<S>>

where S: Simd,

fn faer_partial_store<S>( simd: S, slice: <Self::Group as ForType>::FaerOf<&mut [Self::Unit]>, values: <Self::Group as ForType>::FaerOf<Self::SimdUnit<S>> )

where S: Simd,

fn faer_partial_load_last<S>( simd: S, slice: <Self::Group as ForType>::FaerOf<&[Self::Unit]> ) -> <Self::Group as ForType>::FaerOf<Self::SimdUnit<S>>

where S: Simd,

fn faer_partial_store_last<S>( simd: S, slice: <Self::Group as ForType>::FaerOf<&mut [Self::Unit]>, values: <Self::Group as ForType>::FaerOf<Self::SimdUnit<S>> )

where S: Simd,

fn faer_simd_splat<S>( simd: S, value: Self ) -> <Self::Group as ForType>::FaerOf<Self::SimdUnit<S>>

where S: Simd,

impl Conjugate for c32

type Conj = c32conj

Must have the same layout as Self, and Conj::Unit must have the same layout as Unit.

type Canonical = c32

Must have the same layout as Self, and Canonical::Unit must have the same layout as Unit.

fn canonicalize(self) -> Self::Canonical

Performs the implicit conjugation operation on the given value, returning the canonical form.

impl Debug for c32

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl Div<c32> for f32

type Output = c32

The resulting type after applying the / operator.

fn div(self, rhs: c32) -> Self::Output

Performs the / operation.

impl Div<f32> for c32

type Output = c32

The resulting type after applying the / operator.

fn div(self, rhs: f32) -> Self::Output

Performs the / operation.

impl Div for c32

type Output = c32

The resulting type after applying the / operator.

fn div(self, rhs: Self) -> Self::Output

Performs the / operation.

impl Entity for c32

type Unit = c32

type Index = u32

type SimdUnit<S: Simd> = <S as Simd>::c32s

type SimdMask<S: Simd> = <S as Simd>::m32s

type SimdIndex<S: Simd> = <S as Simd>::u32s

type Group = IdentityGroup

type Iter<I: Iterator> = I

const N_COMPONENTS: usize = 1usize

const UNIT: GroupCopyFor<Self, ()> = ()

fn faer_from_units(group: GroupFor<Self, Self::Unit>) -> Self

fn faer_into_units(self) -> GroupFor<Self, Self::Unit>

fn faer_as_ref<T>(group: &GroupFor<Self, T>) -> GroupFor<Self, &T>

fn faer_as_mut<T>(group: &mut GroupFor<Self, T>) -> GroupFor<Self, &mut T>

fn faer_map_impl<T, U>( group: GroupFor<Self, T>, f: &mut impl FnMut(T) -> U ) -> GroupFor<Self, U>

fn faer_map_with_context<Ctx, T, U>( ctx: Ctx, group: GroupFor<Self, T>, f: &mut impl FnMut(Ctx, T) -> (Ctx, U) ) -> (Ctx, GroupFor<Self, U>)

fn faer_zip<T, U>( first: GroupFor<Self, T>, second: GroupFor<Self, U> ) -> GroupFor<Self, (T, U)>

fn faer_unzip<T, U>( zipped: GroupFor<Self, (T, U)> ) -> (GroupFor<Self, T>, GroupFor<Self, U>)

fn faer_into_iter<I: IntoIterator>( iter: GroupFor<Self, I> ) -> Self::Iter<I::IntoIter>

fn faer_map<T, U>( group: <Self::Group as ForType>::FaerOf<T>, f: impl FnMut(T) -> U ) -> <Self::Group as ForType>::FaerOf<U>

fn faer_unzip2<T>( zipped: <Self::Group as ForType>::FaerOf<[T; 2]> ) -> [<Self::Group as ForType>::FaerOf<T>; 2]

fn faer_unzip4<T>( zipped: <Self::Group as ForType>::FaerOf<[T; 4]> ) -> [<Self::Group as ForType>::FaerOf<T>; 4]

fn faer_unzip8<T>( zipped: <Self::Group as ForType>::FaerOf<[T; 8]> ) -> [<Self::Group as ForType>::FaerOf<T>; 8]

fn faer_as_arrays<const N: usize, T>( group: <Self::Group as ForType>::FaerOf<&[T]> ) -> (<Self::Group as ForType>::FaerOf<&[[T; N]]>, <Self::Group as ForType>::FaerOf<&[T]>)

fn faer_as_arrays_mut<const N: usize, T>( group: <Self::Group as ForType>::FaerOf<&mut [T]> ) -> (<Self::Group as ForType>::FaerOf<&mut [[T; N]]>, <Self::Group as ForType>::FaerOf<&mut [T]>)

fn faer_deref<T>( group: <Self::Group as ForType>::FaerOf<&T> ) -> <Self::Group as ForType>::FaerOf<T>

where T: Copy,

fn faer_rb<'short, T>( value: <Self::Group as ForType>::FaerOf<&'short T> ) -> <Self::Group as ForType>::FaerOf<<T as Reborrow<'short>>::Target>

where T: Reborrow<'short>,

fn faer_rb_mut<'short, T>( value: <Self::Group as ForType>::FaerOf<&'short mut T> ) -> <Self::Group as ForType>::FaerOf<<T as ReborrowMut<'short>>::Target>

where T: ReborrowMut<'short>,

fn faer_into_const<T>( value: <Self::Group as ForType>::FaerOf<T> ) -> <Self::Group as ForType>::FaerOf<<T as IntoConst>::Target>

where T: IntoConst,

fn faer_copy<T>( x: &<Self::Group as ForType>::FaerOf<T> ) -> <Self::Group as ForType>::FaerOf<T>

where T: Copy,

impl From<Complex<f32>> for c32

fn from(value: Complex32) -> Self

Converts to this type from the input type.

impl From<c32> for Complex32

fn from(value: c32) -> Self

Converts to this type from the input type.

impl Mul<c32> for f32

type Output = c32

The resulting type after applying the * operator.

fn mul(self, rhs: c32) -> Self::Output

Performs the * operation.

impl Mul<f32> for c32

type Output = c32

The resulting type after applying the * operator.

fn mul(self, rhs: f32) -> Self::Output

Performs the * operation.

impl Mul for c32

type Output = c32

The resulting type after applying the * operator.

fn mul(self, rhs: Self) -> Self::Output

Performs the * operation.

impl Neg for c32

type Output = c32

The resulting type after applying the - operator.

fn neg(self) -> Self::Output

Performs the unary - operation.

impl PartialEq for c32

fn eq(&self, other: &c32) -> bool

This method tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl Sub<c32> for f32

type Output = c32

The resulting type after applying the - operator.

fn sub(self, rhs: c32) -> Self::Output

Performs the - operation.

impl Sub<f32> for c32

type Output = c32

The resulting type after applying the - operator.

fn sub(self, rhs: f32) -> Self::Output

Performs the - operation.

impl Sub for c32

type Output = c32

The resulting type after applying the - operator.

fn sub(self, rhs: Self) -> Self::Output

Performs the - operation.

impl Zeroable for c32

fn zeroed() -> Self

Calls zeroed.

impl Copy for c32

impl Pod for c32

impl StructuralPartialEq for c32