nalgebra/src/geometry/unit_complex_conversion.rs

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use num::Zero;
use num_complex::Complex;
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use simba::scalar::{RealField, SubsetOf, SupersetOf};
use simba::simd::SimdRealField;
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use crate::base::dimension::U2;
use crate::base::{Matrix2, Matrix3};
use crate::geometry::{
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AbstractRotation, Isometry, Rotation2, Similarity, SuperTCategoryOf, TAffine, Transform,
Translation, UnitComplex,
};
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/*
* This file provides the following conversions:
* =============================================
*
* UnitComplex -> UnitComplex
* UnitComplex -> Rotation<U1>
* UnitComplex -> Isometry<U2>
* UnitComplex -> Similarity<U2>
* UnitComplex -> Transform<U2>
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* UnitComplex -> Matrix<U3> (homogeneous)
*
* NOTE:
* UnitComplex -> Complex is already provided by: Unit<T> -> T
*/
impl<N1, N2> SubsetOf<UnitComplex<N2>> for UnitComplex<N1>
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where
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N1: RealField,
N2: RealField + SupersetOf<N1>,
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{
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#[inline]
fn to_superset(&self) -> UnitComplex<N2> {
UnitComplex::new_unchecked(self.as_ref().to_superset())
}
#[inline]
fn is_in_subset(uq: &UnitComplex<N2>) -> bool {
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crate::is_convertible::<_, Complex<N1>>(uq.as_ref())
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}
#[inline]
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fn from_superset_unchecked(uq: &UnitComplex<N2>) -> Self {
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Self::new_unchecked(crate::convert_ref_unchecked(uq.as_ref()))
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}
}
impl<N1, N2> SubsetOf<Rotation2<N2>> for UnitComplex<N1>
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where
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N1: RealField,
N2: RealField + SupersetOf<N1>,
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{
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#[inline]
fn to_superset(&self) -> Rotation2<N2> {
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let q: UnitComplex<N2> = self.to_superset();
q.to_rotation_matrix().to_superset()
}
#[inline]
fn is_in_subset(rot: &Rotation2<N2>) -> bool {
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crate::is_convertible::<_, Rotation2<N1>>(rot)
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}
#[inline]
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fn from_superset_unchecked(rot: &Rotation2<N2>) -> Self {
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let q = UnitComplex::<N2>::from_rotation_matrix(rot);
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crate::convert_unchecked(q)
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}
}
impl<N1, N2, R> SubsetOf<Isometry<N2, U2, R>> for UnitComplex<N1>
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where
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N1: RealField,
N2: RealField + SupersetOf<N1>,
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R: AbstractRotation<N2, U2> + SupersetOf<Self>,
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{
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#[inline]
fn to_superset(&self) -> Isometry<N2, U2, R> {
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Isometry::from_parts(Translation::identity(), crate::convert_ref(self))
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}
#[inline]
fn is_in_subset(iso: &Isometry<N2, U2, R>) -> bool {
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iso.translation.vector.is_zero()
}
#[inline]
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fn from_superset_unchecked(iso: &Isometry<N2, U2, R>) -> Self {
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crate::convert_ref_unchecked(&iso.rotation)
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}
}
impl<N1, N2, R> SubsetOf<Similarity<N2, U2, R>> for UnitComplex<N1>
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where
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N1: RealField,
N2: RealField + SupersetOf<N1>,
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R: AbstractRotation<N2, U2> + SupersetOf<Self>,
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{
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#[inline]
fn to_superset(&self) -> Similarity<N2, U2, R> {
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Similarity::from_isometry(crate::convert_ref(self), N2::one())
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}
#[inline]
fn is_in_subset(sim: &Similarity<N2, U2, R>) -> bool {
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sim.isometry.translation.vector.is_zero() && sim.scaling() == N2::one()
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}
#[inline]
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fn from_superset_unchecked(sim: &Similarity<N2, U2, R>) -> Self {
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crate::convert_ref_unchecked(&sim.isometry)
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}
}
impl<N1, N2, C> SubsetOf<Transform<N2, U2, C>> for UnitComplex<N1>
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where
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N1: RealField,
N2: RealField + SupersetOf<N1>,
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C: SuperTCategoryOf<TAffine>,
{
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#[inline]
fn to_superset(&self) -> Transform<N2, U2, C> {
Transform::from_matrix_unchecked(self.to_homogeneous().to_superset())
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}
#[inline]
fn is_in_subset(t: &Transform<N2, U2, C>) -> bool {
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<Self as SubsetOf<_>>::is_in_subset(t.matrix())
}
#[inline]
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fn from_superset_unchecked(t: &Transform<N2, U2, C>) -> Self {
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Self::from_superset_unchecked(t.matrix())
}
}
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impl<N1: RealField, N2: RealField + SupersetOf<N1>> SubsetOf<Matrix3<N2>> for UnitComplex<N1> {
#[inline]
fn to_superset(&self) -> Matrix3<N2> {
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self.to_homogeneous().to_superset()
}
#[inline]
fn is_in_subset(m: &Matrix3<N2>) -> bool {
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crate::is_convertible::<_, Rotation2<N1>>(m)
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}
#[inline]
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fn from_superset_unchecked(m: &Matrix3<N2>) -> Self {
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let rot: Rotation2<N1> = crate::convert_ref_unchecked(m);
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Self::from_rotation_matrix(&rot)
}
}
impl<N: SimdRealField> From<UnitComplex<N>> for Rotation2<N>
where N::Element: SimdRealField
{
#[inline]
fn from(q: UnitComplex<N>) -> Self {
q.to_rotation_matrix()
}
}
impl<N: SimdRealField> From<Rotation2<N>> for UnitComplex<N>
where N::Element: SimdRealField
{
#[inline]
fn from(q: Rotation2<N>) -> Self {
Self::from_rotation_matrix(&q)
}
}
impl<N: SimdRealField> From<UnitComplex<N>> for Matrix3<N>
where N::Element: SimdRealField
{
#[inline]
fn from(q: UnitComplex<N>) -> Matrix3<N> {
q.to_homogeneous()
}
}
impl<N: SimdRealField> From<UnitComplex<N>> for Matrix2<N>
where N::Element: SimdRealField
{
#[inline]
fn from(q: UnitComplex<N>) -> Self {
q.to_rotation_matrix().into_inner()
}
}