2020-03-21 19:16:46 +08:00
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use simba::scalar::{RealField, SubsetOf, SupersetOf};
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2020-03-23 16:16:01 +08:00
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use simba::simd::{PrimitiveSimdValue, SimdRealField, SimdValue};
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2016-12-05 05:44:42 +08:00
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2019-03-23 21:29:07 +08:00
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use crate::base::allocator::Allocator;
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use crate::base::dimension::{DimMin, DimName, DimNameAdd, DimNameSum, U1};
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2020-03-24 17:16:31 +08:00
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use crate::base::{DefaultAllocator, MatrixN, Scalar};
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2016-12-05 05:44:42 +08:00
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2020-03-21 19:16:46 +08:00
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use crate::geometry::{
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AbstractRotation, Isometry, Similarity, SuperTCategoryOf, TAffine, Transform, Translation,
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};
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2016-12-05 05:44:42 +08:00
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/*
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* This file provides the following conversions:
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* =============================================
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*
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2017-08-03 01:37:44 +08:00
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* Isometry -> Isometry
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* Isometry -> Similarity
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* Isometry -> Transform
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* Isometry -> Matrix (homogeneous)
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2016-12-05 05:44:42 +08:00
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*/
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2017-08-03 01:37:44 +08:00
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impl<N1, N2, D: DimName, R1, R2> SubsetOf<Isometry<N2, D, R2>> for Isometry<N1, D, R1>
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2018-02-02 19:26:35 +08:00
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where
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2019-03-25 18:21:41 +08:00
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N1: RealField,
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N2: RealField + SupersetOf<N1>,
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2020-03-21 19:16:46 +08:00
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R1: AbstractRotation<N1, D> + SubsetOf<R2>,
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R2: AbstractRotation<N2, D>,
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2018-02-02 19:26:35 +08:00
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DefaultAllocator: Allocator<N1, D> + Allocator<N2, D>,
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{
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2016-12-05 05:44:42 +08:00
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#[inline]
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fn to_superset(&self) -> Isometry<N2, D, R2> {
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2018-02-02 19:26:35 +08:00
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Isometry::from_parts(self.translation.to_superset(), self.rotation.to_superset())
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2016-12-05 05:44:42 +08:00
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}
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#[inline]
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2017-08-03 01:37:44 +08:00
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fn is_in_subset(iso: &Isometry<N2, D, R2>) -> bool {
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2019-03-23 21:29:07 +08:00
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crate::is_convertible::<_, Translation<N1, D>>(&iso.translation)
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&& crate::is_convertible::<_, R1>(&iso.rotation)
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2016-12-05 05:44:42 +08:00
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}
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#[inline]
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2020-03-21 19:16:46 +08:00
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fn from_superset_unchecked(iso: &Isometry<N2, D, R2>) -> Self {
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2017-08-03 01:37:44 +08:00
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Isometry::from_parts(
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iso.translation.to_subset_unchecked(),
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2018-02-02 19:26:35 +08:00
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iso.rotation.to_subset_unchecked(),
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)
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}
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}
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2017-08-03 01:37:44 +08:00
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impl<N1, N2, D: DimName, R1, R2> SubsetOf<Similarity<N2, D, R2>> for Isometry<N1, D, R1>
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2018-02-02 19:26:35 +08:00
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where
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N1: RealField,
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N2: RealField + SupersetOf<N1>,
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R1: AbstractRotation<N1, D> + SubsetOf<R2>,
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R2: AbstractRotation<N2, D>,
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2018-02-02 19:26:35 +08:00
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DefaultAllocator: Allocator<N1, D> + Allocator<N2, D>,
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{
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2016-12-05 05:44:42 +08:00
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#[inline]
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fn to_superset(&self) -> Similarity<N2, D, R2> {
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Similarity::from_isometry(self.to_superset(), N2::one())
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}
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#[inline]
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2017-08-03 01:37:44 +08:00
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fn is_in_subset(sim: &Similarity<N2, D, R2>) -> bool {
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2019-03-23 21:29:07 +08:00
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crate::is_convertible::<_, Isometry<N1, D, R1>>(&sim.isometry) && sim.scaling() == N2::one()
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}
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#[inline]
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2020-03-21 19:16:46 +08:00
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fn from_superset_unchecked(sim: &Similarity<N2, D, R2>) -> Self {
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2019-03-23 21:29:07 +08:00
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crate::convert_ref_unchecked(&sim.isometry)
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}
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}
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2017-08-03 01:37:44 +08:00
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impl<N1, N2, D, R, C> SubsetOf<Transform<N2, D, C>> for Isometry<N1, D, R>
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2018-02-02 19:26:35 +08:00
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where
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2019-03-25 18:21:41 +08:00
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N1: RealField,
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N2: RealField + SupersetOf<N1>,
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C: SuperTCategoryOf<TAffine>,
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R: AbstractRotation<N1, D>
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+ SubsetOf<MatrixN<N1, DimNameSum<D, U1>>>
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+ SubsetOf<MatrixN<N2, DimNameSum<D, U1>>>,
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D: DimNameAdd<U1> + DimMin<D, Output = D>, // needed by .is_special_orthogonal()
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DefaultAllocator: Allocator<N1, D>
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+ Allocator<N1, D, D>
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+ Allocator<N1, DimNameSum<D, U1>, DimNameSum<D, U1>>
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+ Allocator<N2, DimNameSum<D, U1>, DimNameSum<D, U1>>
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+ Allocator<N2, DimNameSum<D, U1>, DimNameSum<D, U1>>
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+ Allocator<(usize, usize), D>
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+ Allocator<N2, D, D>
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+ Allocator<N2, D>,
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{
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2016-12-05 05:44:42 +08:00
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#[inline]
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2017-08-03 01:37:44 +08:00
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fn to_superset(&self) -> Transform<N2, D, C> {
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Transform::from_matrix_unchecked(self.to_homogeneous().to_superset())
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2016-12-05 05:44:42 +08:00
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}
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#[inline]
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2017-08-03 01:37:44 +08:00
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fn is_in_subset(t: &Transform<N2, D, C>) -> bool {
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2016-12-05 05:44:42 +08:00
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<Self as SubsetOf<_>>::is_in_subset(t.matrix())
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}
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#[inline]
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2020-03-21 19:16:46 +08:00
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fn from_superset_unchecked(t: &Transform<N2, D, C>) -> Self {
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2016-12-05 05:44:42 +08:00
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Self::from_superset_unchecked(t.matrix())
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}
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}
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2017-08-03 01:37:44 +08:00
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impl<N1, N2, D, R> SubsetOf<MatrixN<N2, DimNameSum<D, U1>>> for Isometry<N1, D, R>
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2018-02-02 19:26:35 +08:00
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where
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2019-03-25 18:21:41 +08:00
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N1: RealField,
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N2: RealField + SupersetOf<N1>,
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2020-03-21 19:16:46 +08:00
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R: AbstractRotation<N1, D>
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2018-02-02 19:26:35 +08:00
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+ SubsetOf<MatrixN<N1, DimNameSum<D, U1>>>
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+ SubsetOf<MatrixN<N2, DimNameSum<D, U1>>>,
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D: DimNameAdd<U1> + DimMin<D, Output = D>, // needed by .is_special_orthogonal()
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DefaultAllocator: Allocator<N1, D>
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+ Allocator<N1, D, D>
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+ Allocator<N1, DimNameSum<D, U1>, DimNameSum<D, U1>>
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+ Allocator<N2, DimNameSum<D, U1>, DimNameSum<D, U1>>
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+ Allocator<N2, DimNameSum<D, U1>, DimNameSum<D, U1>>
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+ Allocator<(usize, usize), D>
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+ Allocator<N2, D, D>
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+ Allocator<N2, D>,
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{
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2016-12-05 05:44:42 +08:00
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#[inline]
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2017-08-03 01:37:44 +08:00
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fn to_superset(&self) -> MatrixN<N2, DimNameSum<D, U1>> {
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2016-12-05 05:44:42 +08:00
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self.to_homogeneous().to_superset()
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}
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#[inline]
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2017-08-03 01:37:44 +08:00
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fn is_in_subset(m: &MatrixN<N2, DimNameSum<D, U1>>) -> bool {
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2018-02-02 19:26:35 +08:00
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let rot = m.fixed_slice::<D, D>(0, 0);
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2016-12-05 05:44:42 +08:00
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let bottom = m.fixed_slice::<U1, D>(D::dim(), 0);
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// Scalar types agree.
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m.iter().all(|e| SupersetOf::<N1>::is_in_subset(e)) &&
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// The block part is a rotation.
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2019-03-23 21:29:07 +08:00
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rot.is_special_orthogonal(N2::default_epsilon() * crate::convert(100.0)) &&
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2016-12-05 05:44:42 +08:00
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// The bottom row is (0, 0, ..., 1)
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2018-02-02 19:26:35 +08:00
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bottom.iter().all(|e| e.is_zero()) && m[(D::dim(), D::dim())] == N2::one()
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2016-12-05 05:44:42 +08:00
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}
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#[inline]
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2020-03-21 19:16:46 +08:00
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fn from_superset_unchecked(m: &MatrixN<N2, DimNameSum<D, U1>>) -> Self {
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2016-12-05 05:44:42 +08:00
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let t = m.fixed_slice::<D, U1>(0, D::dim()).into_owned();
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2018-10-28 14:33:39 +08:00
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let t = Translation {
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2019-03-23 21:29:07 +08:00
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vector: crate::convert_unchecked(t),
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2018-10-28 14:33:39 +08:00
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};
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2016-12-05 05:44:42 +08:00
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2019-03-23 21:29:07 +08:00
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Self::from_parts(t, crate::convert_unchecked(m.clone_owned()))
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2016-12-05 05:44:42 +08:00
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}
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}
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2018-10-13 16:25:34 +08:00
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2020-10-25 18:24:20 +08:00
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impl<N: SimdRealField, D: DimName, R: AbstractRotation<N, D>> From<Translation<N, D>>
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for Isometry<N, D, R>
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where
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DefaultAllocator: Allocator<N, D>,
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{
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#[inline]
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fn from(tra: Translation<N, D>) -> Self {
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Self::from_parts(tra, R::identity())
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}
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}
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2020-03-22 06:22:55 +08:00
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impl<N: SimdRealField, D: DimName, R> From<Isometry<N, D, R>> for MatrixN<N, DimNameSum<D, U1>>
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2018-10-13 16:25:34 +08:00
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where
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D: DimNameAdd<U1>,
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R: SubsetOf<MatrixN<N, DimNameSum<D, U1>>>,
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DefaultAllocator: Allocator<N, DimNameSum<D, U1>, DimNameSum<D, U1>> + Allocator<N, D>,
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{
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#[inline]
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fn from(iso: Isometry<N, D, R>) -> Self {
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iso.to_homogeneous()
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}
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}
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2020-03-23 16:16:01 +08:00
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2020-03-24 17:16:31 +08:00
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impl<N: Scalar + PrimitiveSimdValue, D: DimName, R> From<[Isometry<N::Element, D, R::Element>; 2]>
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for Isometry<N, D, R>
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where
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N: From<[<N as SimdValue>::Element; 2]>,
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R: SimdValue + AbstractRotation<N, D> + From<[<R as SimdValue>::Element; 2]>,
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R::Element: AbstractRotation<N::Element, D>,
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N::Element: Scalar + Copy,
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R::Element: Scalar + Copy,
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DefaultAllocator: Allocator<N, D> + Allocator<N::Element, D>,
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{
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#[inline]
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fn from(arr: [Isometry<N::Element, D, R::Element>; 2]) -> Self {
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let tra = Translation::from([arr[0].translation.clone(), arr[1].translation.clone()]);
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let rot = R::from([arr[0].rotation.clone(), arr[0].rotation.clone()]);
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Self::from_parts(tra, rot)
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}
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}
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impl<N: Scalar + PrimitiveSimdValue, D: DimName, R> From<[Isometry<N::Element, D, R::Element>; 4]>
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for Isometry<N, D, R>
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where
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N: From<[<N as SimdValue>::Element; 4]>,
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R: SimdValue + AbstractRotation<N, D> + From<[<R as SimdValue>::Element; 4]>,
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R::Element: AbstractRotation<N::Element, D>,
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N::Element: Scalar + Copy,
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R::Element: Scalar + Copy,
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DefaultAllocator: Allocator<N, D> + Allocator<N::Element, D>,
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{
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#[inline]
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fn from(arr: [Isometry<N::Element, D, R::Element>; 4]) -> Self {
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let tra = Translation::from([
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arr[0].translation.clone(),
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arr[1].translation.clone(),
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arr[2].translation.clone(),
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arr[3].translation.clone(),
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]);
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let rot = R::from([
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arr[0].rotation.clone(),
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arr[1].rotation.clone(),
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arr[2].rotation.clone(),
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arr[3].rotation.clone(),
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]);
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Self::from_parts(tra, rot)
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}
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}
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impl<N: Scalar + PrimitiveSimdValue, D: DimName, R> From<[Isometry<N::Element, D, R::Element>; 8]>
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for Isometry<N, D, R>
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where
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N: From<[<N as SimdValue>::Element; 8]>,
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R: SimdValue + AbstractRotation<N, D> + From<[<R as SimdValue>::Element; 8]>,
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R::Element: AbstractRotation<N::Element, D>,
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N::Element: Scalar + Copy,
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R::Element: Scalar + Copy,
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DefaultAllocator: Allocator<N, D> + Allocator<N::Element, D>,
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{
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#[inline]
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fn from(arr: [Isometry<N::Element, D, R::Element>; 8]) -> Self {
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let tra = Translation::from([
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arr[0].translation.clone(),
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arr[1].translation.clone(),
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arr[2].translation.clone(),
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arr[3].translation.clone(),
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arr[4].translation.clone(),
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arr[5].translation.clone(),
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arr[6].translation.clone(),
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arr[7].translation.clone(),
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]);
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let rot = R::from([
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arr[0].rotation.clone(),
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arr[1].rotation.clone(),
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arr[2].rotation.clone(),
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arr[3].rotation.clone(),
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arr[4].rotation.clone(),
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arr[5].rotation.clone(),
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arr[6].rotation.clone(),
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arr[7].rotation.clone(),
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]);
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Self::from_parts(tra, rot)
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}
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}
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impl<N: Scalar + PrimitiveSimdValue, D: DimName, R> From<[Isometry<N::Element, D, R::Element>; 16]>
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for Isometry<N, D, R>
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where
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N: From<[<N as SimdValue>::Element; 16]>,
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R: SimdValue + AbstractRotation<N, D> + From<[<R as SimdValue>::Element; 16]>,
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R::Element: AbstractRotation<N::Element, D>,
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N::Element: Scalar + Copy,
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R::Element: Scalar + Copy,
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DefaultAllocator: Allocator<N, D> + Allocator<N::Element, D>,
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{
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#[inline]
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fn from(arr: [Isometry<N::Element, D, R::Element>; 16]) -> Self {
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let tra = Translation::from([
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arr[0].translation.clone(),
|
|
|
|
arr[1].translation.clone(),
|
|
|
|
arr[2].translation.clone(),
|
|
|
|
arr[3].translation.clone(),
|
|
|
|
arr[4].translation.clone(),
|
|
|
|
arr[5].translation.clone(),
|
|
|
|
arr[6].translation.clone(),
|
|
|
|
arr[7].translation.clone(),
|
|
|
|
arr[8].translation.clone(),
|
|
|
|
arr[9].translation.clone(),
|
|
|
|
arr[10].translation.clone(),
|
|
|
|
arr[11].translation.clone(),
|
|
|
|
arr[12].translation.clone(),
|
|
|
|
arr[13].translation.clone(),
|
|
|
|
arr[14].translation.clone(),
|
|
|
|
arr[15].translation.clone(),
|
|
|
|
]);
|
|
|
|
let rot = R::from([
|
|
|
|
arr[0].rotation.clone(),
|
|
|
|
arr[1].rotation.clone(),
|
|
|
|
arr[2].rotation.clone(),
|
|
|
|
arr[3].rotation.clone(),
|
|
|
|
arr[4].rotation.clone(),
|
|
|
|
arr[5].rotation.clone(),
|
|
|
|
arr[6].rotation.clone(),
|
|
|
|
arr[7].rotation.clone(),
|
|
|
|
arr[8].rotation.clone(),
|
|
|
|
arr[9].rotation.clone(),
|
|
|
|
arr[10].rotation.clone(),
|
|
|
|
arr[11].rotation.clone(),
|
|
|
|
arr[12].rotation.clone(),
|
|
|
|
arr[13].rotation.clone(),
|
|
|
|
arr[14].rotation.clone(),
|
|
|
|
arr[15].rotation.clone(),
|
|
|
|
]);
|
|
|
|
|
|
|
|
Self::from_parts(tra, rot)
|
|
|
|
}
|
|
|
|
}
|