forked from M-Labs/nalgebra
Changed the representation of rotations for 3D matrix.
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@ -1,7 +1,6 @@
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use std::num::{One, Zero};
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use std::num::{One, Zero};
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use std::rand::{Rand, Rng, RngUtil};
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use std::rand::{Rand, Rng, RngUtil};
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use std::cmp::ApproxEq;
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use std::cmp::ApproxEq;
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use traits::ring::Ring;
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use traits::division_ring::DivisionRing;
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use traits::division_ring::DivisionRing;
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use traits::rlmul::{RMul, LMul};
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use traits::rlmul::{RMul, LMul};
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use traits::dim::Dim;
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use traits::dim::Dim;
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@ -11,6 +10,7 @@ use traits::rotation::{Rotation, Rotate, Rotatable};
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use traits::transformation::{Transform}; // FIXME: implement Transformation and Transformable
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use traits::transformation::{Transform}; // FIXME: implement Transformation and Transformable
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use traits::homogeneous::ToHomogeneous;
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use traits::homogeneous::ToHomogeneous;
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use traits::indexable::Indexable;
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use traits::indexable::Indexable;
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use traits::norm::Norm;
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use vec::Vec1;
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use vec::Vec1;
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use mat::{Mat2, Mat3};
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use mat::{Mat2, Mat3};
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use vec::Vec3;
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use vec::Vec3;
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@ -28,9 +28,11 @@ pub fn rotmat2<N: Copy + Trigonometric + Neg<N>>(angle: N) -> Rotmat<Mat2<N>>
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{ submat: Mat2::new( [ copy coa, -sia, copy sia, copy coa ] ) }
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{ submat: Mat2::new( [ copy coa, -sia, copy sia, copy coa ] ) }
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}
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}
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pub fn rotmat3<N: Copy + Trigonometric + Ring>
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pub fn rotmat3<N: Copy + Trigonometric + DivisionRing + Algebraic>
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(axis: &Vec3<N>, angle: N) -> Rotmat<Mat3<N>>
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(axisangle: Vec3<N>) -> Rotmat<Mat3<N>>
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{
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{
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let mut axis = axisangle;
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let angle = axis.normalize();
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let _1 = One::one::<N>();
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let _1 = One::one::<N>();
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let ux = copy axis.at[0];
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let ux = copy axis.at[0];
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let uy = copy axis.at[1];
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let uy = copy axis.at[1];
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@ -82,29 +84,29 @@ Rotatable<Vec1<N>, Rotmat<Mat2<N>>> for Rotmat<Mat2<N>>
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{ rotmat2(copy rot.at[0]) * *self }
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{ rotmat2(copy rot.at[0]) * *self }
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}
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}
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impl<N: Copy + Trigonometric + DivisionRing>
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impl<N: Copy + Trigonometric + DivisionRing + Algebraic>
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Rotation<(Vec3<N>, N)> for Rotmat<Mat3<N>>
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Rotation<Vec3<N>> for Rotmat<Mat3<N>>
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{
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{
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#[inline]
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#[inline]
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fn rotation(&self) -> (Vec3<N>, N)
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fn rotation(&self) -> Vec3<N>
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{ fail!("Not yet implemented.") }
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{ fail!("Not yet implemented.") }
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#[inline]
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#[inline]
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fn inv_rotation(&self) -> (Vec3<N>, N)
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fn inv_rotation(&self) -> Vec3<N>
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{ fail!("Not yet implemented.") }
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{ fail!("Not yet implemented.") }
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#[inline]
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#[inline]
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fn rotate_by(&mut self, rot: &(Vec3<N>, N))
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fn rotate_by(&mut self, rot: &Vec3<N>)
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{ *self = self.rotated(rot) }
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{ *self = self.rotated(rot) }
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}
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}
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impl<N: Copy + Trigonometric + DivisionRing>
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impl<N: Copy + Trigonometric + DivisionRing + Algebraic>
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Rotatable<(Vec3<N>, N), Rotmat<Mat3<N>>> for Rotmat<Mat3<N>>
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Rotatable<Vec3<N>, Rotmat<Mat3<N>>> for Rotmat<Mat3<N>>
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{
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{
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#[inline]
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#[inline]
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fn rotated(&self, &(axis, angle): &(Vec3<N>, N)) -> Rotmat<Mat3<N>>
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fn rotated(&self, axisangle: &Vec3<N>) -> Rotmat<Mat3<N>>
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{ rotmat3(&axis, angle) * *self }
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{ rotmat3(copy *axisangle) * *self }
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}
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}
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impl<N: Copy + Rand + Trigonometric + Neg<N>> Rand for Rotmat<Mat2<N>>
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impl<N: Copy + Rand + Trigonometric + Neg<N>> Rand for Rotmat<Mat2<N>>
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@ -136,12 +138,12 @@ impl<M: RMul<V> + LMul<V>, V> Transform<V> for Rotmat<M>
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{ self.inv_rotate(v) }
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{ self.inv_rotate(v) }
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}
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}
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impl<N: Copy + Rand + Trigonometric + Ring>
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impl<N: Copy + Rand + Trigonometric + DivisionRing + Algebraic>
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Rand for Rotmat<Mat3<N>>
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Rand for Rotmat<Mat3<N>>
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{
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{
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#[inline]
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#[inline]
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fn rand<R: Rng>(rng: &mut R) -> Rotmat<Mat3<N>>
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fn rand<R: Rng>(rng: &mut R) -> Rotmat<Mat3<N>>
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{ rotmat3(&rng.gen(), rng.gen()) }
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{ rotmat3(rng.gen()) }
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}
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}
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impl<M: Dim> Dim for Rotmat<M>
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impl<M: Dim> Dim for Rotmat<M>
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