use crate::{RealField, Rotation2, Rotation3, SimdRealField, UnitComplex, UnitQuaternion}; /// # Interpolation impl Rotation2 { /// Spherical linear interpolation between two rotation matrices. /// /// # Examples: /// /// ``` /// # #[macro_use] extern crate approx; /// # use nalgebra::geometry::Rotation2; /// /// let rot1 = Rotation2::new(std::f32::consts::FRAC_PI_4); /// let rot2 = Rotation2::new(-std::f32::consts::PI); /// /// let rot = rot1.slerp(&rot2, 1.0 / 3.0); /// /// assert_relative_eq!(rot.angle(), std::f32::consts::FRAC_PI_2); /// ``` #[inline] #[must_use] pub fn slerp(&self, other: &Self, t: T) -> Self where T::Element: SimdRealField, { let c1 = UnitComplex::from(*self); let c2 = UnitComplex::from(*other); c1.slerp(&c2, t).into() } } impl Rotation3 { /// Spherical linear interpolation between two rotation matrices. /// /// Panics if the angle between both rotations is 180 degrees (in which case the interpolation /// is not well-defined). Use `.try_slerp` instead to avoid the panic. /// /// # Examples: /// /// ``` /// # use nalgebra::geometry::Rotation3; /// /// let q1 = Rotation3::from_euler_angles(std::f32::consts::FRAC_PI_4, 0.0, 0.0); /// let q2 = Rotation3::from_euler_angles(-std::f32::consts::PI, 0.0, 0.0); /// /// let q = q1.slerp(&q2, 1.0 / 3.0); /// /// assert_eq!(q.euler_angles(), (std::f32::consts::FRAC_PI_2, 0.0, 0.0)); /// ``` #[inline] #[must_use] pub fn slerp(&self, other: &Self, t: T) -> Self where T: RealField, { let q1 = UnitQuaternion::from(*self); let q2 = UnitQuaternion::from(*other); q1.slerp(&q2, t).into() } /// Computes the spherical linear interpolation between two rotation matrices or returns `None` /// if both rotations are approximately 180 degrees apart (in which case the interpolation is /// not well-defined). /// /// # Arguments /// * `self`: the first rotation to interpolate from. /// * `other`: the second rotation to interpolate toward. /// * `t`: the interpolation parameter. Should be between 0 and 1. /// * `epsilon`: the value below which the sinus of the angle separating both rotations /// must be to return `None`. #[inline] #[must_use] pub fn try_slerp(&self, other: &Self, t: T, epsilon: T) -> Option where T: RealField, { let q1 = UnitQuaternion::from(*self); let q2 = UnitQuaternion::from(*other); q1.try_slerp(&q2, t, epsilon).map(|q| q.into()) } }