Struct nalgebra::geometry::DualQuaternion [−][src]
#[repr(C)]pub struct DualQuaternion<T: Scalar> { pub real: Quaternion<T>, pub dual: Quaternion<T>, }
A dual quaternion.
Indexing
DualQuaternions are stored as [..real, ..dual].
Both of the quaternion components are laid out in i, j, k, w
order.
let real = Quaternion::new(1.0, 2.0, 3.0, 4.0); let dual = Quaternion::new(5.0, 6.0, 7.0, 8.0); let dq = DualQuaternion::from_real_and_dual(real, dual); assert_eq!(dq[0], 2.0); assert_eq!(dq[1], 3.0); assert_eq!(dq[4], 6.0); assert_eq!(dq[7], 5.0);
NOTE: As of December 2020, dual quaternion support is a work in progress. If a feature that you need is missing, feel free to open an issue or a PR. See https://github.com/dimforge/nalgebra/issues/487
Fields
real: Quaternion<T>
The real component of the quaternion
dual: Quaternion<T>
The dual component of the quaternion
Implementations
impl<T: SimdRealField> DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> DualQuaternion<T> where
T::Element: SimdRealField,
[src]#[must_use = "Did you mean to use normalize_mut()?"]pub fn normalize(&self) -> Self
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Normalizes this quaternion.
Example
let real = Quaternion::new(1.0, 2.0, 3.0, 4.0); let dual = Quaternion::new(5.0, 6.0, 7.0, 8.0); let dq = DualQuaternion::from_real_and_dual(real, dual); let dq_normalized = dq.normalize(); relative_eq!(dq_normalized.real.norm(), 1.0);
pub fn normalize_mut(&mut self) -> T
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Normalizes this quaternion.
Example
let real = Quaternion::new(1.0, 2.0, 3.0, 4.0); let dual = Quaternion::new(5.0, 6.0, 7.0, 8.0); let mut dq = DualQuaternion::from_real_and_dual(real, dual); dq.normalize_mut(); relative_eq!(dq.real.norm(), 1.0);
#[must_use = "Did you mean to use conjugate_mut()?"]pub fn conjugate(&self) -> Self
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The conjugate of this dual quaternion, containing the conjugate of the real and imaginary parts..
Example
let real = Quaternion::new(1.0, 2.0, 3.0, 4.0); let dual = Quaternion::new(5.0, 6.0, 7.0, 8.0); let dq = DualQuaternion::from_real_and_dual(real, dual); let conj = dq.conjugate(); assert!(conj.real.i == -2.0 && conj.real.j == -3.0 && conj.real.k == -4.0); assert!(conj.real.w == 1.0); assert!(conj.dual.i == -6.0 && conj.dual.j == -7.0 && conj.dual.k == -8.0); assert!(conj.dual.w == 5.0);
pub fn conjugate_mut(&mut self)
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Replaces this quaternion by its conjugate.
Example
let real = Quaternion::new(1.0, 2.0, 3.0, 4.0); let dual = Quaternion::new(5.0, 6.0, 7.0, 8.0); let mut dq = DualQuaternion::from_real_and_dual(real, dual); dq.conjugate_mut(); assert!(dq.real.i == -2.0 && dq.real.j == -3.0 && dq.real.k == -4.0); assert!(dq.real.w == 1.0); assert!(dq.dual.i == -6.0 && dq.dual.j == -7.0 && dq.dual.k == -8.0); assert!(dq.dual.w == 5.0);
#[must_use = "Did you mean to use try_inverse_mut()?"]pub fn try_inverse(&self) -> Option<Self> where
T: RealField,
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T: RealField,
Inverts this dual quaternion if it is not zero.
Example
let real = Quaternion::new(1.0, 2.0, 3.0, 4.0); let dual = Quaternion::new(5.0, 6.0, 7.0, 8.0); let dq = DualQuaternion::from_real_and_dual(real, dual); let inverse = dq.try_inverse(); assert!(inverse.is_some()); assert_relative_eq!(inverse.unwrap() * dq, DualQuaternion::identity()); //Non-invertible case let zero = Quaternion::new(0.0, 0.0, 0.0, 0.0); let dq = DualQuaternion::from_real_and_dual(zero, zero); let inverse = dq.try_inverse(); assert!(inverse.is_none());
pub fn try_inverse_mut(&mut self) -> bool where
T: RealField,
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T: RealField,
Inverts this dual quaternion in-place if it is not zero.
Example
let real = Quaternion::new(1.0, 2.0, 3.0, 4.0); let dual = Quaternion::new(5.0, 6.0, 7.0, 8.0); let dq = DualQuaternion::from_real_and_dual(real, dual); let mut dq_inverse = dq; dq_inverse.try_inverse_mut(); assert_relative_eq!(dq_inverse * dq, DualQuaternion::identity()); //Non-invertible case let zero = Quaternion::new(0.0, 0.0, 0.0, 0.0); let mut dq = DualQuaternion::from_real_and_dual(zero, zero); assert!(!dq.try_inverse_mut());
pub fn lerp(&self, other: &Self, t: T) -> Self
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Linear interpolation between two dual quaternions.
Computes self * (1 - t) + other * t
.
Example
let dq1 = DualQuaternion::from_real_and_dual( Quaternion::new(1.0, 0.0, 0.0, 4.0), Quaternion::new(0.0, 2.0, 0.0, 0.0) ); let dq2 = DualQuaternion::from_real_and_dual( Quaternion::new(2.0, 0.0, 1.0, 0.0), Quaternion::new(0.0, 2.0, 0.0, 0.0) ); assert_eq!(dq1.lerp(&dq2, 0.25), DualQuaternion::from_real_and_dual( Quaternion::new(1.25, 0.0, 0.25, 3.0), Quaternion::new(0.0, 2.0, 0.0, 0.0) ));
impl<T: Scalar> DualQuaternion<T>
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impl<T: Scalar> DualQuaternion<T>
[src]pub fn from_real_and_dual(real: Quaternion<T>, dual: Quaternion<T>) -> Self
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Creates a dual quaternion from its rotation and translation components.
Example
let rot = Quaternion::new(1.0, 2.0, 3.0, 4.0); let trans = Quaternion::new(5.0, 6.0, 7.0, 8.0); let dq = DualQuaternion::from_real_and_dual(rot, trans); assert_eq!(dq.real.w, 1.0);
pub fn identity() -> Self where
T: SimdRealField,
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T: SimdRealField,
The dual quaternion multiplicative identity.
Example
let dq1 = DualQuaternion::identity(); let dq2 = DualQuaternion::from_real_and_dual( Quaternion::new(1.,2.,3.,4.), Quaternion::new(5.,6.,7.,8.) ); assert_eq!(dq1 * dq2, dq2); assert_eq!(dq2 * dq1, dq2);
pub fn cast<To: Scalar>(self) -> DualQuaternion<To> where
DualQuaternion<To>: SupersetOf<Self>,
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DualQuaternion<To>: SupersetOf<Self>,
Cast the components of self
to another type.
Example
let q = DualQuaternion::from_real(Quaternion::new(1.0f64, 2.0, 3.0, 4.0)); let q2 = q.cast::<f32>(); assert_eq!(q2, DualQuaternion::from_real(Quaternion::new(1.0f32, 2.0, 3.0, 4.0)));
impl<T: SimdRealField> DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> DualQuaternion<T> where
T::Element: SimdRealField,
[src]pub fn from_real(real: Quaternion<T>) -> Self
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Creates a dual quaternion from only its real part, with no translation component.
Example
let rot = Quaternion::new(1.0, 2.0, 3.0, 4.0); let dq = DualQuaternion::from_real(rot); assert_eq!(dq.real.w, 1.0); assert_eq!(dq.dual.w, 0.0);
Trait Implementations
impl<T: RealField + AbsDiffEq<Epsilon = T>> AbsDiffEq<DualQuaternion<T>> for DualQuaternion<T>
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impl<T: RealField + AbsDiffEq<Epsilon = T>> AbsDiffEq<DualQuaternion<T>> for DualQuaternion<T>
[src]type Epsilon = T
Used for specifying relative comparisons.
fn default_epsilon() -> Self::Epsilon
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fn abs_diff_eq(&self, other: &Self, epsilon: Self::Epsilon) -> bool
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pub fn abs_diff_ne(&self, other: &Rhs, epsilon: Self::Epsilon) -> bool
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impl<'a, 'b, T: SimdRealField> Add<&'b DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, 'b, T: SimdRealField> Add<&'b DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the +
operator.
fn add(self, rhs: &'b DualQuaternion<T>) -> Self::Output
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impl<'b, T: SimdRealField> Add<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'b, T: SimdRealField> Add<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the +
operator.
fn add(self, rhs: &'b DualQuaternion<T>) -> Self::Output
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impl<'a, T: SimdRealField> Add<DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, T: SimdRealField> Add<DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the +
operator.
fn add(self, rhs: DualQuaternion<T>) -> Self::Output
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impl<T: SimdRealField> Add<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> Add<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the +
operator.
fn add(self, rhs: DualQuaternion<T>) -> Self::Output
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impl<'b, T: SimdRealField> AddAssign<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'b, T: SimdRealField> AddAssign<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn add_assign(&mut self, rhs: &'b DualQuaternion<T>)
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impl<T: SimdRealField> AddAssign<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> AddAssign<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn add_assign(&mut self, rhs: DualQuaternion<T>)
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impl<T: SimdRealField> AsMut<[T; 8]> for DualQuaternion<T>
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impl<T: SimdRealField> AsMut<[T; 8]> for DualQuaternion<T>
[src]impl<T: SimdRealField> AsRef<[T; 8]> for DualQuaternion<T>
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impl<T: SimdRealField> AsRef<[T; 8]> for DualQuaternion<T>
[src]impl<T: Clone + Scalar> Clone for DualQuaternion<T>
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impl<T: Clone + Scalar> Clone for DualQuaternion<T>
[src]fn clone(&self) -> DualQuaternion<T>
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pub fn clone_from(&mut self, source: &Self)
1.0.0[src]
impl<T: Copy + Scalar> Copy for DualQuaternion<T>
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impl<T: Copy + Scalar> Copy for DualQuaternion<T>
[src]impl<T: Debug + Scalar> Debug for DualQuaternion<T>
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impl<T: Debug + Scalar> Debug for DualQuaternion<T>
[src]impl<'a, 'b, T: SimdRealField> Div<&'b Unit<DualQuaternion<T>>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, 'b, T: SimdRealField> Div<&'b Unit<DualQuaternion<T>>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the /
operator.
fn div(self, rhs: &'b UnitDualQuaternion<T>) -> Self::Output
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impl<'b, T: SimdRealField> Div<&'b Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'b, T: SimdRealField> Div<&'b Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the /
operator.
fn div(self, rhs: &'b UnitDualQuaternion<T>) -> Self::Output
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impl<T: SimdRealField> Div<T> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> Div<T> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the /
operator.
fn div(self, n: T) -> Self::Output
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impl<'a, T: SimdRealField> Div<T> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, T: SimdRealField> Div<T> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the /
operator.
fn div(self, n: T) -> Self::Output
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impl<'a, T: SimdRealField> Div<Unit<DualQuaternion<T>>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, T: SimdRealField> Div<Unit<DualQuaternion<T>>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the /
operator.
fn div(self, rhs: UnitDualQuaternion<T>) -> Self::Output
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impl<T: SimdRealField> Div<Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> Div<Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the /
operator.
fn div(self, rhs: UnitDualQuaternion<T>) -> Self::Output
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impl<'b, T: SimdRealField> DivAssign<&'b Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'b, T: SimdRealField> DivAssign<&'b Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn div_assign(&mut self, rhs: &'b UnitDualQuaternion<T>)
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impl<T: SimdRealField> DivAssign<T> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> DivAssign<T> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn div_assign(&mut self, n: T)
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impl<T: SimdRealField> DivAssign<Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> DivAssign<Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn div_assign(&mut self, rhs: UnitDualQuaternion<T>)
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impl<T: Eq + Scalar> Eq for DualQuaternion<T>
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impl<T: Eq + Scalar> Eq for DualQuaternion<T>
[src]impl<T: SimdRealField> Index<usize> for DualQuaternion<T>
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impl<T: SimdRealField> Index<usize> for DualQuaternion<T>
[src]impl<T: SimdRealField> IndexMut<usize> for DualQuaternion<T>
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impl<T: SimdRealField> IndexMut<usize> for DualQuaternion<T>
[src]impl<'a, 'b, T: SimdRealField> Mul<&'b DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, 'b, T: SimdRealField> Mul<&'b DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: &'b DualQuaternion<T>) -> Self::Output
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impl<'b, T: SimdRealField> Mul<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'b, T: SimdRealField> Mul<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: &'b DualQuaternion<T>) -> Self::Output
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impl<'a, 'b, T: SimdRealField> Mul<&'b DualQuaternion<T>> for &'a UnitDualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, 'b, T: SimdRealField> Mul<&'b DualQuaternion<T>> for &'a UnitDualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: &'b DualQuaternion<T>) -> Self::Output
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impl<'b, T: SimdRealField> Mul<&'b DualQuaternion<T>> for UnitDualQuaternion<T> where
T::Element: SimdRealField,
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impl<'b, T: SimdRealField> Mul<&'b DualQuaternion<T>> for UnitDualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: &'b DualQuaternion<T>) -> Self::Output
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impl<'a, 'b, T: SimdRealField> Mul<&'b Unit<DualQuaternion<T>>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, 'b, T: SimdRealField> Mul<&'b Unit<DualQuaternion<T>>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: &'b UnitDualQuaternion<T>) -> Self::Output
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impl<'b, T: SimdRealField> Mul<&'b Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'b, T: SimdRealField> Mul<&'b Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: &'b UnitDualQuaternion<T>) -> Self::Output
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impl<'a, T: SimdRealField> Mul<DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, T: SimdRealField> Mul<DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: DualQuaternion<T>) -> Self::Output
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impl<T: SimdRealField> Mul<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> Mul<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: DualQuaternion<T>) -> Self::Output
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impl<'a, T: SimdRealField> Mul<DualQuaternion<T>> for &'a UnitDualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, T: SimdRealField> Mul<DualQuaternion<T>> for &'a UnitDualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: DualQuaternion<T>) -> Self::Output
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impl<T: SimdRealField> Mul<DualQuaternion<T>> for UnitDualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> Mul<DualQuaternion<T>> for UnitDualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: DualQuaternion<T>) -> Self::Output
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impl<T: SimdRealField> Mul<T> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> Mul<T> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, n: T) -> Self::Output
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impl<'a, T: SimdRealField> Mul<T> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, T: SimdRealField> Mul<T> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, n: T) -> Self::Output
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impl<'a, T: SimdRealField> Mul<Unit<DualQuaternion<T>>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'a, T: SimdRealField> Mul<Unit<DualQuaternion<T>>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: UnitDualQuaternion<T>) -> Self::Output
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impl<T: SimdRealField> Mul<Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> Mul<Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the *
operator.
fn mul(self, rhs: UnitDualQuaternion<T>) -> Self::Output
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impl<'b, T: SimdRealField> MulAssign<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'b, T: SimdRealField> MulAssign<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn mul_assign(&mut self, rhs: &'b DualQuaternion<T>)
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impl<'b, T: SimdRealField> MulAssign<&'b Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<'b, T: SimdRealField> MulAssign<&'b Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn mul_assign(&mut self, rhs: &'b UnitDualQuaternion<T>)
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impl<T: SimdRealField> MulAssign<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> MulAssign<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn mul_assign(&mut self, rhs: DualQuaternion<T>)
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impl<T: SimdRealField> MulAssign<T> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> MulAssign<T> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn mul_assign(&mut self, n: T)
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impl<T: SimdRealField> MulAssign<Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> MulAssign<Unit<DualQuaternion<T>>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn mul_assign(&mut self, rhs: UnitDualQuaternion<T>)
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impl<T: SimdRealField> Neg for DualQuaternion<T> where
T::Element: SimdRealField,
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impl<T: SimdRealField> Neg for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the -
operator.
fn neg(self) -> Self::Output
[src]
impl<'a, T: SimdRealField> Neg for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]
impl<'a, T: SimdRealField> Neg for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the -
operator.
fn neg(self) -> Self::Output
[src]
impl<T: SimdRealField> Normed for DualQuaternion<T>
[src]
impl<T: SimdRealField> Normed for DualQuaternion<T>
[src]type Norm = T::SimdRealField
The type of the norm.
fn norm(&self) -> T::SimdRealField
[src]
fn norm_squared(&self) -> T::SimdRealField
[src]
fn scale_mut(&mut self, n: Self::Norm)
[src]
fn unscale_mut(&mut self, n: Self::Norm)
[src]
impl<T: SimdRealField> One for DualQuaternion<T> where
T::Element: SimdRealField,
[src]
impl<T: SimdRealField> One for DualQuaternion<T> where
T::Element: SimdRealField,
[src]impl<T: PartialEq + Scalar> PartialEq<DualQuaternion<T>> for DualQuaternion<T>
[src]
impl<T: PartialEq + Scalar> PartialEq<DualQuaternion<T>> for DualQuaternion<T>
[src]fn eq(&self, other: &DualQuaternion<T>) -> bool
[src]
fn ne(&self, other: &DualQuaternion<T>) -> bool
[src]
impl<T: RealField + RelativeEq<Epsilon = T>> RelativeEq<DualQuaternion<T>> for DualQuaternion<T>
[src]
impl<T: RealField + RelativeEq<Epsilon = T>> RelativeEq<DualQuaternion<T>> for DualQuaternion<T>
[src]fn default_max_relative() -> Self::Epsilon
[src]
fn relative_eq(
&self,
other: &Self,
epsilon: Self::Epsilon,
max_relative: Self::Epsilon
) -> bool
[src]
&self,
other: &Self,
epsilon: Self::Epsilon,
max_relative: Self::Epsilon
) -> bool
pub fn relative_ne(
&self,
other: &Rhs,
epsilon: Self::Epsilon,
max_relative: Self::Epsilon
) -> bool
[src]
&self,
other: &Rhs,
epsilon: Self::Epsilon,
max_relative: Self::Epsilon
) -> bool
impl<T: Scalar> StructuralEq for DualQuaternion<T>
[src]
impl<T: Scalar> StructuralEq for DualQuaternion<T>
[src]impl<T: Scalar> StructuralPartialEq for DualQuaternion<T>
[src]
impl<T: Scalar> StructuralPartialEq for DualQuaternion<T>
[src]impl<'a, 'b, T: SimdRealField> Sub<&'b DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]
impl<'a, 'b, T: SimdRealField> Sub<&'b DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the -
operator.
fn sub(self, rhs: &'b DualQuaternion<T>) -> Self::Output
[src]
impl<'b, T: SimdRealField> Sub<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]
impl<'b, T: SimdRealField> Sub<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the -
operator.
fn sub(self, rhs: &'b DualQuaternion<T>) -> Self::Output
[src]
impl<'a, T: SimdRealField> Sub<DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]
impl<'a, T: SimdRealField> Sub<DualQuaternion<T>> for &'a DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the -
operator.
fn sub(self, rhs: DualQuaternion<T>) -> Self::Output
[src]
impl<T: SimdRealField> Sub<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]
impl<T: SimdRealField> Sub<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]type Output = DualQuaternion<T>
The resulting type after applying the -
operator.
fn sub(self, rhs: DualQuaternion<T>) -> Self::Output
[src]
impl<'b, T: SimdRealField> SubAssign<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]
impl<'b, T: SimdRealField> SubAssign<&'b DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn sub_assign(&mut self, rhs: &'b DualQuaternion<T>)
[src]
impl<T: SimdRealField> SubAssign<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]
impl<T: SimdRealField> SubAssign<DualQuaternion<T>> for DualQuaternion<T> where
T::Element: SimdRealField,
[src]fn sub_assign(&mut self, rhs: DualQuaternion<T>)
[src]
impl<T1, T2> SubsetOf<DualQuaternion<T2>> for DualQuaternion<T1> where
T1: SimdRealField,
T2: SimdRealField + SupersetOf<T1>,
[src]
impl<T1, T2> SubsetOf<DualQuaternion<T2>> for DualQuaternion<T1> where
T1: SimdRealField,
T2: SimdRealField + SupersetOf<T1>,
[src]fn to_superset(&self) -> DualQuaternion<T2>
[src]
fn is_in_subset(dq: &DualQuaternion<T2>) -> bool
[src]
fn from_superset_unchecked(dq: &DualQuaternion<T2>) -> Self
[src]
pub fn from_superset(element: &T) -> Option<Self>
[src]
impl<T: RealField + UlpsEq<Epsilon = T>> UlpsEq<DualQuaternion<T>> for DualQuaternion<T>
[src]
impl<T: RealField + UlpsEq<Epsilon = T>> UlpsEq<DualQuaternion<T>> for DualQuaternion<T>
[src]impl<T: SimdRealField> Zero for DualQuaternion<T> where
T::Element: SimdRealField,
[src]
impl<T: SimdRealField> Zero for DualQuaternion<T> where
T::Element: SimdRealField,
[src]Auto Trait Implementations
impl<T> RefUnwindSafe for DualQuaternion<T> where
T: RefUnwindSafe,
impl<T> RefUnwindSafe for DualQuaternion<T> where
T: RefUnwindSafe,
impl<T> Send for DualQuaternion<T> where
T: Send,
impl<T> Send for DualQuaternion<T> where
T: Send,
impl<T> Sync for DualQuaternion<T> where
T: Sync,
impl<T> Sync for DualQuaternion<T> where
T: Sync,
impl<T> Unpin for DualQuaternion<T> where
T: Unpin,
impl<T> Unpin for DualQuaternion<T> where
T: Unpin,
impl<T> UnwindSafe for DualQuaternion<T> where
T: UnwindSafe,
impl<T> UnwindSafe for DualQuaternion<T> where
T: UnwindSafe,
Blanket Implementations
impl<SS, SP> SupersetOf<SS> for SP where
SS: SubsetOf<SP>,
[src]
impl<SS, SP> SupersetOf<SS> for SP where
SS: SubsetOf<SP>,
[src]pub fn to_subset(&self) -> Option<SS>
[src]
pub fn is_in_subset(&self) -> bool
[src]
pub fn to_subset_unchecked(&self) -> SS
[src]
pub fn from_subset(element: &SS) -> SP
[src]
impl<V, T> VZip<V> for T where
V: MultiLane<T>,
impl<V, T> VZip<V> for T where
V: MultiLane<T>,