Union geometric_algebra::hpga2d::Point
source · pub union Point {
/* private fields */
}
Implementations§
Trait Implementations§
source§impl Add<IdealPoint> for Point
impl Add<IdealPoint> for Point
source§impl Add<MultiVector> for Point
impl Add<MultiVector> for Point
§type Output = MultiVector
type Output = MultiVector
The resulting type after applying the
+
operator.source§fn add(self, other: MultiVector) -> MultiVector
fn add(self, other: MultiVector) -> MultiVector
Performs the
+
operation. Read moresource§impl Add<Point> for IdealPoint
impl Add<Point> for IdealPoint
source§impl Add<Point> for MultiVector
impl Add<Point> for MultiVector
§type Output = MultiVector
type Output = MultiVector
The resulting type after applying the
+
operator.source§impl Add<Point> for Translator
impl Add<Point> for Translator
source§impl Add<Translator> for Point
impl Add<Translator> for Point
source§impl AddAssign<IdealPoint> for Point
impl AddAssign<IdealPoint> for Point
source§fn add_assign(&mut self, other: IdealPoint)
fn add_assign(&mut self, other: IdealPoint)
Performs the
+=
operation. Read moresource§impl AddAssign<Point> for Motor
impl AddAssign<Point> for Motor
source§fn add_assign(&mut self, other: Point)
fn add_assign(&mut self, other: Point)
Performs the
+=
operation. Read moresource§impl AddAssign<Point> for MultiVector
impl AddAssign<Point> for MultiVector
source§fn add_assign(&mut self, other: Point)
fn add_assign(&mut self, other: Point)
Performs the
+=
operation. Read moresource§impl AddAssign<Point> for Point
impl AddAssign<Point> for Point
source§fn add_assign(&mut self, other: Point)
fn add_assign(&mut self, other: Point)
Performs the
+=
operation. Read moresource§impl DivAssign<Point> for Point
impl DivAssign<Point> for Point
source§fn div_assign(&mut self, other: Point)
fn div_assign(&mut self, other: Point)
Performs the
/=
operation. Read moresource§impl GeometricProduct<IdealPoint> for Point
impl GeometricProduct<IdealPoint> for Point
type Output = Motor
fn geometric_product(self, other: IdealPoint) -> Motor
source§impl GeometricProduct<Motor> for Point
impl GeometricProduct<Motor> for Point
source§impl GeometricProduct<MotorDual> for Point
impl GeometricProduct<MotorDual> for Point
source§impl GeometricProduct<MultiVector> for Point
impl GeometricProduct<MultiVector> for Point
type Output = MultiVector
fn geometric_product(self, other: MultiVector) -> MultiVector
source§impl GeometricProduct<Plane> for Point
impl GeometricProduct<Plane> for Point
source§impl GeometricProduct<Point> for IdealPoint
impl GeometricProduct<Point> for IdealPoint
source§impl GeometricProduct<Point> for Motor
impl GeometricProduct<Point> for Motor
source§impl GeometricProduct<Point> for MotorDual
impl GeometricProduct<Point> for MotorDual
source§impl GeometricProduct<Point> for MultiVector
impl GeometricProduct<Point> for MultiVector
type Output = MultiVector
fn geometric_product(self, other: Point) -> MultiVector
source§impl GeometricProduct<Point> for Plane
impl GeometricProduct<Point> for Plane
source§impl GeometricProduct<Point> for Point
impl GeometricProduct<Point> for Point
source§impl GeometricProduct<Point> for Rotor
impl GeometricProduct<Point> for Rotor
source§impl GeometricProduct<Point> for Translator
impl GeometricProduct<Point> for Translator
source§impl GeometricProduct<Point> for f32
impl GeometricProduct<Point> for f32
source§impl GeometricProduct<Rotor> for Point
impl GeometricProduct<Rotor> for Point
source§impl GeometricProduct<Translator> for Point
impl GeometricProduct<Translator> for Point
type Output = Motor
fn geometric_product(self, other: Translator) -> Motor
source§impl GeometricProduct<f32> for Point
impl GeometricProduct<f32> for Point
source§impl GeometricQuotient<IdealPoint> for Point
impl GeometricQuotient<IdealPoint> for Point
type Output = Motor
fn geometric_quotient(self, other: IdealPoint) -> Motor
source§impl GeometricQuotient<Motor> for Point
impl GeometricQuotient<Motor> for Point
source§impl GeometricQuotient<MotorDual> for Point
impl GeometricQuotient<MotorDual> for Point
source§impl GeometricQuotient<MultiVector> for Point
impl GeometricQuotient<MultiVector> for Point
type Output = MultiVector
fn geometric_quotient(self, other: MultiVector) -> MultiVector
source§impl GeometricQuotient<Plane> for Point
impl GeometricQuotient<Plane> for Point
source§impl GeometricQuotient<Point> for IdealPoint
impl GeometricQuotient<Point> for IdealPoint
source§impl GeometricQuotient<Point> for Motor
impl GeometricQuotient<Point> for Motor
source§impl GeometricQuotient<Point> for MotorDual
impl GeometricQuotient<Point> for MotorDual
source§impl GeometricQuotient<Point> for MultiVector
impl GeometricQuotient<Point> for MultiVector
type Output = MultiVector
fn geometric_quotient(self, other: Point) -> MultiVector
source§impl GeometricQuotient<Point> for Plane
impl GeometricQuotient<Point> for Plane
source§impl GeometricQuotient<Point> for Point
impl GeometricQuotient<Point> for Point
source§impl GeometricQuotient<Point> for Rotor
impl GeometricQuotient<Point> for Rotor
source§impl GeometricQuotient<Point> for Translator
impl GeometricQuotient<Point> for Translator
source§impl GeometricQuotient<Point> for f32
impl GeometricQuotient<Point> for f32
source§impl GeometricQuotient<Rotor> for Point
impl GeometricQuotient<Rotor> for Point
source§impl GeometricQuotient<Translator> for Point
impl GeometricQuotient<Translator> for Point
type Output = Motor
fn geometric_quotient(self, other: Translator) -> Motor
source§impl GeometricQuotient<f32> for Point
impl GeometricQuotient<f32> for Point
source§impl InnerProduct<IdealPoint> for Point
impl InnerProduct<IdealPoint> for Point
type Output = f32
fn inner_product(self, other: IdealPoint) -> f32
source§impl InnerProduct<Motor> for Point
impl InnerProduct<Motor> for Point
source§impl InnerProduct<MotorDual> for Point
impl InnerProduct<MotorDual> for Point
source§impl InnerProduct<Plane> for Point
impl InnerProduct<Plane> for Point
source§impl InnerProduct<Point> for IdealPoint
impl InnerProduct<Point> for IdealPoint
source§impl InnerProduct<Point> for Motor
impl InnerProduct<Point> for Motor
source§impl InnerProduct<Point> for MotorDual
impl InnerProduct<Point> for MotorDual
source§impl InnerProduct<Point> for Plane
impl InnerProduct<Point> for Plane
source§impl InnerProduct<Point> for Point
impl InnerProduct<Point> for Point
source§impl InnerProduct<Point> for Rotor
impl InnerProduct<Point> for Rotor
source§impl InnerProduct<Point> for Translator
impl InnerProduct<Point> for Translator
source§impl InnerProduct<Point> for f32
impl InnerProduct<Point> for f32
source§impl InnerProduct<Rotor> for Point
impl InnerProduct<Rotor> for Point
source§impl InnerProduct<Translator> for Point
impl InnerProduct<Translator> for Point
type Output = Motor
fn inner_product(self, other: Translator) -> Motor
source§impl InnerProduct<f32> for Point
impl InnerProduct<f32> for Point
source§impl Into<IdealPoint> for Point
impl Into<IdealPoint> for Point
source§fn into(self) -> IdealPoint
fn into(self) -> IdealPoint
Converts this type into the (usually inferred) input type.
source§impl Into<Point> for MultiVector
impl Into<Point> for MultiVector
source§impl LeftContraction<IdealPoint> for Point
impl LeftContraction<IdealPoint> for Point
type Output = f32
fn left_contraction(self, other: IdealPoint) -> f32
source§impl LeftContraction<Motor> for Point
impl LeftContraction<Motor> for Point
source§impl LeftContraction<MotorDual> for Point
impl LeftContraction<MotorDual> for Point
source§impl LeftContraction<Point> for IdealPoint
impl LeftContraction<Point> for IdealPoint
source§impl LeftContraction<Point> for Motor
impl LeftContraction<Point> for Motor
source§impl LeftContraction<Point> for MotorDual
impl LeftContraction<Point> for MotorDual
source§impl LeftContraction<Point> for Plane
impl LeftContraction<Point> for Plane
source§impl LeftContraction<Point> for Point
impl LeftContraction<Point> for Point
source§impl LeftContraction<Point> for Rotor
impl LeftContraction<Point> for Rotor
source§impl LeftContraction<Point> for Translator
impl LeftContraction<Point> for Translator
source§impl LeftContraction<Point> for f32
impl LeftContraction<Point> for f32
source§impl LeftContraction<Rotor> for Point
impl LeftContraction<Rotor> for Point
source§impl LeftContraction<Translator> for Point
impl LeftContraction<Translator> for Point
type Output = f32
fn left_contraction(self, other: Translator) -> f32
source§impl MulAssign<Point> for Point
impl MulAssign<Point> for Point
source§fn mul_assign(&mut self, other: Point)
fn mul_assign(&mut self, other: Point)
Performs the
*=
operation. Read moresource§impl MulAssign<f32> for Point
impl MulAssign<f32> for Point
source§fn mul_assign(&mut self, other: f32)
fn mul_assign(&mut self, other: f32)
Performs the
*=
operation. Read moresource§impl OuterProduct<Motor> for Point
impl OuterProduct<Motor> for Point
source§impl OuterProduct<Point> for Motor
impl OuterProduct<Point> for Motor
source§impl OuterProduct<Point> for Rotor
impl OuterProduct<Point> for Rotor
source§impl OuterProduct<Point> for Translator
impl OuterProduct<Point> for Translator
source§impl OuterProduct<Point> for f32
impl OuterProduct<Point> for f32
source§impl OuterProduct<Rotor> for Point
impl OuterProduct<Rotor> for Point
source§impl OuterProduct<Translator> for Point
impl OuterProduct<Translator> for Point
type Output = Point
fn outer_product(self, other: Translator) -> Point
source§impl OuterProduct<f32> for Point
impl OuterProduct<f32> for Point
source§impl RegressiveProduct<IdealPoint> for Point
impl RegressiveProduct<IdealPoint> for Point
type Output = Plane
fn regressive_product(self, other: IdealPoint) -> Plane
source§impl RegressiveProduct<Motor> for Point
impl RegressiveProduct<Motor> for Point
source§impl RegressiveProduct<MotorDual> for Point
impl RegressiveProduct<MotorDual> for Point
source§impl RegressiveProduct<Plane> for Point
impl RegressiveProduct<Plane> for Point
source§impl RegressiveProduct<Point> for IdealPoint
impl RegressiveProduct<Point> for IdealPoint
source§impl RegressiveProduct<Point> for Motor
impl RegressiveProduct<Point> for Motor
source§impl RegressiveProduct<Point> for MotorDual
impl RegressiveProduct<Point> for MotorDual
source§impl RegressiveProduct<Point> for Plane
impl RegressiveProduct<Point> for Plane
source§impl RegressiveProduct<Point> for Point
impl RegressiveProduct<Point> for Point
source§impl RegressiveProduct<Point> for Translator
impl RegressiveProduct<Point> for Translator
source§impl RegressiveProduct<Translator> for Point
impl RegressiveProduct<Translator> for Point
type Output = Plane
fn regressive_product(self, other: Translator) -> Plane
source§impl RightContraction<IdealPoint> for Point
impl RightContraction<IdealPoint> for Point
type Output = f32
fn right_contraction(self, other: IdealPoint) -> f32
source§impl RightContraction<Motor> for Point
impl RightContraction<Motor> for Point
source§impl RightContraction<MotorDual> for Point
impl RightContraction<MotorDual> for Point
source§impl RightContraction<Plane> for Point
impl RightContraction<Plane> for Point
source§impl RightContraction<Point> for IdealPoint
impl RightContraction<Point> for IdealPoint
source§impl RightContraction<Point> for Motor
impl RightContraction<Point> for Motor
source§impl RightContraction<Point> for MotorDual
impl RightContraction<Point> for MotorDual
source§impl RightContraction<Point> for Point
impl RightContraction<Point> for Point
source§impl RightContraction<Point> for Rotor
impl RightContraction<Point> for Rotor
source§impl RightContraction<Point> for Translator
impl RightContraction<Point> for Translator
source§impl RightContraction<Rotor> for Point
impl RightContraction<Rotor> for Point
source§impl RightContraction<Translator> for Point
impl RightContraction<Translator> for Point
type Output = Motor
fn right_contraction(self, other: Translator) -> Motor
source§impl RightContraction<f32> for Point
impl RightContraction<f32> for Point
source§impl ScalarProduct<IdealPoint> for Point
impl ScalarProduct<IdealPoint> for Point
type Output = f32
fn scalar_product(self, other: IdealPoint) -> f32
source§impl ScalarProduct<Motor> for Point
impl ScalarProduct<Motor> for Point
source§impl ScalarProduct<MultiVector> for Point
impl ScalarProduct<MultiVector> for Point
type Output = f32
fn scalar_product(self, other: MultiVector) -> f32
source§impl ScalarProduct<Point> for IdealPoint
impl ScalarProduct<Point> for IdealPoint
source§impl ScalarProduct<Point> for Motor
impl ScalarProduct<Point> for Motor
source§impl ScalarProduct<Point> for MultiVector
impl ScalarProduct<Point> for MultiVector
source§impl ScalarProduct<Point> for Point
impl ScalarProduct<Point> for Point
source§impl ScalarProduct<Point> for Rotor
impl ScalarProduct<Point> for Rotor
source§impl ScalarProduct<Point> for Translator
impl ScalarProduct<Point> for Translator
source§impl ScalarProduct<Rotor> for Point
impl ScalarProduct<Rotor> for Point
source§impl ScalarProduct<Translator> for Point
impl ScalarProduct<Translator> for Point
type Output = f32
fn scalar_product(self, other: Translator) -> f32
source§impl Sub<IdealPoint> for Point
impl Sub<IdealPoint> for Point
source§impl Sub<MultiVector> for Point
impl Sub<MultiVector> for Point
§type Output = MultiVector
type Output = MultiVector
The resulting type after applying the
-
operator.source§fn sub(self, other: MultiVector) -> MultiVector
fn sub(self, other: MultiVector) -> MultiVector
Performs the
-
operation. Read moresource§impl Sub<Point> for IdealPoint
impl Sub<Point> for IdealPoint
source§impl Sub<Point> for MultiVector
impl Sub<Point> for MultiVector
§type Output = MultiVector
type Output = MultiVector
The resulting type after applying the
-
operator.source§impl Sub<Point> for Translator
impl Sub<Point> for Translator
source§impl Sub<Translator> for Point
impl Sub<Translator> for Point
source§impl SubAssign<IdealPoint> for Point
impl SubAssign<IdealPoint> for Point
source§fn sub_assign(&mut self, other: IdealPoint)
fn sub_assign(&mut self, other: IdealPoint)
Performs the
-=
operation. Read moresource§impl SubAssign<Point> for Motor
impl SubAssign<Point> for Motor
source§fn sub_assign(&mut self, other: Point)
fn sub_assign(&mut self, other: Point)
Performs the
-=
operation. Read moresource§impl SubAssign<Point> for MultiVector
impl SubAssign<Point> for MultiVector
source§fn sub_assign(&mut self, other: Point)
fn sub_assign(&mut self, other: Point)
Performs the
-=
operation. Read moresource§impl SubAssign<Point> for Point
impl SubAssign<Point> for Point
source§fn sub_assign(&mut self, other: Point)
fn sub_assign(&mut self, other: Point)
Performs the
-=
operation. Read moresource§impl Transformation<IdealPoint> for Point
impl Transformation<IdealPoint> for Point
type Output = IdealPoint
fn transformation(self, other: IdealPoint) -> IdealPoint
source§impl Transformation<Motor> for Point
impl Transformation<Motor> for Point
source§impl Transformation<MotorDual> for Point
impl Transformation<MotorDual> for Point
source§impl Transformation<MultiVector> for Point
impl Transformation<MultiVector> for Point
type Output = MultiVector
fn transformation(self, other: MultiVector) -> MultiVector
source§impl Transformation<Plane> for Point
impl Transformation<Plane> for Point
source§impl Transformation<Point> for IdealPoint
impl Transformation<Point> for IdealPoint
source§impl Transformation<Point> for Motor
impl Transformation<Point> for Motor
source§impl Transformation<Point> for MotorDual
impl Transformation<Point> for MotorDual
source§impl Transformation<Point> for MultiVector
impl Transformation<Point> for MultiVector
source§impl Transformation<Point> for Plane
impl Transformation<Point> for Plane
source§impl Transformation<Point> for Point
impl Transformation<Point> for Point
source§impl Transformation<Point> for Rotor
impl Transformation<Point> for Rotor
source§impl Transformation<Point> for Translator
impl Transformation<Point> for Translator
source§impl Transformation<Point> for f32
impl Transformation<Point> for f32
source§impl Transformation<Rotor> for Point
impl Transformation<Rotor> for Point
source§impl Transformation<Translator> for Point
impl Transformation<Translator> for Point
type Output = Translator
fn transformation(self, other: Translator) -> Translator
source§impl Transformation<f32> for Point
impl Transformation<f32> for Point
impl Copy for Point
Auto Trait Implementations§
impl RefUnwindSafe for Point
impl Send for Point
impl Sync for Point
impl Unpin for Point
impl UnwindSafe for Point
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more