Orthographic3

rssn::prelude::nalgebra::geometry

Struct Orthographic3 

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pub struct Orthographic3<T> { /* private fields */ }
Expand description

A 3D orthographic projection stored as a homogeneous 4x4 matrix.

Implementations§

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impl<T> Orthographic3<T>

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pub const fn from_matrix_unchecked( matrix: Matrix<T, Const<4>, Const<4>, ArrayStorage<T, 4, 4>>, ) -> Orthographic3<T>

Wraps the given matrix to interpret it as a 3D orthographic matrix.

It is not checked whether or not the given matrix actually represents an orthographic projection.

§Example
let mat = Matrix4::new(
    2.0 / 9.0, 0.0,        0.0,         -11.0 / 9.0,
    0.0,       2.0 / 18.0, 0.0,         -22.0 / 18.0,
    0.0,       0.0,       -2.0 / 999.9, -1000.1 / 999.9,
    0.0,       0.0,        0.0,         1.0
);
let proj = Orthographic3::from_matrix_unchecked(mat);
assert_eq!(proj, Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0));
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impl<T> Orthographic3<T>
where T: RealField,

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pub fn new( left: T, right: T, bottom: T, top: T, znear: T, zfar: T, ) -> Orthographic3<T>

Creates a new orthographic projection matrix.

This follows the OpenGL convention, so this will flip the z axis.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
// Check this projection actually transforms the view cuboid into the double-unit cube.
// See https://www.nalgebra.rs/docs/user_guide/projections#orthographic-projection for more details.
let p1 = Point3::new(1.0, 2.0, -0.1);
let p2 = Point3::new(1.0, 2.0, -1000.0);
let p3 = Point3::new(1.0, 20.0, -0.1);
let p4 = Point3::new(1.0, 20.0, -1000.0);
let p5 = Point3::new(10.0, 2.0, -0.1);
let p6 = Point3::new(10.0, 2.0, -1000.0);
let p7 = Point3::new(10.0, 20.0, -0.1);
let p8 = Point3::new(10.0, 20.0, -1000.0);

assert_relative_eq!(proj.project_point(&p1), Point3::new(-1.0, -1.0, -1.0));
assert_relative_eq!(proj.project_point(&p2), Point3::new(-1.0, -1.0,  1.0));
assert_relative_eq!(proj.project_point(&p3), Point3::new(-1.0,  1.0, -1.0));
assert_relative_eq!(proj.project_point(&p4), Point3::new(-1.0,  1.0,  1.0));
assert_relative_eq!(proj.project_point(&p5), Point3::new( 1.0, -1.0, -1.0));
assert_relative_eq!(proj.project_point(&p6), Point3::new( 1.0, -1.0,  1.0));
assert_relative_eq!(proj.project_point(&p7), Point3::new( 1.0,  1.0, -1.0));
assert_relative_eq!(proj.project_point(&p8), Point3::new( 1.0,  1.0,  1.0));

// This also works with flipped axis. In other words, we allow that
// `left > right`, `bottom > top`, and/or `znear > zfar`.
let proj = Orthographic3::new(10.0, 1.0, 20.0, 2.0, 1000.0, 0.1);

assert_relative_eq!(proj.project_point(&p1), Point3::new( 1.0,  1.0,  1.0));
assert_relative_eq!(proj.project_point(&p2), Point3::new( 1.0,  1.0, -1.0));
assert_relative_eq!(proj.project_point(&p3), Point3::new( 1.0, -1.0,  1.0));
assert_relative_eq!(proj.project_point(&p4), Point3::new( 1.0, -1.0, -1.0));
assert_relative_eq!(proj.project_point(&p5), Point3::new(-1.0,  1.0,  1.0));
assert_relative_eq!(proj.project_point(&p6), Point3::new(-1.0,  1.0, -1.0));
assert_relative_eq!(proj.project_point(&p7), Point3::new(-1.0, -1.0,  1.0));
assert_relative_eq!(proj.project_point(&p8), Point3::new(-1.0, -1.0, -1.0));
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pub fn from_fov(aspect: T, vfov: T, znear: T, zfar: T) -> Orthographic3<T>

Creates a new orthographic projection matrix from an aspect ratio and the vertical field of view.

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pub fn inverse(&self) -> Matrix<T, Const<4>, Const<4>, ArrayStorage<T, 4, 4>>

Retrieves the inverse of the underlying homogeneous matrix.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
let inv = proj.inverse();

assert_relative_eq!(inv * proj.as_matrix(), Matrix4::identity());
assert_relative_eq!(proj.as_matrix() * inv, Matrix4::identity());

let proj = Orthographic3::new(10.0, 1.0, 20.0, 2.0, 1000.0, 0.1);
let inv = proj.inverse();
assert_relative_eq!(inv * proj.as_matrix(), Matrix4::identity());
assert_relative_eq!(proj.as_matrix() * inv, Matrix4::identity());
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pub fn to_homogeneous( self, ) -> Matrix<T, Const<4>, Const<4>, ArrayStorage<T, 4, 4>>

Computes the corresponding homogeneous matrix.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
let expected = Matrix4::new(
    2.0 / 9.0, 0.0,        0.0,         -11.0 / 9.0,
    0.0,       2.0 / 18.0, 0.0,         -22.0 / 18.0,
    0.0,       0.0,       -2.0 / 999.9, -1000.1 / 999.9,
    0.0,       0.0,        0.0,         1.0
);
assert_eq!(proj.to_homogeneous(), expected);
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pub const fn as_matrix( &self, ) -> &Matrix<T, Const<4>, Const<4>, ArrayStorage<T, 4, 4>>

A reference to the underlying homogeneous transformation matrix.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
let expected = Matrix4::new(
    2.0 / 9.0, 0.0,        0.0,         -11.0 / 9.0,
    0.0,       2.0 / 18.0, 0.0,         -22.0 / 18.0,
    0.0,       0.0,       -2.0 / 999.9, -1000.1 / 999.9,
    0.0,       0.0,        0.0,         1.0
);
assert_eq!(*proj.as_matrix(), expected);
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pub const fn as_projective(&self) -> &Transform<T, TProjective, 3>

A reference to this transformation seen as a Projective3.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
assert_eq!(proj.as_projective().to_homogeneous(), proj.to_homogeneous());
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pub fn to_projective(self) -> Transform<T, TProjective, 3>

This transformation seen as a Projective3.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
assert_eq!(proj.to_projective().to_homogeneous(), proj.to_homogeneous());
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pub fn into_inner(self) -> Matrix<T, Const<4>, Const<4>, ArrayStorage<T, 4, 4>>

Retrieves the underlying homogeneous matrix.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
let expected = Matrix4::new(
    2.0 / 9.0, 0.0,        0.0,         -11.0 / 9.0,
    0.0,       2.0 / 18.0, 0.0,         -22.0 / 18.0,
    0.0,       0.0,       -2.0 / 999.9, -1000.1 / 999.9,
    0.0,       0.0,        0.0,         1.0
);
assert_eq!(proj.into_inner(), expected);
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pub fn unwrap(self) -> Matrix<T, Const<4>, Const<4>, ArrayStorage<T, 4, 4>>

👎Deprecated: use .into_inner() instead

Retrieves the underlying homogeneous matrix. Deprecated: Use Orthographic3::into_inner instead.

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pub fn left(&self) -> T

The left offset of the view cuboid.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
assert_relative_eq!(proj.left(), 1.0, epsilon = 1.0e-6);

let proj = Orthographic3::new(10.0, 1.0, 20.0, 2.0, 1000.0, 0.1);
assert_relative_eq!(proj.left(), 10.0, epsilon = 1.0e-6);
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pub fn right(&self) -> T

The right offset of the view cuboid.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
assert_relative_eq!(proj.right(), 10.0, epsilon = 1.0e-6);

let proj = Orthographic3::new(10.0, 1.0, 20.0, 2.0, 1000.0, 0.1);
assert_relative_eq!(proj.right(), 1.0, epsilon = 1.0e-6);
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pub fn bottom(&self) -> T

The bottom offset of the view cuboid.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
assert_relative_eq!(proj.bottom(), 2.0, epsilon = 1.0e-6);

let proj = Orthographic3::new(10.0, 1.0, 20.0, 2.0, 1000.0, 0.1);
assert_relative_eq!(proj.bottom(), 20.0, epsilon = 1.0e-6);
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pub fn top(&self) -> T

The top offset of the view cuboid.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
assert_relative_eq!(proj.top(), 20.0, epsilon = 1.0e-6);

let proj = Orthographic3::new(10.0, 1.0, 20.0, 2.0, 1000.0, 0.1);
assert_relative_eq!(proj.top(), 2.0, epsilon = 1.0e-6);
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pub fn znear(&self) -> T

The near plane offset of the view cuboid.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
assert_relative_eq!(proj.znear(), 0.1, epsilon = 1.0e-6);

let proj = Orthographic3::new(10.0, 1.0, 20.0, 2.0, 1000.0, 0.1);
assert_relative_eq!(proj.znear(), 1000.0, epsilon = 1.0e-6);
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pub fn zfar(&self) -> T

The far plane offset of the view cuboid.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
assert_relative_eq!(proj.zfar(), 1000.0, epsilon = 1.0e-6);

let proj = Orthographic3::new(10.0, 1.0, 20.0, 2.0, 1000.0, 0.1);
assert_relative_eq!(proj.zfar(), 0.1, epsilon = 1.0e-6);
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pub fn project_point(&self, p: &OPoint<T, Const<3>>) -> OPoint<T, Const<3>>

Projects a point. Faster than matrix multiplication.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);

let p1 = Point3::new(1.0, 2.0, -0.1);
let p2 = Point3::new(1.0, 2.0, -1000.0);
let p3 = Point3::new(1.0, 20.0, -0.1);
let p4 = Point3::new(1.0, 20.0, -1000.0);
let p5 = Point3::new(10.0, 2.0, -0.1);
let p6 = Point3::new(10.0, 2.0, -1000.0);
let p7 = Point3::new(10.0, 20.0, -0.1);
let p8 = Point3::new(10.0, 20.0, -1000.0);

assert_relative_eq!(proj.project_point(&p1), Point3::new(-1.0, -1.0, -1.0));
assert_relative_eq!(proj.project_point(&p2), Point3::new(-1.0, -1.0,  1.0));
assert_relative_eq!(proj.project_point(&p3), Point3::new(-1.0,  1.0, -1.0));
assert_relative_eq!(proj.project_point(&p4), Point3::new(-1.0,  1.0,  1.0));
assert_relative_eq!(proj.project_point(&p5), Point3::new( 1.0, -1.0, -1.0));
assert_relative_eq!(proj.project_point(&p6), Point3::new( 1.0, -1.0,  1.0));
assert_relative_eq!(proj.project_point(&p7), Point3::new( 1.0,  1.0, -1.0));
assert_relative_eq!(proj.project_point(&p8), Point3::new( 1.0,  1.0,  1.0));
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pub fn unproject_point(&self, p: &OPoint<T, Const<3>>) -> OPoint<T, Const<3>>

Un-projects a point. Faster than multiplication by the underlying matrix inverse.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);

let p1 = Point3::new(-1.0, -1.0, -1.0);
let p2 = Point3::new(-1.0, -1.0,  1.0);
let p3 = Point3::new(-1.0,  1.0, -1.0);
let p4 = Point3::new(-1.0,  1.0,  1.0);
let p5 = Point3::new( 1.0, -1.0, -1.0);
let p6 = Point3::new( 1.0, -1.0,  1.0);
let p7 = Point3::new( 1.0,  1.0, -1.0);
let p8 = Point3::new( 1.0,  1.0,  1.0);

assert_relative_eq!(proj.unproject_point(&p1), Point3::new(1.0, 2.0, -0.1), epsilon = 1.0e-6);
assert_relative_eq!(proj.unproject_point(&p2), Point3::new(1.0, 2.0, -1000.0), epsilon = 1.0e-6);
assert_relative_eq!(proj.unproject_point(&p3), Point3::new(1.0, 20.0, -0.1), epsilon = 1.0e-6);
assert_relative_eq!(proj.unproject_point(&p4), Point3::new(1.0, 20.0, -1000.0), epsilon = 1.0e-6);
assert_relative_eq!(proj.unproject_point(&p5), Point3::new(10.0, 2.0, -0.1), epsilon = 1.0e-6);
assert_relative_eq!(proj.unproject_point(&p6), Point3::new(10.0, 2.0, -1000.0), epsilon = 1.0e-6);
assert_relative_eq!(proj.unproject_point(&p7), Point3::new(10.0, 20.0, -0.1), epsilon = 1.0e-6);
assert_relative_eq!(proj.unproject_point(&p8), Point3::new(10.0, 20.0, -1000.0), epsilon = 1.0e-6);
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pub fn project_vector<SB>( &self, p: &Matrix<T, Const<3>, Const<1>, SB>, ) -> Matrix<T, Const<3>, Const<1>, ArrayStorage<T, 3, 1>>
where SB: Storage<T, Const<3>>,

Projects a vector. Faster than matrix multiplication.

Vectors are not affected by the translation part of the projection.

§Example
let proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);

let v1 = Vector3::x();
let v2 = Vector3::y();
let v3 = Vector3::z();

assert_relative_eq!(proj.project_vector(&v1), Vector3::x() * 2.0 / 9.0);
assert_relative_eq!(proj.project_vector(&v2), Vector3::y() * 2.0 / 18.0);
assert_relative_eq!(proj.project_vector(&v3), Vector3::z() * -2.0 / 999.9);
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pub fn set_left(&mut self, left: T)

Sets the left offset of the view cuboid.

§Example
let mut proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
proj.set_left(2.0);
assert_relative_eq!(proj.left(), 2.0, epsilon = 1.0e-6);

// It is OK to set a left offset greater than the current right offset.
proj.set_left(20.0);
assert_relative_eq!(proj.left(), 20.0, epsilon = 1.0e-6);
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pub fn set_right(&mut self, right: T)

Sets the right offset of the view cuboid.

§Example
let mut proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
proj.set_right(15.0);
assert_relative_eq!(proj.right(), 15.0, epsilon = 1.0e-6);

// It is OK to set a right offset smaller than the current left offset.
proj.set_right(-3.0);
assert_relative_eq!(proj.right(), -3.0, epsilon = 1.0e-6);
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pub fn set_bottom(&mut self, bottom: T)

Sets the bottom offset of the view cuboid.

§Example
let mut proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
proj.set_bottom(8.0);
assert_relative_eq!(proj.bottom(), 8.0, epsilon = 1.0e-6);

// It is OK to set a bottom offset greater than the current top offset.
proj.set_bottom(50.0);
assert_relative_eq!(proj.bottom(), 50.0, epsilon = 1.0e-6);
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pub fn set_top(&mut self, top: T)

Sets the top offset of the view cuboid.

§Example
let mut proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
proj.set_top(15.0);
assert_relative_eq!(proj.top(), 15.0, epsilon = 1.0e-6);

// It is OK to set a top offset smaller than the current bottom offset.
proj.set_top(-3.0);
assert_relative_eq!(proj.top(), -3.0, epsilon = 1.0e-6);
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pub fn set_znear(&mut self, znear: T)

Sets the near plane offset of the view cuboid.

§Example
let mut proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
proj.set_znear(8.0);
assert_relative_eq!(proj.znear(), 8.0, epsilon = 1.0e-6);

// It is OK to set a znear greater than the current zfar.
proj.set_znear(5000.0);
assert_relative_eq!(proj.znear(), 5000.0, epsilon = 1.0e-6);
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pub fn set_zfar(&mut self, zfar: T)

Sets the far plane offset of the view cuboid.

§Example
let mut proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
proj.set_zfar(15.0);
assert_relative_eq!(proj.zfar(), 15.0, epsilon = 1.0e-6);

// It is OK to set a zfar smaller than the current znear.
proj.set_zfar(-3.0);
assert_relative_eq!(proj.zfar(), -3.0, epsilon = 1.0e-6);
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pub fn set_left_and_right(&mut self, left: T, right: T)

Sets the view cuboid offsets along the x axis.

§Example
let mut proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
proj.set_left_and_right(7.0, 70.0);
assert_relative_eq!(proj.left(), 7.0, epsilon = 1.0e-6);
assert_relative_eq!(proj.right(), 70.0, epsilon = 1.0e-6);

// It is also OK to have `left > right`.
proj.set_left_and_right(70.0, 7.0);
assert_relative_eq!(proj.left(), 70.0, epsilon = 1.0e-6);
assert_relative_eq!(proj.right(), 7.0, epsilon = 1.0e-6);
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pub fn set_bottom_and_top(&mut self, bottom: T, top: T)

Sets the view cuboid offsets along the y axis.

§Example
let mut proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
proj.set_bottom_and_top(7.0, 70.0);
assert_relative_eq!(proj.bottom(), 7.0, epsilon = 1.0e-6);
assert_relative_eq!(proj.top(), 70.0, epsilon = 1.0e-6);

// It is also OK to have `bottom > top`.
proj.set_bottom_and_top(70.0, 7.0);
assert_relative_eq!(proj.bottom(), 70.0, epsilon = 1.0e-6);
assert_relative_eq!(proj.top(), 7.0, epsilon = 1.0e-6);
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pub fn set_znear_and_zfar(&mut self, znear: T, zfar: T)

Sets the near and far plane offsets of the view cuboid.

§Example
let mut proj = Orthographic3::new(1.0, 10.0, 2.0, 20.0, 0.1, 1000.0);
proj.set_znear_and_zfar(50.0, 5000.0);
assert_relative_eq!(proj.znear(), 50.0, epsilon = 1.0e-6);
assert_relative_eq!(proj.zfar(), 5000.0, epsilon = 1.0e-6);

// It is also OK to have `znear > zfar`.
proj.set_znear_and_zfar(5000.0, 0.5);
assert_relative_eq!(proj.znear(), 5000.0, epsilon = 1.0e-6);
assert_relative_eq!(proj.zfar(), 0.5, epsilon = 1.0e-6);

Trait Implementations§

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impl<T> Clone for Orthographic3<T>
where T: Clone,

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fn clone(&self) -> Orthographic3<T>

Returns a duplicate of the value. Read more
1.0.0 · Source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl<T> Debug for Orthographic3<T>
where T: RealField,

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fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter. Read more
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impl<'a, T> Deserialize<'a> for Orthographic3<T>
where T: RealField + Deserialize<'a>,

Available on crate feature serde-serialize-no-std only.
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fn deserialize<Des>( deserializer: Des, ) -> Result<Orthographic3<T>, <Des as Deserializer<'a>>::Error>
where Des: Deserializer<'a>,

Deserialize this value from the given Serde deserializer. Read more
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impl<T> From<Orthographic3<T>> for Matrix<T, Const<4>, Const<4>, ArrayStorage<T, 4, 4>>
where T: RealField,

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fn from( orth: Orthographic3<T>, ) -> Matrix<T, Const<4>, Const<4>, ArrayStorage<T, 4, 4>>

Converts to this type from the input type.
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impl<T> PartialEq for Orthographic3<T>
where T: RealField,

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fn eq(&self, right: &Orthographic3<T>) -> bool

Tests for self and other values to be equal, and is used by ==.
1.0.0 · Source§

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl<T> Serialize for Orthographic3<T>
where T: RealField + Serialize,

Available on crate feature serde-serialize-no-std only.
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fn serialize<S>( &self, serializer: S, ) -> Result<<S as Serializer>::Ok, <S as Serializer>::Error>
where S: Serializer,

Serialize this value into the given Serde serializer. Read more
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impl<T> Copy for Orthographic3<T>
where T: Copy,

Auto Trait Implementations§

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impl<T> Freeze for Orthographic3<T>
where T: Freeze,

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impl<T> RefUnwindSafe for Orthographic3<T>
where T: RefUnwindSafe,

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impl<T> Send for Orthographic3<T>
where T: Send,

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impl<T> Sync for Orthographic3<T>
where T: Sync,

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impl<T> Unpin for Orthographic3<T>
where T: Unpin,

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impl<T> UnwindSafe for Orthographic3<T>
where T: UnwindSafe,

Blanket Implementations§

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impl<T> AlignerFor<1> for T

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type Aligner = AlignTo1<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<1024> for T

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type Aligner = AlignTo1024<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<128> for T

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type Aligner = AlignTo128<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<16> for T

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type Aligner = AlignTo16<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<16384> for T

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type Aligner = AlignTo16384<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<2> for T

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type Aligner = AlignTo2<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<2048> for T

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type Aligner = AlignTo2048<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<256> for T

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type Aligner = AlignTo256<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<32> for T

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type Aligner = AlignTo32<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<32768> for T

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type Aligner = AlignTo32768<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<4> for T

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type Aligner = AlignTo4<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<4096> for T

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type Aligner = AlignTo4096<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<512> for T

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type Aligner = AlignTo512<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<64> for T

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type Aligner = AlignTo64<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<8> for T

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type Aligner = AlignTo8<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> AlignerFor<8192> for T

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type Aligner = AlignTo8192<T>

The AlignTo* type which aligns Self to ALIGNMENT.
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impl<T> Any for T
where T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for T
where T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for T
where T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<T> CloneToUninit for T
where T: Clone,

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unsafe fn clone_to_uninit(&self, dest: *mut u8)

🔬This is a nightly-only experimental API. (clone_to_uninit)
Performs copy-assignment from self to dest. Read more
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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T, W> HasTypeWitness<W> for T
where W: MakeTypeWitness<Arg = T>, T: ?Sized,

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const WITNESS: W = W::MAKE

A constant of the type witness
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impl<T> Identity for T
where T: ?Sized,

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const TYPE_EQ: TypeEq<T, <T as Identity>::Type> = TypeEq::NEW

Proof that Self is the same type as Self::Type, provides methods for casting between Self and Self::Type.
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type Type = T

The same type as Self, used to emulate type equality bounds (T == U) with associated type equality constraints (T: Identity<Type = U>).
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impl<T, U> Into<U> for T
where U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T> IntoEither for T

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fn into_either(self, into_left: bool) -> Either<Self, Self>

Converts self into a Left variant of Either<Self, Self> if into_left is true. Converts self into a Right variant of Either<Self, Self> otherwise. Read more
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fn into_either_with<F>(self, into_left: F) -> Either<Self, Self>
where F: FnOnce(&Self) -> bool,

Converts self into a Left variant of Either<Self, Self> if into_left(&self) returns true. Converts self into a Right variant of Either<Self, Self> otherwise. Read more
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impl<T> Pointable for T

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const ALIGN: usize

The alignment of pointer.
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type Init = T

The type for initializers.
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unsafe fn init(init: <T as Pointable>::Init) -> usize

Initializes a with the given initializer. Read more
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unsafe fn deref<'a>(ptr: usize) -> &'a T

Dereferences the given pointer. Read more
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unsafe fn deref_mut<'a>(ptr: usize) -> &'a mut T

Mutably dereferences the given pointer. Read more
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unsafe fn drop(ptr: usize)

Drops the object pointed to by the given pointer. Read more
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impl<'a, T> RCowCompatibleRef<'a> for T
where T: Clone + 'a,

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type RefC = &'a T

The (preferably) ffi-safe equivalent of &Self.
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type ROwned = T

The owned version of Self::RefC.
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fn as_c_ref(from: &'a T) -> <T as RCowCompatibleRef<'a>>::RefC

Converts a reference to an FFI-safe type
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fn as_rust_ref(from: <T as RCowCompatibleRef<'a>>::RefC) -> &'a T

Converts an FFI-safe type to a reference
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impl<S> ROExtAcc for S

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fn f_get<F>(&self, offset: FieldOffset<S, F, Aligned>) -> &F

Gets a reference to a field, determined by offset. Read more
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fn f_get_mut<F>(&mut self, offset: FieldOffset<S, F, Aligned>) -> &mut F

Gets a muatble reference to a field, determined by offset. Read more
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fn f_get_ptr<F, A>(&self, offset: FieldOffset<S, F, A>) -> *const F

Gets a const pointer to a field, the field is determined by offset. Read more
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fn f_get_mut_ptr<F, A>(&mut self, offset: FieldOffset<S, F, A>) -> *mut F

Gets a mutable pointer to a field, determined by offset. Read more
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impl<S> ROExtOps<Aligned> for S

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fn f_replace<F>(&mut self, offset: FieldOffset<S, F, Aligned>, value: F) -> F

Replaces a field (determined by offset) with value, returning the previous value of the field. Read more
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fn f_swap<F>(&mut self, offset: FieldOffset<S, F, Aligned>, right: &mut S)

Swaps a field (determined by offset) with the same field in right. Read more
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fn f_get_copy<F>(&self, offset: FieldOffset<S, F, Aligned>) -> F
where F: Copy,

Gets a copy of a field (determined by offset). The field is determined by offset. Read more
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impl<S> ROExtOps<Unaligned> for S

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fn f_replace<F>(&mut self, offset: FieldOffset<S, F, Unaligned>, value: F) -> F

Replaces a field (determined by offset) with value, returning the previous value of the field. Read more
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fn f_swap<F>(&mut self, offset: FieldOffset<S, F, Unaligned>, right: &mut S)

Swaps a field (determined by offset) with the same field in right. Read more
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fn f_get_copy<F>(&self, offset: FieldOffset<S, F, Unaligned>) -> F
where F: Copy,

Gets a copy of a field (determined by offset). The field is determined by offset. Read more
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impl<T> Same for T

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type Output = T

Should always be Self
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impl<T> SelfOps for T
where T: ?Sized,

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fn eq_id(&self, other: &Self) -> bool

Compares the address of self with the address of other. Read more
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fn piped<F, U>(self, f: F) -> U
where F: FnOnce(Self) -> U, Self: Sized,

Emulates the pipeline operator, allowing method syntax in more places. Read more
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fn piped_ref<'a, F, U>(&'a self, f: F) -> U
where F: FnOnce(&'a Self) -> U,

The same as piped except that the function takes &Self Useful for functions that take &Self instead of Self. Read more
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fn piped_mut<'a, F, U>(&'a mut self, f: F) -> U
where F: FnOnce(&'a mut Self) -> U,

The same as piped, except that the function takes &mut Self. Useful for functions that take &mut Self instead of Self.
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fn mutated<F>(self, f: F) -> Self
where F: FnOnce(&mut Self), Self: Sized,

Mutates self using a closure taking self by mutable reference, passing it along the method chain. Read more
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fn observe<F>(self, f: F) -> Self
where F: FnOnce(&Self), Self: Sized,

Observes the value of self, passing it along unmodified. Useful in long method chains. Read more
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fn into_<T>(self) -> T
where Self: Into<T>,

Performs a conversion with Into. using the turbofish .into_::<_>() syntax. Read more
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fn as_ref_<T>(&self) -> &T
where Self: AsRef<T>, T: ?Sized,

Performs a reference to reference conversion with AsRef, using the turbofish .as_ref_::<_>() syntax. Read more
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fn as_mut_<T>(&mut self) -> &mut T
where Self: AsMut<T>, T: ?Sized,

Performs a mutable reference to mutable reference conversion with AsMut, using the turbofish .as_mut_::<_>() syntax. Read more
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fn drop_(self)
where Self: Sized,

Drops self using method notation. Alternative to std::mem::drop. Read more
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impl<SS, SP> SupersetOf<SS> for SP
where SS: SubsetOf<SP>,

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fn to_subset(&self) -> Option<SS>

The inverse inclusion map: attempts to construct self from the equivalent element of its superset. Read more
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fn is_in_subset(&self) -> bool

Checks if self is actually part of its subset T (and can be converted to it).
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fn to_subset_unchecked(&self) -> SS

Use with care! Same as self.to_subset but without any property checks. Always succeeds.
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fn from_subset(element: &SS) -> SP

The inclusion map: converts self to the equivalent element of its superset.
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impl<SS, SP> SupersetOf<SS> for SP
where SS: SubsetOf<SP>,

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fn to_subset(&self) -> Option<SS>

The inverse inclusion map: attempts to construct self from the equivalent element of its superset. Read more
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fn is_in_subset(&self) -> bool

Checks if self is actually part of its subset T (and can be converted to it).
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unsafe fn to_subset_unchecked(&self) -> SS

Use with care! Same as self.to_subset but without any property checks. Always succeeds.
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fn from_subset(element: &SS) -> SP

The inclusion map: converts self to the equivalent element of its superset.
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impl<T> ToOwned for T
where T: Clone,

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type Owned = T

The resulting type after obtaining ownership.
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fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
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fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
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impl<This> TransmuteElement for This
where This: ?Sized,

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unsafe fn transmute_element<T>(self) -> Self::TransmutedPtr
where Self: CanTransmuteElement<T>,

Transmutes the element type of this pointer.. Read more
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impl<T, U> TryFrom<U> for T
where U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

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type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.
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impl<T> TypeIdentity for T
where T: ?Sized,

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type Type = T

This is always Self.
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fn into_type(self) -> Self::Type
where Self: Sized, Self::Type: Sized,

Converts a value back to the original type.
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fn as_type(&self) -> &Self::Type

Converts a reference back to the original type.
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fn as_type_mut(&mut self) -> &mut Self::Type

Converts a mutable reference back to the original type.
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fn into_type_box(self: Box<Self>) -> Box<Self::Type>

Converts a box back to the original type.
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fn into_type_arc(this: Arc<Self>) -> Arc<Self::Type>

Converts an Arc back to the original type. Read more
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fn into_type_rc(this: Rc<Self>) -> Rc<Self::Type>

Converts an Rc back to the original type. Read more
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fn from_type(this: Self::Type) -> Self
where Self: Sized, Self::Type: Sized,

Converts a value back to the original type.
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fn from_type_ref(this: &Self::Type) -> &Self

Converts a reference back to the original type.
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fn from_type_mut(this: &mut Self::Type) -> &mut Self

Converts a mutable reference back to the original type.
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fn from_type_box(this: Box<Self::Type>) -> Box<Self>

Converts a box back to the original type.
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fn from_type_arc(this: Arc<Self::Type>) -> Arc<Self>

Converts an Arc back to the original type.
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fn from_type_rc(this: Rc<Self::Type>) -> Rc<Self>

Converts an Rc back to the original type.
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impl<V, T> VZip<V> for T
where V: MultiLane<T>,

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fn vzip(self) -> V

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impl<T> DeserializeOwned for T
where T: for<'de> Deserialize<'de>,

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impl<T> Scalar for T
where T: 'static + Clone + PartialEq + Debug,

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impl<T> Scalar for T
where T: 'static + Clone + PartialEq + Debug,

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impl<T> SendAlias for T

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impl<T> SyncAlias for T

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impl<This> ValidTag_Bounds for This
where This: Debug + Clone + PartialEq,