nalgebra/nalgebra-glm/src/gtx/rotate_vector.rs

use na::{Real, U2, U3, U4, Rotation3, Vector3, Unit, UnitComplex};

use aliases::{Vec, Mat};

/// Build the rotation matrix needed to align `normal` and `up`.
pub fn orientation<N: Real>(normal: &Vec<N, U3>, up: &Vec<N, U3>) -> Mat<N, U4, U4> {
    if let Some(r) = Rotation3::rotation_between(normal, up) {
        r.to_homogeneous()
    } else {
        Mat::<N, U4, U4>::identity()
    }
}

/// Rotate a two dimensional vector.
pub fn rotate_vec2<N: Real>(v: &Vec<N, U2>, angle: N) -> Vec<N, U2> {
    UnitComplex::new(angle) * v
}

/// Rotate a three dimensional vector around an axis.
pub fn rotate_vec3<N: Real>(v: &Vec<N, U3>, angle: N, normal: &Vec<N, U3>) -> Vec<N, U3> {
    Rotation3::from_axis_angle(&Unit::new_normalize(*normal), angle) * v
}

/// Rotate a thee dimensional vector in homogeneous coordinates around an axis.
pub fn rotate_vec4<N: Real>(v: &Vec<N, U4>, angle: N, normal: &Vec<N, U3>) -> Vec<N, U4> {
    Rotation3::from_axis_angle(&Unit::new_normalize(*normal), angle).to_homogeneous() * v
}

/// Rotate a three dimensional vector around the `X` axis.
pub fn rotate_x_vec3<N: Real>(v: &Vec<N, U3>, angle: N) -> Vec<N, U3> {
    Rotation3::from_axis_angle(&Vector3::x_axis(), angle) * v
}

/// Rotate a three dimensional vector in homogeneous coordinates around the `X` axis.
pub fn rotate_x<N: Real>(v: &Vec<N, U4>, angle: N) -> Vec<N, U4> {
    Rotation3::from_axis_angle(&Vector3::x_axis(), angle).to_homogeneous() * v
}

/// Rotate a three dimensional vector around the `Y` axis.
pub fn rotate_y_vec3<N: Real>(v: &Vec<N, U3>, angle: N) -> Vec<N, U3> {
    Rotation3::from_axis_angle(&Vector3::y_axis(), angle) * v
}

/// Rotate a three dimensional vector in homogeneous coordinates around the `Y` axis.
pub fn rotate_y<N: Real>(v: &Vec<N, U4>, angle: N) -> Vec<N, U4> {
    Rotation3::from_axis_angle(&Vector3::y_axis(), angle).to_homogeneous() * v
}

/// Rotate a three dimensional vector around the `Z` axis.
pub fn rotate_z_vec3<N: Real>(v: &Vec<N, U3>, angle: N) -> Vec<N, U3> {
    Rotation3::from_axis_angle(&Vector3::z_axis(), angle) * v
}

/// Rotate a three dimensional vector in homogeneous coordinates around the `Z` axis.
pub fn rotate_z<N: Real>(v: &Vec<N, U4>, angle: N) -> Vec<N, U4> {
    Rotation3::from_axis_angle(&Vector3::z_axis(), angle).to_homogeneous() * v
}

/// Computes a spehical linear interpolation between the vectors `x` and `y` assumed to be normalized.
pub fn slerp<N: Real>(x: &Vec<N, U3>, y: &Vec<N, U3>, a: N) -> Vec<N, U3> {
    Unit::new_unchecked(*x).slerp(&Unit::new_unchecked(*y), a).unwrap()
}
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`use na::{Real, U2, U3, U4, Rotation3, Vector3, Unit, UnitComplex};`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`use aliases::{Vec, Mat};`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			/// Build the rotation matrix needed to align `normal` and `up`.
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`pub fn orientation<N: Real>(normal: &Vec<N, U3>, up: &Vec<N, U3>) -> Mat<N, U4, U4> {`
			`if let Some(r) = Rotation3::rotation_between(normal, up) {`
			`r.to_homogeneous()`
			`} else {`
			`Mat::<N, U4, U4>::identity()`
			`}`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			`/// Rotate a two dimensional vector.`
Resolve some name conflicts. 2018-09-22 23:36:08 +08:00			`pub fn rotate_vec2<N: Real>(v: &Vec<N, U2>, angle: N) -> Vec<N, U2> {`
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`UnitComplex::new(angle) * v`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			`/// Rotate a three dimensional vector around an axis.`
Resolve some name conflicts. 2018-09-22 23:36:08 +08:00			`pub fn rotate_vec3<N: Real>(v: &Vec<N, U3>, angle: N, normal: &Vec<N, U3>) -> Vec<N, U3> {`
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`Rotation3::from_axis_angle(&Unit::new_normalize(normal), angle) v`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			`/// Rotate a thee dimensional vector in homogeneous coordinates around an axis.`
Resolve some name conflicts. 2018-09-22 23:36:08 +08:00			`pub fn rotate_vec4<N: Real>(v: &Vec<N, U4>, angle: N, normal: &Vec<N, U3>) -> Vec<N, U4> {`
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`Rotation3::from_axis_angle(&Unit::new_normalize(normal), angle).to_homogeneous() v`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			/// Rotate a three dimensional vector around the `X` axis.
Resolve some name conflicts. 2018-09-22 23:36:08 +08:00			`pub fn rotate_x_vec3<N: Real>(v: &Vec<N, U3>, angle: N) -> Vec<N, U3> {`
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`Rotation3::from_axis_angle(&Vector3::x_axis(), angle) * v`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			/// Rotate a three dimensional vector in homogeneous coordinates around the `X` axis.
Resolve some name conflicts. 2018-09-22 23:36:08 +08:00			`pub fn rotate_x<N: Real>(v: &Vec<N, U4>, angle: N) -> Vec<N, U4> {`
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`Rotation3::from_axis_angle(&Vector3::x_axis(), angle).to_homogeneous() * v`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			/// Rotate a three dimensional vector around the `Y` axis.
Resolve some name conflicts. 2018-09-22 23:36:08 +08:00			`pub fn rotate_y_vec3<N: Real>(v: &Vec<N, U3>, angle: N) -> Vec<N, U3> {`
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`Rotation3::from_axis_angle(&Vector3::y_axis(), angle) * v`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			/// Rotate a three dimensional vector in homogeneous coordinates around the `Y` axis.
Resolve some name conflicts. 2018-09-22 23:36:08 +08:00			`pub fn rotate_y<N: Real>(v: &Vec<N, U4>, angle: N) -> Vec<N, U4> {`
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`Rotation3::from_axis_angle(&Vector3::y_axis(), angle).to_homogeneous() * v`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			/// Rotate a three dimensional vector around the `Z` axis.
Resolve some name conflicts. 2018-09-22 23:36:08 +08:00			`pub fn rotate_z_vec3<N: Real>(v: &Vec<N, U3>, angle: N) -> Vec<N, U3> {`
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`Rotation3::from_axis_angle(&Vector3::z_axis(), angle) * v`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			/// Rotate a three dimensional vector in homogeneous coordinates around the `Z` axis.
Resolve some name conflicts. 2018-09-22 23:36:08 +08:00			`pub fn rotate_z<N: Real>(v: &Vec<N, U4>, angle: N) -> Vec<N, U4> {`
Implement more gtx functions. 2018-09-21 04:12:26 +08:00			`Rotation3::from_axis_angle(&Vector3::z_axis(), angle).to_homogeneous() * v`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`

Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			/// Computes a spehical linear interpolation between the vectors `x` and `y` assumed to be normalized.
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`pub fn slerp<N: Real>(x: &Vec<N, U3>, y: &Vec<N, U3>, a: N) -> Vec<N, U3> {`
Move files around and complete the doc. 2018-09-22 19:18:59 +08:00			`Unit::new_unchecked(x).slerp(&Unit::new_unchecked(y), a).unwrap()`
Start adding some gtx functions. 2018-09-21 01:54:12 +08:00			`}`