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nalgebra/tests/isometry.rs

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#![allow(non_snake_case)]
#[cfg(feature = "arbitrary")]
#[macro_use]
extern crate quickcheck;
#[macro_use]
extern crate approx;
extern crate num_traits as num;
extern crate alga;
extern crate nalgebra as na;
use alga::linear::{Transformation, ProjectiveTransformation};
use na::{Vector3, Point3, Rotation3, Isometry3, Translation3, UnitQuaternion};
quickcheck!(
fn append_rotation_wrt_point_to_id(r: UnitQuaternion<f64>, p: Point3<f64>) -> bool {
let mut iso = Isometry3::identity();
iso.append_rotation_wrt_point_mut(&r, &p);
iso == Isometry3::rotation_wrt_point(r, p)
}
fn rotation_wrt_point_invariance(r: UnitQuaternion<f64>, p: Point3<f64>) -> bool {
let iso = Isometry3::rotation_wrt_point(r, p);
relative_eq!(iso * p, p)
}
fn look_at_rh_3(eye: Point3<f64>, target: Point3<f64>, up: Vector3<f64>) -> bool {
let viewmatrix = Isometry3::look_at_rh(&eye, &target, &up);
let origin = Point3::origin();
relative_eq!(viewmatrix * eye, origin, epsilon = 1.0e-7) &&
relative_eq!((viewmatrix * (target - eye)).normalize(), -Vector3::z(), epsilon = 1.0e-7)
}
fn observer_frame_3(eye: Point3<f64>, target: Point3<f64>, up: Vector3<f64>) -> bool {
let observer = Isometry3::new_observer_frame(&eye, &target, &up);
let origin = Point3::origin();
relative_eq!(observer * origin, eye, epsilon = 1.0e-7) &&
relative_eq!(observer * Vector3::z(), (target - eye).normalize(), epsilon = 1.0e-7)
}
fn inverse_is_identity(i: Isometry3<f64>, p: Point3<f64>, v: Vector3<f64>) -> bool {
let ii = i.inverse();
relative_eq!(i * ii, Isometry3::identity(), epsilon = 1.0e-7) &&
relative_eq!(ii * i, Isometry3::identity(), epsilon = 1.0e-7) &&
relative_eq!((i * ii) * p, p, epsilon = 1.0e-7) &&
relative_eq!((ii * i) * p, p, epsilon = 1.0e-7) &&
relative_eq!((i * ii) * v, v, epsilon = 1.0e-7) &&
relative_eq!((ii * i) * v, v, epsilon = 1.0e-7)
}
fn inverse_is_parts_inversion(t: Translation3<f64>, r: UnitQuaternion<f64>) -> bool {
let i = t * r;
i.inverse() == r.inverse() * t.inverse()
}
fn multiply_equals_alga_transform(i: Isometry3<f64>, v: Vector3<f64>, p: Point3<f64>) -> bool {
i * v == i.transform_vector(&v) &&
i * p == i.transform_point(&p) &&
relative_eq!(i.inverse() * v, i.inverse_transform_vector(&v), epsilon = 1.0e-7) &&
relative_eq!(i.inverse() * p, i.inverse_transform_point(&p), epsilon = 1.0e-7)
}
fn composition(i: Isometry3<f64>, uq: UnitQuaternion<f64>, r: Rotation3<f64>,
t: Translation3<f64>, v: Vector3<f64>, p: Point3<f64>) -> bool {
// (rotation × translation) * point = rotation × (translation * point)
relative_eq!((uq * t) * v, uq * v, epsilon = 1.0e-7) &&
relative_eq!((r * t) * v, r * v, epsilon = 1.0e-7) &&
relative_eq!((uq * t) * p, uq * (t * p), epsilon = 1.0e-7) &&
relative_eq!((r * t) * p, r * (t * p), epsilon = 1.0e-7) &&
// (translation × rotation) * point = translation × (rotation * point)
(t * uq) * v == uq * v &&
(t * r) * v == r * v &&
(t * uq) * p == t * (uq * p) &&
(t * r) * p == t * (r * p) &&
// (rotation × isometry) * point = rotation × (isometry * point)
relative_eq!((uq * i) * v, uq * (i * v), epsilon = 1.0e-7) &&
relative_eq!((uq * i) * p, uq * (i * p), epsilon = 1.0e-7) &&
// (isometry × rotation) * point = isometry × (rotation * point)
relative_eq!((i * uq) * v, i * (uq * v), epsilon = 1.0e-7) &&
relative_eq!((i * uq) * p, i * (uq * p), epsilon = 1.0e-7) &&
// (translation × isometry) * point = translation × (isometry * point)
relative_eq!((t * i) * v, (i * v), epsilon = 1.0e-7) &&
relative_eq!((t * i) * p, t * (i * p), epsilon = 1.0e-7) &&
// (isometry × translation) * point = isometry × (translation * point)
relative_eq!((i * t) * v, i * v, epsilon = 1.0e-7) &&
relative_eq!((i * t) * p, i * (t * p), epsilon = 1.0e-7)
}
fn all_op_exist(i: Isometry3<f64>, uq: UnitQuaternion<f64>, t: Translation3<f64>,
v: Vector3<f64>, p: Point3<f64>, r: Rotation3<f64>) -> bool {
let iMi = i * i;
let iMuq = i * uq;
let iDi = i / i;
let iDuq = i / uq;
let iMp = i * p;
let iMv = i * v;
let iMt = i * t;
let tMi = t * i;
let tMr = t * r;
let tMuq = t * uq;
let uqMi = uq * i;
let uqDi = uq / i;
let rMt = r * t;
let uqMt = uq * t;
let mut iMt1 = i;
let mut iMt2 = i;
let mut iMi1 = i;
let mut iMi2 = i;
let mut iMuq1 = i;
let mut iMuq2 = i;
let mut iDi1 = i;
let mut iDi2 = i;
let mut iDuq1 = i;
let mut iDuq2 = i;
iMt1 *= t;
iMt2 *= &t;
iMi1 *= i;
iMi2 *= &i;
iMuq1 *= uq;
iMuq2 *= &uq;
iDi1 /= i;
iDi2 /= &i;
iDuq1 /= uq;
iDuq2 /= &uq;
iMt == iMt1 &&
iMt == iMt2 &&
iMi == iMi1 &&
iMi == iMi2 &&
iMuq == iMuq1 &&
iMuq == iMuq2 &&
iDi == iDi1 &&
iDi == iDi2 &&
iDuq == iDuq1 &&
iDuq == iDuq2 &&
iMi == &i * &i &&
iMi == i * &i &&
iMi == &i * i &&
iMuq == &i * &uq &&
iMuq == i * &uq &&
iMuq == &i * uq &&
iDi == &i / &i &&
iDi == i / &i &&
iDi == &i / i &&
iDuq == &i / &uq &&
iDuq == i / &uq &&
iDuq == &i / uq &&
iMp == &i * &p &&
iMp == i * &p &&
iMp == &i * p &&
iMv == &i * &v &&
iMv == i * &v &&
iMv == &i * v &&
iMt == &i * &t &&
iMt == i * &t &&
iMt == &i * t &&
tMi == &t * &i &&
tMi == t * &i &&
tMi == &t * i &&
tMr == &t * &r &&
tMr == t * &r &&
tMr == &t * r &&
tMuq == &t * &uq &&
tMuq == t * &uq &&
tMuq == &t * uq &&
uqMi == &uq * &i &&
uqMi == uq * &i &&
uqMi == &uq * i &&
uqDi == &uq / &i &&
uqDi == uq / &i &&
uqDi == &uq / i &&
rMt == &r * &t &&
rMt == r * &t &&
rMt == &r * t &&
uqMt == &uq * &t &&
uqMt == uq * &t &&
uqMt == &uq * t
}
);
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