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|
#[macro_use]
mod support;
macro_rules! impl_mat2_tests {
($t:ident, $newmat2:ident, $mat2:ident, $mat3:ident, $newvec2:ident, $vec2:ident) => {
const IDENTITY: [[$t; 2]; 2] = [[1.0, 0.0], [0.0, 1.0]];
const MATRIX: [[$t; 2]; 2] = [[1.0, 2.0], [3.0, 4.0]];
const MATRIX1D: [$t; 4] = [1.0, 2.0, 3.0, 4.0];
glam_test!(test_const, {
const M0: $mat2 = $mat2::from_cols($newvec2(1.0, 2.0), $newvec2(3.0, 4.0));
const M1: $mat2 = $mat2::from_cols_array(&MATRIX1D);
const M2: $mat2 = $mat2::from_cols_array_2d(&MATRIX);
assert_eq!(MATRIX1D, M0.to_cols_array());
assert_eq!(MATRIX1D, M1.to_cols_array());
assert_eq!(MATRIX1D, M2.to_cols_array());
});
glam_test!(test_mat2_identity, {
assert_eq!($mat2::IDENTITY, $mat2::from_cols_array(&[1., 0., 0., 1.]));
let identity = $mat2::IDENTITY;
assert_eq!(IDENTITY, identity.to_cols_array_2d());
assert_eq!($mat2::from_cols_array_2d(&IDENTITY), identity);
assert_eq!(identity, identity * identity);
assert_eq!(identity, $mat2::default());
assert_eq!(identity, $mat2::from_diagonal($vec2::ONE));
});
glam_test!(test_mat2_zero, {
assert_eq!($mat2::ZERO, $mat2::from_cols_array(&[0., 0., 0., 0.]));
});
glam_test!(test_mat2_nan, {
assert!($mat2::NAN.is_nan());
assert!(!$mat2::NAN.is_finite());
});
glam_test!(test_mat2_accessors, {
let mut m = $mat2::ZERO;
m.x_axis = $vec2::new(1.0, 2.0);
m.y_axis = $vec2::new(3.0, 4.0);
assert_eq!($mat2::from_cols_array_2d(&MATRIX), m);
assert_eq!($vec2::new(1.0, 2.0), m.x_axis);
assert_eq!($vec2::new(3.0, 4.0), m.y_axis);
assert_eq!($vec2::new(1.0, 2.0), m.col(0));
assert_eq!($vec2::new(3.0, 4.0), m.col(1));
assert_eq!($newvec2(1.0, 3.0), m.row(0));
assert_eq!($newvec2(2.0, 4.0), m.row(1));
*m.col_mut(0) = m.col(0).yx();
*m.col_mut(1) = m.col(1).yx();
assert_eq!($vec2::new(2.0, 1.0), m.col(0));
assert_eq!($vec2::new(4.0, 3.0), m.col(1));
should_panic!({ $mat2::ZERO.col(2) });
should_panic!({
let mut m = $mat2::ZERO;
m.col_mut(2);
});
should_panic!({ $mat2::ZERO.row(2) });
});
glam_test!(test_mat2_from_axes, {
let a = $mat2::from_cols_array_2d(&[[1.0, 2.0], [3.0, 4.0]]);
assert_eq!(MATRIX, a.to_cols_array_2d());
let b = $mat2::from_cols($newvec2(1.0, 2.0), $newvec2(3.0, 4.0));
assert_eq!(a, b);
let c = $newmat2($newvec2(1.0, 2.0), $newvec2(3.0, 4.0));
assert_eq!(a, c);
let d = b.to_cols_array();
let f = $mat2::from_cols_array(&d);
assert_eq!(b, f);
});
glam_test!(test_mat2_mul, {
let mat_a = $mat2::from_angle(deg(90.0));
let res_a = mat_a * $vec2::Y;
assert_approx_eq!($newvec2(-1.0, 0.0), res_a);
let res_b = mat_a * $vec2::X;
assert_approx_eq!($newvec2(0.0, 1.0), res_b);
});
glam_test!(test_from_scale_angle, {
let rot = $mat2::from_scale_angle($vec2::new(4.0, 2.0), deg(180.0));
assert_approx_eq!($vec2::X * -4.0, rot * $vec2::X, 1.0e-6);
assert_approx_eq!($vec2::Y * -2.0, rot * $vec2::Y, 1.0e-6);
});
glam_test!(test_from_diagonal, {
let m = $mat2::from_diagonal($vec2::new(2 as $t, 4 as $t));
assert_eq!(
$mat2::from_cols_array_2d(&[[2 as $t, 0 as $t], [0 as $t, 4 as $t]]),
m
);
assert_approx_eq!(m * $vec2::new(1.0, 1.0), $vec2::new(2.0, 4.0));
assert_approx_eq!($vec2::X * 2.0, m.x_axis);
assert_approx_eq!($vec2::Y * 4.0, m.y_axis);
});
glam_test!(test_from_mat3, {
let m3 =
$mat3::from_cols_array_2d(&[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]]);
let m2 = $mat2::from_mat3(m3);
assert_eq!($mat2::from_cols_array_2d(&[[1.0, 2.0], [4.0, 5.0]]), m2);
});
glam_test!(test_mat2_transpose, {
let m = $newmat2($newvec2(1.0, 2.0), $newvec2(3.0, 4.0));
let mt = m.transpose();
assert_eq!($newvec2(1.0, 3.0), mt.x_axis);
assert_eq!($newvec2(2.0, 4.0), mt.y_axis);
});
glam_test!(test_mat2_det, {
assert_eq!(0.0, $mat2::ZERO.determinant());
assert_eq!(1.0, $mat2::IDENTITY.determinant());
assert_eq!(1.0, $mat2::from_angle(deg(90.0)).determinant());
assert_eq!(1.0, $mat2::from_angle(deg(180.0)).determinant());
assert_eq!(1.0, $mat2::from_angle(deg(270.0)).determinant());
assert_eq!(
2.0 * 2.0,
$mat2::from_diagonal($newvec2(2.0, 2.0)).determinant()
);
assert_eq!(
1.0 * 4.0 - 2.0 * 3.0,
$mat2::from_cols_array(&[1.0, 2.0, 3.0, 4.0]).determinant()
);
});
glam_test!(test_mat2_inverse, {
let inv = $mat2::IDENTITY.inverse();
assert_approx_eq!($mat2::IDENTITY, inv);
let rot = $mat2::from_angle(deg(90.0));
let rot_inv = rot.inverse();
assert_approx_eq!($mat2::IDENTITY, rot * rot_inv);
assert_approx_eq!($mat2::IDENTITY, rot_inv * rot);
let scale = $mat2::from_diagonal($newvec2(4.0, 5.0));
let scale_inv = scale.inverse();
assert_approx_eq!($mat2::IDENTITY, scale * scale_inv);
assert_approx_eq!($mat2::IDENTITY, scale_inv * scale);
let m = scale * rot;
let m_inv = m.inverse();
assert_approx_eq!($mat2::IDENTITY, m * m_inv);
assert_approx_eq!($mat2::IDENTITY, m_inv * m);
assert_approx_eq!(m_inv, rot_inv * scale_inv);
should_glam_assert!({ $mat2::ZERO.inverse() });
});
glam_test!(test_mat2_ops, {
let m0 = $mat2::from_cols_array_2d(&MATRIX);
let m0x2 = $mat2::from_cols_array_2d(&[[2.0, 4.0], [6.0, 8.0]]);
let m0_neg = $mat2::from_cols_array_2d(&[[-1.0, -2.0], [-3.0, -4.0]]);
assert_eq!(m0x2, m0 * 2.0);
assert_eq!(m0x2, 2.0 * m0);
assert_eq!(m0x2, m0 + m0);
assert_eq!($mat2::ZERO, m0 - m0);
assert_eq!(m0_neg, -m0);
assert_approx_eq!(m0, m0 * $mat2::IDENTITY);
assert_approx_eq!(m0, $mat2::IDENTITY * m0);
let mut m1 = m0;
m1 *= 2.0;
assert_eq!(m0x2, m1);
let mut m1 = m0;
m1 += m0;
assert_eq!(m0x2, m1);
let mut m1 = m0;
m1 -= m0;
assert_eq!($mat2::ZERO, m1);
let mut m1 = $mat2::IDENTITY;
m1 *= m0;
assert_approx_eq!(m0, m1);
});
glam_test!(test_mat2_fmt, {
let a = $mat2::from_cols_array_2d(&MATRIX);
assert_eq!(format!("{}", a), "[[1, 2], [3, 4]]");
});
glam_test!(test_mat2_to_from_slice, {
let m = $mat2::from_cols_slice(&MATRIX1D);
assert_eq!($mat2::from_cols_array(&MATRIX1D), m);
let mut out: [$t; 4] = Default::default();
m.write_cols_to_slice(&mut out);
assert_eq!(MATRIX1D, out);
should_panic!({ $mat2::from_cols_slice(&[0.0; 3]) });
should_panic!({ $mat2::IDENTITY.write_cols_to_slice(&mut [0.0; 3]) });
});
glam_test!(test_sum, {
let id = $mat2::IDENTITY;
assert_eq!([id, id].iter().sum::<$mat2>(), id + id);
assert_eq!([id, id].into_iter().sum::<$mat2>(), id + id);
});
glam_test!(test_product, {
let two = $mat2::IDENTITY + $mat2::IDENTITY;
assert_eq!([two, two].iter().product::<$mat2>(), two * two);
assert_eq!([two, two].into_iter().product::<$mat2>(), two * two);
});
glam_test!(test_mat2_is_finite, {
use std::$t::INFINITY;
use std::$t::NAN;
use std::$t::NEG_INFINITY;
assert!($mat2::IDENTITY.is_finite());
assert!(!($mat2::IDENTITY * INFINITY).is_finite());
assert!(!($mat2::IDENTITY * NEG_INFINITY).is_finite());
assert!(!($mat2::IDENTITY * NAN).is_finite());
});
};
}
macro_rules! impl_as_ref_tests {
($mat:ident) => {
glam_test!(test_as_ref, {
let m = $mat::from_cols_array_2d(&MATRIX);
assert_eq!(MATRIX1D, *m.as_ref());
});
glam_test!(test_as_mut, {
let mut m = $mat::ZERO;
*m.as_mut() = MATRIX1D;
assert_eq!($mat::from_cols_array_2d(&MATRIX), m);
});
};
}
mod mat2 {
use super::support::deg;
use glam::{mat2, swizzles::*, vec2, Mat2, Mat3, Vec2};
glam_test!(test_align, {
use std::mem;
assert_eq!(16, mem::size_of::<Mat2>());
if cfg!(feature = "scalar-math") {
assert_eq!(mem::align_of::<Vec2>(), mem::align_of::<Mat2>());
} else {
assert_eq!(16, mem::align_of::<Mat2>());
}
});
glam_test!(test_from_mat3a, {
use glam::Mat3A;
let m3 = Mat3A::from_cols_array_2d(&[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]]);
let m2 = Mat2::from_mat3a(m3);
assert_eq!(Mat2::from_cols_array_2d(&[[1.0, 2.0], [4.0, 5.0]]), m2);
});
glam_test!(test_as, {
use glam::DMat2;
assert_eq!(
DMat2::from_cols_array(&[1.0, 2.0, 3.0, 4.0]),
Mat2::from_cols_array(&[1.0, 2.0, 3.0, 4.0]).as_dmat2()
);
assert_eq!(
Mat2::from_cols_array(&[1.0, 2.0, 3.0, 4.0]),
DMat2::from_cols_array(&[1.0, 2.0, 3.0, 4.0]).as_mat2()
);
});
impl_mat2_tests!(f32, mat2, Mat2, Mat3, vec2, Vec2);
impl_as_ref_tests!(Mat2);
}
mod dmat2 {
use super::support::deg;
use glam::{dmat2, dvec2, swizzles::*, DMat2, DMat3, DVec2};
glam_test!(test_align, {
use std::mem;
assert_eq!(32, mem::size_of::<DMat2>());
assert_eq!(mem::align_of::<DVec2>(), mem::align_of::<DMat2>());
});
impl_mat2_tests!(f64, dmat2, DMat2, DMat3, dvec2, DVec2);
impl_as_ref_tests!(DMat2);
}
|
