Fix deprecated suffixes in tests
This commit is contained in:
parent
532d16136b
commit
afd0316995
14
tests/mat.rs
14
tests/mat.rs
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@ -7,7 +7,7 @@ use na::{Vec1, Vec3, Mat1, Mat2, Mat3, Mat4, Mat5, Mat6, Rot3, Persp3, PerspMat3
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macro_rules! test_inv_mat_impl(
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macro_rules! test_inv_mat_impl(
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($t: ty) => (
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($t: ty) => (
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let randmat : $t = random();
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let randmat : $t = random();
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match na::inv(&randmat) {
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match na::inv(&randmat) {
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@ -20,7 +20,7 @@ macro_rules! test_inv_mat_impl(
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macro_rules! test_transpose_mat_impl(
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macro_rules! test_transpose_mat_impl(
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($t: ty) => (
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($t: ty) => (
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let randmat : $t = random();
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let randmat : $t = random();
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assert!(na::transpose(&na::transpose(&randmat)) == randmat);
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assert!(na::transpose(&na::transpose(&randmat)) == randmat);
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@ -30,7 +30,7 @@ macro_rules! test_transpose_mat_impl(
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macro_rules! test_qr_impl(
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macro_rules! test_qr_impl(
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($t: ty) => (
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($t: ty) => (
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let randmat : $t = random();
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let randmat : $t = random();
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let (q, r) = na::qr(&randmat);
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let (q, r) = na::qr(&randmat);
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@ -44,7 +44,7 @@ macro_rules! test_qr_impl(
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// NOTE: deactivated untile we get a better convergence rate.
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// NOTE: deactivated untile we get a better convergence rate.
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// macro_rules! test_eigen_qr_impl(
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// macro_rules! test_eigen_qr_impl(
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// ($t: ty) => {
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// ($t: ty) => {
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// for _ in (0us .. 10000) {
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// for _ in (0usize .. 10000) {
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// let randmat : $t = random();
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// let randmat : $t = random();
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// // Make it symetric so that we can recompose the matrix to test at the end.
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// // Make it symetric so that we can recompose the matrix to test at the end.
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// let randmat = na::transpose(&randmat) * randmat;
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// let randmat = na::transpose(&randmat) * randmat;
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@ -126,7 +126,7 @@ fn test_inv_mat6() {
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#[test]
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#[test]
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fn test_rotation2() {
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fn test_rotation2() {
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let randmat: na::Rot2<f64> = na::one();
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let randmat: na::Rot2<f64> = na::one();
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let ang = Vec1::new(na::abs(&random::<f64>()) % <f64 as BaseFloat>::pi());
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let ang = Vec1::new(na::abs(&random::<f64>()) % <f64 as BaseFloat>::pi());
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@ -143,7 +143,7 @@ fn test_index_mat2() {
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#[test]
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#[test]
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fn test_inv_rotation3() {
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fn test_inv_rotation3() {
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let randmat: Rot3<f64> = na::one();
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let randmat: Rot3<f64> = na::one();
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let dir: Vec3<f64> = random();
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let dir: Vec3<f64> = random();
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let ang = na::normalize(&dir) * (na::abs(&random::<f64>()) % <f64 as BaseFloat>::pi());
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let ang = na::normalize(&dir) * (na::abs(&random::<f64>()) % <f64 as BaseFloat>::pi());
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@ -251,7 +251,7 @@ fn test_dmat_from_vec() {
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/* FIXME: review qr decomposition to make it work with DMat.
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/* FIXME: review qr decomposition to make it work with DMat.
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#[test]
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#[test]
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fn test_qr() {
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fn test_qr() {
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for _ in (0us .. 10) {
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for _ in (0usize .. 10) {
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let dim1: usize = random();
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let dim1: usize = random();
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let dim2: usize = random();
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let dim2: usize = random();
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let rows = min(40, max(dim1, dim2));
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let rows = min(40, max(dim1, dim2));
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@ -6,7 +6,7 @@ use rand::random;
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#[test]
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#[test]
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fn test_quat_as_mat() {
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fn test_quat_as_mat() {
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let axis_angle: Vec3<f64> = random();
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let axis_angle: Vec3<f64> = random();
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assert!(na::approx_eq(&UnitQuat::new(axis_angle).to_rot(), &Rot3::new(axis_angle)))
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assert!(na::approx_eq(&UnitQuat::new(axis_angle).to_rot(), &Rot3::new(axis_angle)))
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@ -15,7 +15,7 @@ fn test_quat_as_mat() {
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#[test]
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#[test]
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fn test_quat_mul_vec_or_pnt_as_mat() {
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fn test_quat_mul_vec_or_pnt_as_mat() {
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let axis_angle: Vec3<f64> = random();
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let axis_angle: Vec3<f64> = random();
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let vec: Vec3<f64> = random();
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let vec: Vec3<f64> = random();
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let pnt: Pnt3<f64> = random();
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let pnt: Pnt3<f64> = random();
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@ -32,7 +32,7 @@ fn test_quat_mul_vec_or_pnt_as_mat() {
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#[test]
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#[test]
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fn test_quat_div_quat() {
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fn test_quat_div_quat() {
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let axis_angle1: Vec3<f64> = random();
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let axis_angle1: Vec3<f64> = random();
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let axis_angle2: Vec3<f64> = random();
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let axis_angle2: Vec3<f64> = random();
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@ -48,7 +48,7 @@ fn test_quat_div_quat() {
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#[test]
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#[test]
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fn test_quat_to_axis_angle() {
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fn test_quat_to_axis_angle() {
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let axis_angle: Vec3<f64> = random();
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let axis_angle: Vec3<f64> = random();
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let q = UnitQuat::new(axis_angle);
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let q = UnitQuat::new(axis_angle);
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@ -60,7 +60,7 @@ fn test_quat_to_axis_angle() {
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#[test]
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#[test]
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fn test_quat_euler_angles() {
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fn test_quat_euler_angles() {
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let angles: Vec3<f64> = random();
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let angles: Vec3<f64> = random();
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let q = UnitQuat::new_with_euler_angles(angles.x, angles.y, angles.z);
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let q = UnitQuat::new_with_euler_angles(angles.x, angles.y, angles.z);
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12
tests/vec.rs
12
tests/vec.rs
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@ -6,7 +6,7 @@ use na::{Vec0, Vec1, Vec2, Vec3, Vec4, Vec5, Vec6, Mat3, Iterable, IterableMut};
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macro_rules! test_iterator_impl(
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macro_rules! test_iterator_impl(
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($t: ty, $n: ty) => (
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($t: ty, $n: ty) => (
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let v: $t = random();
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let v: $t = random();
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let mut mv: $t = v.clone();
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let mut mv: $t = v.clone();
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let n: $n = random();
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let n: $n = random();
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@ -24,7 +24,7 @@ macro_rules! test_iterator_impl(
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macro_rules! test_commut_dot_impl(
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macro_rules! test_commut_dot_impl(
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($t: ty) => (
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($t: ty) => (
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let v1 : $t = random();
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let v1 : $t = random();
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let v2 : $t = random();
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let v2 : $t = random();
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@ -35,7 +35,7 @@ macro_rules! test_commut_dot_impl(
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macro_rules! test_scalar_op_impl(
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macro_rules! test_scalar_op_impl(
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($t: ty, $n: ty) => (
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($t: ty, $n: ty) => (
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let v1 : $t = random();
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let v1 : $t = random();
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let n : $n = random();
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let n : $n = random();
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@ -58,7 +58,7 @@ macro_rules! test_scalar_op_impl(
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macro_rules! test_basis_impl(
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macro_rules! test_basis_impl(
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($t: ty) => (
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($t: ty) => (
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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na::canonical_basis(|e1: $t| {
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na::canonical_basis(|e1: $t| {
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na::canonical_basis(|e2: $t| {
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na::canonical_basis(|e2: $t| {
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assert!(e1 == e2 || na::approx_eq(&na::dot(&e1, &e2), &na::zero()));
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assert!(e1 == e2 || na::approx_eq(&na::dot(&e1, &e2), &na::zero()));
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@ -76,7 +76,7 @@ macro_rules! test_basis_impl(
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macro_rules! test_subspace_basis_impl(
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macro_rules! test_subspace_basis_impl(
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($t: ty) => (
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($t: ty) => (
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let v : $t = random();
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let v : $t = random();
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let v1 = na::normalize(&v);
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let v1 = na::normalize(&v);
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@ -100,7 +100,7 @@ macro_rules! test_subspace_basis_impl(
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#[test]
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#[test]
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fn test_cross_vec3() {
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fn test_cross_vec3() {
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for _ in (0us .. 10000) {
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for _ in (0usize .. 10000) {
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let v1 : Vec3<f64> = random();
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let v1 : Vec3<f64> = random();
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let v2 : Vec3<f64> = random();
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let v2 : Vec3<f64> = random();
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let v3 : Vec3<f64> = na::cross(&v1, &v2);
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let v3 : Vec3<f64> = na::cross(&v1, &v2);
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