nalgebra/src/tests/mat.rs

#[test]
use std::num::{Real, One, abs};
#[test]
use std::rand::{random};
#[test]
use std::cmp::ApproxEq;
#[test]
use traits::inv::Inv;
#[test]
use traits::rotation::Rotation;
// #[test]
// use traits::dim::d7;
#[test]
use dim1::vec1::vec1;
#[test]
use dim1::mat1::Mat1;
#[test]
use dim2::mat2::Mat2;
#[test]
use dim3::mat3::Mat3;
// #[test]
// use ndim::nmat::NMat;
#[test]
use adaptors::rotmat::Rotmat;

macro_rules! test_inv_mat_impl(
  ($t:ty) => (
    for 10000.times
    {
      let randmat : $t = random();

      assert!((randmat.inverse() * randmat).approx_eq(&One::one()));
    }
  );
)

#[test]
fn test_inv_mat1()
{ test_inv_mat_impl!(Mat1<f64>); }

#[test]
fn test_inv_mat2()
{ test_inv_mat_impl!(Mat2<f64>); }

#[test]
fn test_inv_mat3()
{ test_inv_mat_impl!(Mat3<f64>); }

// FIXME: ICE
// #[test]
// fn test_inv_nmat()
// { test_inv_mat_impl!(NMat<d7, f64>); }

#[test]
fn test_rotation2()
{
  for 10000.times
  {
    let randmat = One::one::<Rotmat<Mat2<f64>>>();
    let ang     = &vec1(abs::<f64>(random()) % Real::pi());

    assert!(randmat.rotated(ang).rotation().approx_eq(ang));
  }
}
Add tests and basis generation. 2013-05-19 01:04:03 +08:00			`#[test]`
Adapted for the compiler 'incomming' branch. 2013-06-02 02:50:00 +08:00			`use std::num::{Real, One, abs};`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00			`#[test]`
Adapted for the compiler 'incomming' branch. 2013-06-02 02:50:00 +08:00			`use std::rand::{random};`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00			`#[test]`
Adapted for the compiler 'incomming' branch. 2013-06-02 02:50:00 +08:00			`use std::cmp::ApproxEq;`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00			`#[test]`
Removed useless use on the .rc. 2013-05-19 05:56:03 +08:00			`use traits::inv::Inv;`
			`#[test]`
Add a test for the 2d rotation. 2013-05-19 19:53:19 +08:00			`use traits::rotation::Rotation;`
Fix matrix inversion algorithm. 2013-06-01 00:35:48 +08:00			`// #[test]`
			`// use traits::dim::d7;`
Add a test for the 2d rotation. 2013-05-19 19:53:19 +08:00			`#[test]`
			`use dim1::vec1::vec1;`
			`#[test]`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00			`use dim1::mat1::Mat1;`
			`#[test]`
			`use dim2::mat2::Mat2;`
			`#[test]`
			`use dim3::mat3::Mat3;`
Fix matrix inversion algorithm. 2013-06-01 00:35:48 +08:00			`// #[test]`
			`// use ndim::nmat::NMat;`
Add a test for the 2d rotation. 2013-05-19 19:53:19 +08:00			`#[test]`
			`use adaptors::rotmat::Rotmat;`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00
Refactored tests using macros. 2013-05-22 07:15:03 +08:00			`macro_rules! test_inv_mat_impl(`
			`($t:ty) => (`
Adapted for the compiler 'incomming' branch. 2013-06-02 02:50:00 +08:00			`for 10000.times`
Refactored tests using macros. 2013-05-22 07:15:03 +08:00			`{`
			`let randmat : $t = random();`

			`assert!((randmat.inverse() * randmat).approx_eq(&One::one()));`
			`}`
			`);`
			`)`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00
			`#[test]`
			`fn test_inv_mat1()`
Refactored tests using macros. 2013-05-22 07:15:03 +08:00			`{ test_inv_mat_impl!(Mat1<f64>); }`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00
			`#[test]`
			`fn test_inv_mat2()`
Refactored tests using macros. 2013-05-22 07:15:03 +08:00			`{ test_inv_mat_impl!(Mat2<f64>); }`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00
			`#[test]`
			`fn test_inv_mat3()`
Refactored tests using macros. 2013-05-22 07:15:03 +08:00			`{ test_inv_mat_impl!(Mat3<f64>); }`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00
Adapted for the compiler 'incomming' branch. 2013-06-02 02:50:00 +08:00			`// FIXME: ICE`
Refactored tests using macros. 2013-05-22 07:15:03 +08:00			`// #[test]`
			`// fn test_inv_nmat()`
			`// { test_inv_mat_impl!(NMat<d7, f64>); }`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00
			`#[test]`
Add a test for the 2d rotation. 2013-05-19 19:53:19 +08:00			`fn test_rotation2()`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00			`{`
Adapted for the compiler 'incomming' branch. 2013-06-02 02:50:00 +08:00			`for 10000.times`
Add a test for the 2d rotation. 2013-05-19 19:53:19 +08:00			`{`
			`let randmat = One::one::<Rotmat<Mat2<f64>>>();`
Adapted for the compiler 'incomming' branch. 2013-06-02 02:50:00 +08:00			`let ang = &vec1(abs::<f64>(random()) % Real::pi());`
Add a test for the 2d rotation. 2013-05-19 19:53:19 +08:00
Add comments and adapted to new rust syntax. 2013-05-21 23:25:01 +08:00			`assert!(randmat.rotated(ang).rotation().approx_eq(ang));`
Add a test for the 2d rotation. 2013-05-19 19:53:19 +08:00			`}`
Add tests and basis generation. 2013-05-19 01:04:03 +08:00			`}`