nalgebra/tests/linalg/bidiagonal.rs

#![cfg(feature = "arbitrary")]

macro_rules! gen_tests(
    ($module: ident, $scalar: ty) => {
        mod $module {
            use na::{DMatrix, Matrix2, Matrix3x5, Matrix4, Matrix5x3};
            #[allow(unused_imports)]
            use crate::core::helper::{RandScalar, RandComplex};

            quickcheck! {
                fn bidiagonal(m: DMatrix<$scalar>) -> bool {
                    let m = m.map(|e| e.0);
                    if m.len() == 0  {
                        return true;
                    }

                    let bidiagonal = m.clone().bidiagonalize();
                    let (u, d, v_t) = bidiagonal.unpack();

                    relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)
                }

                fn bidiagonal_static_5_3(m: Matrix5x3<$scalar>) -> bool {
                    let m = m.map(|e| e.0);
                    let bidiagonal = m.bidiagonalize();
                    let (u, d, v_t) = bidiagonal.unpack();

                    relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)
                }

                fn bidiagonal_static_3_5(m: Matrix3x5<$scalar>) -> bool {
                    let m = m.map(|e| e.0);
                    let bidiagonal = m.bidiagonalize();
                    let (u, d, v_t) = bidiagonal.unpack();

                    relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)
                }

                fn bidiagonal_static_square(m: Matrix4<$scalar>) -> bool {
                    let m = m.map(|e| e.0);
                    let bidiagonal = m.bidiagonalize();
                    let (u, d, v_t) = bidiagonal.unpack();

                    relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)
                }

                fn bidiagonal_static_square_2x2(m: Matrix2<$scalar>) -> bool {
                    let m = m.map(|e| e.0);
                    let bidiagonal = m.bidiagonalize();
                    let (u, d, v_t) = bidiagonal.unpack();

                    relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)
                }
            }
        }
    }
);

gen_tests!(complex, RandComplex<f64>);
gen_tests!(f64, RandScalar<f64>);

#[test]
fn bidiagonal_identity() {
    let m = na::DMatrix::<f64>::identity(10, 10);
    let bidiagonal = m.clone().bidiagonalize();
    let (u, d, v_t) = bidiagonal.unpack();
    assert_eq!(m, &u * d * &v_t);

    let m = na::DMatrix::<f64>::identity(10, 15);
    let bidiagonal = m.clone().bidiagonalize();
    let (u, d, v_t) = bidiagonal.unpack();
    assert_eq!(m, &u * d * &v_t);

    let m = na::DMatrix::<f64>::identity(15, 10);
    let bidiagonal = m.clone().bidiagonalize();
    let (u, d, v_t) = bidiagonal.unpack();
    assert_eq!(m, &u * d * &v_t);
}
Restructure test modules to avoid warnings These warnings occurred only when running the test suite with no features. Lots of uses had to be rescoped into newly created modules to make it easier to separate these issues. 2018-01-17 23:48:47 +08:00			`#![cfg(feature = "arbitrary")]`
Add the most common matrix decompositions. 2017-08-03 01:37:44 +08:00
Cleanup warnings and rename Schur -> RealSchur 2019-03-23 18:46:56 +08:00			`macro_rules! gen_tests(`
			`($module: ident, $scalar: ty) => {`
			`mod $module {`
			`use na::{DMatrix, Matrix2, Matrix3x5, Matrix4, Matrix5x3};`
			`#[allow(unused_imports)]`
2018 edition. 2019-03-23 21:29:07 +08:00			`use crate::core::helper::{RandScalar, RandComplex};`
Cleanup warnings and rename Schur -> RealSchur 2019-03-23 18:46:56 +08:00
			`quickcheck! {`
			`fn bidiagonal(m: DMatrix<$scalar>) -> bool {`
			`let m = m.map(\|e\| e.0);`
			`if m.len() == 0 {`
			`return true;`
			`}`

			`let bidiagonal = m.clone().bidiagonalize();`
			`let (u, d, v_t) = bidiagonal.unpack();`

			`relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)`
			`}`

			`fn bidiagonal_static_5_3(m: Matrix5x3<$scalar>) -> bool {`
			`let m = m.map(\|e\| e.0);`
			`let bidiagonal = m.bidiagonalize();`
			`let (u, d, v_t) = bidiagonal.unpack();`

			`relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)`
			`}`

			`fn bidiagonal_static_3_5(m: Matrix3x5<$scalar>) -> bool {`
			`let m = m.map(\|e\| e.0);`
			`let bidiagonal = m.bidiagonalize();`
			`let (u, d, v_t) = bidiagonal.unpack();`

			`relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)`
			`}`

			`fn bidiagonal_static_square(m: Matrix4<$scalar>) -> bool {`
			`let m = m.map(\|e\| e.0);`
			`let bidiagonal = m.bidiagonalize();`
			`let (u, d, v_t) = bidiagonal.unpack();`

			`relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)`
			`}`

			`fn bidiagonal_static_square_2x2(m: Matrix2<$scalar>) -> bool {`
			`let m = m.map(\|e\| e.0);`
			`let bidiagonal = m.bidiagonalize();`
			`let (u, d, v_t) = bidiagonal.unpack();`

			`relative_eq!(m, &u * d * &v_t, epsilon = 1.0e-7)`
			`}`
			`}`
Add the most common matrix decompositions. 2017-08-03 01:37:44 +08:00			`}`
			`}`
Cleanup warnings and rename Schur -> RealSchur 2019-03-23 18:46:56 +08:00			`);`
Fix mint tests. 2019-03-20 05:53:21 +08:00
Cleanup warnings and rename Schur -> RealSchur 2019-03-23 18:46:56 +08:00			`gen_tests!(complex, RandComplex<f64>);`
			`gen_tests!(f64, RandScalar<f64>);`
Fix mint tests. 2019-03-20 05:53:21 +08:00
			`#[test]`
			`fn bidiagonal_identity() {`
Cleanup warnings and rename Schur -> RealSchur 2019-03-23 18:46:56 +08:00			`let m = na::DMatrix::<f64>::identity(10, 10);`
Fix mint tests. 2019-03-20 05:53:21 +08:00			`let bidiagonal = m.clone().bidiagonalize();`
			`let (u, d, v_t) = bidiagonal.unpack();`
			`assert_eq!(m, &u * d * &v_t);`

Cleanup warnings and rename Schur -> RealSchur 2019-03-23 18:46:56 +08:00			`let m = na::DMatrix::<f64>::identity(10, 15);`
Fix mint tests. 2019-03-20 05:53:21 +08:00			`let bidiagonal = m.clone().bidiagonalize();`
			`let (u, d, v_t) = bidiagonal.unpack();`
			`assert_eq!(m, &u * d * &v_t);`

Cleanup warnings and rename Schur -> RealSchur 2019-03-23 18:46:56 +08:00			`let m = na::DMatrix::<f64>::identity(15, 10);`
Fix mint tests. 2019-03-20 05:53:21 +08:00			`let bidiagonal = m.clone().bidiagonalize();`
			`let (u, d, v_t) = bidiagonal.unpack();`
			`assert_eq!(m, &u * d * &v_t);`
			`}`