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Added test for linalg::solve. Fix bug in fitter (wrong argument order)

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Anders Olsson
2022-04-28 10:23:37 +02:00
parent 7a3ff508cd
commit 347af1c908
2 changed files with 32 additions and 8 deletions
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14
src/fitter/recursive.rs
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@@ -264,9 +264,10 @@ impl<K: Kernel> Fitter for Recursive<K> {
};
// RTS update using the right neighbor.
let a = self.kernel.transition(ts[i], self.ts[(j + 1) as usize]);
let a = a.dot(&p);
let b = self.p_p[(j + 1) as usize].clone();
let a = self.p_p[(j + 1) as usize].clone();
let b = self.kernel.transition(ts[i], self.ts[(j + 1) as usize]);
let b = b.dot(&p);
let g = crate::linalg::solve(a, b);
let g = g.t();
@@ -327,7 +328,6 @@ mod tests {
extern crate blas_src;
use approx::assert_relative_eq;
use rand::{distributions::Standard, thread_rng, Rng};
use crate::kernel::Matern32;
@@ -463,7 +463,7 @@ mod tests {
fitter.fit();
// Estimation
eprintln!("{:#?}", fitter.ms);
// eprintln!("{:#?}", fitter.ms);
assert_relative_eq!(
Array1::from(fitter.ms.clone()),
@@ -479,8 +479,8 @@ mod tests {
// Prediction.
let (ms, vs) = fitter.predict(data_ts_pred());
assert_relative_eq!(Array1::from(ms), data_mean_pred(), max_relative = 0.0000001);
assert_relative_eq!(Array1::from(vs), data_var_pred(), max_relative = 0.0000001);
assert_relative_eq!(Array1::from(ms), data_mean_pred(), max_relative = 0.000001);
assert_relative_eq!(Array1::from(vs), data_var_pred(), max_relative = 0.000001);
/*
# Log-likelihood.

26
src/linalg.rs
View File

@@ -29,7 +29,7 @@ pub fn solve(mut a: Array2<f64>, mut b: Array2<f64>) -> Array2<f64> {
let mut ipiv = vec![0; n as usize];
let (a_slice, layout) = as_slice_with_layout_mut(&mut a).expect("Matrix `a` not contiguous.");
let (b_slice, _) = as_slice_with_layout_mut(&mut b).expect("Matrix `a` not contiguous.");
let (b_slice, _) = as_slice_with_layout_mut(&mut b).expect("Matrix `b` not contiguous.");
unsafe {
info = lapacke::dgesv(layout, n, nrhs, a_slice, lda, &mut ipiv, b_slice, ldb);
@@ -39,3 +39,27 @@ pub fn solve(mut a: Array2<f64>, mut b: Array2<f64>) -> Array2<f64> {
b
}
#[cfg(test)]
mod tests {
use approx::assert_relative_eq;
use super::*;
#[test]
fn test_solve() {
let a = array![[2.0, 0.0], [0.0, 6.0]];
let b = array![[1.9645574, 0.56996938], [-0.56996938, 3.91924033]];
let e = array![[0.9822787, 0.28498469], [-0.0949949, 0.65320672]];
assert_relative_eq!(solve(a, b), e, max_relative = 0.0000001);
let a = array![[1.22650294, 0.67685001], [0.67685001, 5.34978493]];
let b = array![[1.00213885, 1.47494613], [-0.03356356, 2.14214437]];
let e = array![[0.88212208, 1.0552697], [-0.11787911, 0.26690514]];
assert_relative_eq!(solve(a, b), e, max_relative = 0.0000001);
}
}