nalgebra/nalgebra-sparse/tests/unit_tests/coo.rs

255 lines
7.0 KiB
Rust

use crate::assert_panics;
use nalgebra::DMatrix;
use nalgebra_sparse::coo::CooMatrix;
use nalgebra_sparse::SparseFormatErrorKind;
#[test]
fn coo_construction_for_valid_data() {
// Test that construction with try_from_triplets succeeds, that the state of the
// matrix afterwards is as expected, and that the dense representation matches expectations.
{
// Zero matrix
let coo =
CooMatrix::<i32>::try_from_triplets(3, 2, Vec::new(), Vec::new(), Vec::new()).unwrap();
assert_eq!(coo.nrows(), 3);
assert_eq!(coo.ncols(), 2);
assert!(coo.triplet_iter().next().is_none());
assert!(coo.row_indices().is_empty());
assert!(coo.col_indices().is_empty());
assert!(coo.values().is_empty());
assert_eq!(DMatrix::from(&coo), DMatrix::repeat(3, 2, 0));
}
{
// Arbitrary matrix, no duplicates
let i = vec![0, 1, 0, 0, 2];
let j = vec![0, 2, 1, 3, 3];
let v = vec![2, 3, 7, 3, 1];
let coo =
CooMatrix::<i32>::try_from_triplets(3, 5, i.clone(), j.clone(), v.clone()).unwrap();
assert_eq!(coo.nrows(), 3);
assert_eq!(coo.ncols(), 5);
assert_eq!(i.as_slice(), coo.row_indices());
assert_eq!(j.as_slice(), coo.col_indices());
assert_eq!(v.as_slice(), coo.values());
let expected_triplets: Vec<_> = i
.iter()
.zip(&j)
.zip(&v)
.map(|((i, j), v)| (*i, *j, *v))
.collect();
let actual_triplets: Vec<_> = coo.triplet_iter().map(|(i, j, v)| (i, j, *v)).collect();
assert_eq!(actual_triplets, expected_triplets);
#[rustfmt::skip]
let expected_dense = DMatrix::from_row_slice(3, 5, &[
2, 7, 0, 3, 0,
0, 0, 3, 0, 0,
0, 0, 0, 1, 0
]);
assert_eq!(DMatrix::from(&coo), expected_dense);
}
{
// Arbitrary matrix, with duplicates
let i = vec![0, 1, 0, 0, 0, 0, 2, 1];
let j = vec![0, 2, 0, 1, 0, 3, 3, 2];
let v = vec![2, 3, 4, 7, 1, 3, 1, 5];
let coo =
CooMatrix::<i32>::try_from_triplets(3, 5, i.clone(), j.clone(), v.clone()).unwrap();
assert_eq!(coo.nrows(), 3);
assert_eq!(coo.ncols(), 5);
assert_eq!(i.as_slice(), coo.row_indices());
assert_eq!(j.as_slice(), coo.col_indices());
assert_eq!(v.as_slice(), coo.values());
let expected_triplets: Vec<_> = i
.iter()
.zip(&j)
.zip(&v)
.map(|((i, j), v)| (*i, *j, *v))
.collect();
let actual_triplets: Vec<_> = coo.triplet_iter().map(|(i, j, v)| (i, j, *v)).collect();
assert_eq!(actual_triplets, expected_triplets);
#[rustfmt::skip]
let expected_dense = DMatrix::from_row_slice(3, 5, &[
7, 7, 0, 3, 0,
0, 0, 8, 0, 0,
0, 0, 0, 1, 0
]);
assert_eq!(DMatrix::from(&coo), expected_dense);
}
}
#[test]
fn coo_try_from_triplets_reports_out_of_bounds_indices() {
{
// 0x0 matrix
let result = CooMatrix::<i32>::try_from_triplets(0, 0, vec![0], vec![0], vec![2]);
assert!(matches!(
result.unwrap_err().kind(),
SparseFormatErrorKind::IndexOutOfBounds
));
}
{
// 1x1 matrix, row out of bounds
let result = CooMatrix::<i32>::try_from_triplets(1, 1, vec![1], vec![0], vec![2]);
assert!(matches!(
result.unwrap_err().kind(),
SparseFormatErrorKind::IndexOutOfBounds
));
}
{
// 1x1 matrix, col out of bounds
let result = CooMatrix::<i32>::try_from_triplets(1, 1, vec![0], vec![1], vec![2]);
assert!(matches!(
result.unwrap_err().kind(),
SparseFormatErrorKind::IndexOutOfBounds
));
}
{
// 1x1 matrix, row and col out of bounds
let result = CooMatrix::<i32>::try_from_triplets(1, 1, vec![1], vec![1], vec![2]);
assert!(matches!(
result.unwrap_err().kind(),
SparseFormatErrorKind::IndexOutOfBounds
));
}
{
// Arbitrary matrix, row out of bounds
let i = vec![0, 1, 0, 3, 2];
let j = vec![0, 2, 1, 3, 3];
let v = vec![2, 3, 7, 3, 1];
let result = CooMatrix::<i32>::try_from_triplets(3, 5, i, j, v);
assert!(matches!(
result.unwrap_err().kind(),
SparseFormatErrorKind::IndexOutOfBounds
));
}
{
// Arbitrary matrix, col out of bounds
let i = vec![0, 1, 0, 0, 2];
let j = vec![0, 2, 1, 5, 3];
let v = vec![2, 3, 7, 3, 1];
let result = CooMatrix::<i32>::try_from_triplets(3, 5, i, j, v);
assert!(matches!(
result.unwrap_err().kind(),
SparseFormatErrorKind::IndexOutOfBounds
));
}
}
#[test]
fn coo_try_from_triplets_panics_on_mismatched_vectors() {
// Check that try_from_triplets panics when the triplet vectors have different lengths
macro_rules! assert_errs {
($result:expr) => {
assert!(matches!(
$result.unwrap_err().kind(),
SparseFormatErrorKind::InvalidStructure
))
};
}
assert_errs!(CooMatrix::<i32>::try_from_triplets(
3,
5,
vec![1, 2],
vec![0],
vec![0]
));
assert_errs!(CooMatrix::<i32>::try_from_triplets(
3,
5,
vec![1],
vec![0, 0],
vec![0]
));
assert_errs!(CooMatrix::<i32>::try_from_triplets(
3,
5,
vec![1],
vec![0],
vec![0, 1]
));
assert_errs!(CooMatrix::<i32>::try_from_triplets(
3,
5,
vec![1, 2],
vec![0, 1],
vec![0]
));
assert_errs!(CooMatrix::<i32>::try_from_triplets(
3,
5,
vec![1],
vec![0, 1],
vec![0, 1]
));
assert_errs!(CooMatrix::<i32>::try_from_triplets(
3,
5,
vec![1, 1],
vec![0],
vec![0, 1]
));
}
#[test]
fn coo_push_valid_entries() {
let mut coo = CooMatrix::new(3, 3);
coo.push(0, 0, 1);
assert_eq!(coo.triplet_iter().collect::<Vec<_>>(), vec![(0, 0, &1)]);
coo.push(0, 0, 2);
assert_eq!(
coo.triplet_iter().collect::<Vec<_>>(),
vec![(0, 0, &1), (0, 0, &2)]
);
coo.push(2, 2, 3);
assert_eq!(
coo.triplet_iter().collect::<Vec<_>>(),
vec![(0, 0, &1), (0, 0, &2), (2, 2, &3)]
);
}
#[test]
fn coo_push_out_of_bounds_entries() {
{
// 0x0 matrix
let coo = CooMatrix::new(0, 0);
assert_panics!(coo.clone().push(0, 0, 1));
}
{
// 0x1 matrix
assert_panics!(CooMatrix::new(0, 1).push(0, 0, 1));
}
{
// 1x0 matrix
assert_panics!(CooMatrix::new(1, 0).push(0, 0, 1));
}
{
// Arbitrary matrix dimensions
let coo = CooMatrix::new(3, 2);
assert_panics!(coo.clone().push(3, 0, 1));
assert_panics!(coo.clone().push(2, 2, 1));
assert_panics!(coo.clone().push(3, 2, 1));
}
}