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

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use nalgebra_sparse::pattern::{SparsityPattern, SparsityPatternFormatError};
#[test]
fn sparsity_pattern_valid_data() {
// Construct pattern from valid data and check that selected methods return results
// that agree with expectations.
{
// A pattern with zero explicitly stored entries
let pattern = SparsityPattern::try_from_offsets_and_indices(3,
2,
vec![0, 0, 0, 0],
Vec::new())
.unwrap();
assert_eq!(pattern.major_dim(), 3);
assert_eq!(pattern.minor_dim(), 2);
assert_eq!(pattern.nnz(), 0);
assert_eq!(pattern.major_offsets(), &[0, 0, 0, 0]);
assert_eq!(pattern.minor_indices(), &[]);
assert_eq!(pattern.lane(0), &[]);
assert_eq!(pattern.lane(1), &[]);
assert_eq!(pattern.lane(2), &[]);
assert!(pattern.entries().next().is_none());
assert_eq!(pattern, SparsityPattern::zeros(3, 2));
let (offsets, indices) = pattern.disassemble();
assert_eq!(offsets, vec![0, 0, 0, 0]);
assert_eq!(indices, vec![]);
}
{
// Arbitrary pattern
let offsets = vec![0, 2, 2, 5];
let indices = vec![0, 5, 1, 2, 3];
let pattern =
SparsityPattern::try_from_offsets_and_indices(3, 6, offsets.clone(), indices.clone())
.unwrap();
assert_eq!(pattern.major_dim(), 3);
assert_eq!(pattern.minor_dim(), 6);
assert_eq!(pattern.major_offsets(), offsets.as_slice());
assert_eq!(pattern.minor_indices(), indices.as_slice());
assert_eq!(pattern.nnz(), 5);
assert_eq!(pattern.lane(0), &[0, 5]);
assert_eq!(pattern.lane(1), &[]);
assert_eq!(pattern.lane(2), &[1, 2, 3]);
assert_eq!(pattern.entries().collect::<Vec<_>>(),
vec![(0, 0), (0, 5), (2, 1), (2, 2), (2, 3)]);
let (offsets2, indices2) = pattern.disassemble();
assert_eq!(offsets2, offsets);
assert_eq!(indices2, indices);
}
}
#[test]
fn sparsity_pattern_try_from_invalid_data() {
{
// Empty offset array (invalid length)
let pattern = SparsityPattern::try_from_offsets_and_indices(0, 0, Vec::new(), Vec::new());
assert_eq!(pattern, Err(SparsityPatternFormatError::InvalidOffsetArrayLength));
}
{
// Offset array invalid length for arbitrary data
let offsets = vec![0, 3, 5];
let indices = vec![0, 1, 2, 3, 5];
let pattern = SparsityPattern::try_from_offsets_and_indices(3, 6, offsets, indices);
assert!(matches!(pattern, Err(SparsityPatternFormatError::InvalidOffsetArrayLength)));
}
{
// Invalid first entry in offsets array
let offsets = vec![1, 2, 2, 5];
let indices = vec![0, 5, 1, 2, 3];
let pattern = SparsityPattern::try_from_offsets_and_indices(3, 6, offsets, indices);
assert!(matches!(pattern, Err(SparsityPatternFormatError::InvalidOffsetFirstLast)));
}
{
// Invalid last entry in offsets array
let offsets = vec![0, 2, 2, 4];
let indices = vec![0, 5, 1, 2, 3];
let pattern = SparsityPattern::try_from_offsets_and_indices(3, 6, offsets, indices);
assert!(matches!(pattern, Err(SparsityPatternFormatError::InvalidOffsetFirstLast)));
}
{
// Invalid length of offsets array
let offsets = vec![0, 2, 2];
let indices = vec![0, 5, 1, 2, 3];
let pattern = SparsityPattern::try_from_offsets_and_indices(3, 6, offsets, indices);
assert!(matches!(pattern, Err(SparsityPatternFormatError::InvalidOffsetArrayLength)));
}
{
// Nonmonotonic offsets
let offsets = vec![0, 3, 2, 5];
let indices = vec![0, 1, 2, 3, 4];
let pattern = SparsityPattern::try_from_offsets_and_indices(3, 6, offsets, indices);
assert_eq!(pattern, Err(SparsityPatternFormatError::NonmonotonicOffsets));
}
{
// Nonmonotonic minor indices
let offsets = vec![0, 2, 2, 5];
let indices = vec![0, 2, 3, 1, 4];
let pattern = SparsityPattern::try_from_offsets_and_indices(3, 6, offsets, indices);
assert_eq!(pattern, Err(SparsityPatternFormatError::NonmonotonicMinorIndices));
}
{
// Minor index out of bounds
let offsets = vec![0, 2, 2, 5];
let indices = vec![0, 6, 1, 2, 3];
let pattern = SparsityPattern::try_from_offsets_and_indices(3, 6, offsets, indices);
assert_eq!(pattern, Err(SparsityPatternFormatError::MinorIndexOutOfBounds));
}
{
// Duplicate entry
let offsets = vec![0, 2, 2, 5];
let indices = vec![0, 5, 2, 2, 3];
let pattern = SparsityPattern::try_from_offsets_and_indices(3, 6, offsets, indices);
assert_eq!(pattern, Err(SparsityPatternFormatError::DuplicateEntry));
}
}