2020-09-22 23:50:47 +08:00
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use crate::{SparsityPattern, SparseFormatError, SparsityPatternFormatError, SparseFormatErrorKind};
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2020-07-17 15:52:09 +08:00
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use crate::iter::SparsityPatternIter;
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use std::sync::Arc;
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use std::slice::{IterMut, Iter};
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2020-07-21 23:39:06 +08:00
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use std::ops::Range;
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use num_traits::Zero;
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use std::ptr::slice_from_raw_parts_mut;
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2020-07-17 15:52:09 +08:00
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/// A CSR representation of a sparse matrix.
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///
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/// The Compressed Row Storage (CSR) format is well-suited as a general-purpose storage format
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/// for many sparse matrix applications.
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///
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2020-07-21 23:39:06 +08:00
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/// TODO: Storage explanation and examples
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///
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2020-07-17 15:52:09 +08:00
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#[derive(Debug, Clone, PartialEq, Eq)]
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pub struct CsrMatrix<T> {
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// Rows are major, cols are minor in the sparsity pattern
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sparsity_pattern: Arc<SparsityPattern>,
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values: Vec<T>,
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}
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impl<T> CsrMatrix<T> {
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/// Create a zero CSR matrix with no explicitly stored entries.
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pub fn new(nrows: usize, ncols: usize) -> Self {
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Self {
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sparsity_pattern: Arc::new(SparsityPattern::new(nrows, ncols)),
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values: vec![],
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}
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}
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/// The number of rows in the matrix.
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2020-07-17 23:59:19 +08:00
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#[inline]
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pub fn nrows(&self) -> usize {
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self.sparsity_pattern.major_dim()
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}
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/// The number of columns in the matrix.
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#[inline]
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pub fn ncols(&self) -> usize {
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self.sparsity_pattern.minor_dim()
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}
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/// The number of non-zeros in the matrix.
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///
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/// Note that this corresponds to the number of explicitly stored entries, *not* the actual
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/// number of algebraically zero entries in the matrix. Explicitly stored entries can still
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/// be zero. Corresponds to the number of entries in the sparsity pattern.
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2020-07-17 23:59:19 +08:00
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#[inline]
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pub fn nnz(&self) -> usize {
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self.sparsity_pattern.nnz()
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}
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/// The row offsets defining part of the CSR format.
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2020-07-17 23:59:19 +08:00
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#[inline]
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2020-07-17 15:52:09 +08:00
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pub fn row_offsets(&self) -> &[usize] {
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self.sparsity_pattern.major_offsets()
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}
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/// The column indices defining part of the CSR format.
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#[inline]
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pub fn column_indices(&self) -> &[usize] {
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self.sparsity_pattern.minor_indices()
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}
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/// The non-zero values defining part of the CSR format.
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#[inline]
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pub fn values(&self) -> &[T] {
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&self.values
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}
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/// Mutable access to the non-zero values.
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2020-07-17 23:59:19 +08:00
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#[inline]
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2020-07-17 15:52:09 +08:00
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pub fn values_mut(&mut self) -> &mut [T] {
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&mut self.values
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}
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/// Try to construct a CSR matrix from raw CSR data.
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///
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/// It is assumed that each row contains unique and sorted column indices that are in
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/// bounds with respect to the number of columns in the matrix. If this is not the case,
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/// an error is returned to indicate the failure.
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///
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2020-09-22 16:40:12 +08:00
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/// An error is returned if the data given does not conform to the CSR storage format.
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/// See the documentation for [CsrMatrix](struct.CsrMatrix.html) for more information.
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pub fn try_from_csr_data(
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num_rows: usize,
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num_cols: usize,
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row_offsets: Vec<usize>,
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col_indices: Vec<usize>,
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values: Vec<T>,
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) -> Result<Self, SparseFormatError> {
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let pattern = SparsityPattern::try_from_offsets_and_indices(
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num_rows, num_cols, row_offsets, col_indices)
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.map_err(pattern_format_error_to_csr_error)?;
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Self::try_from_pattern_and_values(Arc::new(pattern), values)
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2020-07-17 15:52:09 +08:00
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}
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2020-09-22 16:40:12 +08:00
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/// Try to construct a CSR matrix from a sparsity pattern and associated non-zero values.
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///
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/// Returns an error if the number of values does not match the number of minor indices
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/// in the pattern.
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pub fn try_from_pattern_and_values(pattern: Arc<SparsityPattern>, values: Vec<T>)
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-> Result<Self, SparseFormatError> {
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if pattern.nnz() == values.len() {
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Ok(Self {
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sparsity_pattern: pattern,
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values,
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})
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} else {
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Err(SparseFormatError::from_kind_and_msg(
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SparseFormatErrorKind::InvalidStructure,
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"Number of values and column indices must be the same"))
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2020-09-22 16:40:12 +08:00
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}
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}
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2020-07-17 15:52:09 +08:00
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/// An iterator over non-zero triplets (i, j, v).
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///
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/// The iteration happens in row-major fashion, meaning that i increases monotonically,
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/// and j increases monotonically within each row.
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///
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/// Examples
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/// --------
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/// ```
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/// # use nalgebra_sparse::CsrMatrix;
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/// let row_offsets = vec![0, 2, 3, 4];
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/// let col_indices = vec![0, 2, 1, 0];
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/// let values = vec![1, 2, 3, 4];
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/// let mut csr = CsrMatrix::try_from_csr_data(3, 4, row_offsets, col_indices, values)
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/// .unwrap();
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///
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/// let triplets: Vec<_> = csr.triplet_iter().map(|(i, j, v)| (i, j, *v)).collect();
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/// assert_eq!(triplets, vec![(0, 0, 1), (0, 2, 2), (1, 1, 3), (2, 0, 4)]);
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/// ```
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pub fn triplet_iter(&self) -> CsrTripletIter<T> {
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CsrTripletIter {
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pattern_iter: self.sparsity_pattern.entries(),
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values_iter: self.values.iter()
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}
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}
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/// A mutable iterator over non-zero triplets (i, j, v).
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///
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/// Iteration happens in the same order as for [triplet_iter](#method.triplet_iter).
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///
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/// Examples
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/// --------
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/// ```
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/// # use nalgebra_sparse::CsrMatrix;
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/// # let row_offsets = vec![0, 2, 3, 4];
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/// # let col_indices = vec![0, 2, 1, 0];
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/// # let values = vec![1, 2, 3, 4];
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/// // Using the same data as in the `triplet_iter` example
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/// let mut csr = CsrMatrix::try_from_csr_data(3, 4, row_offsets, col_indices, values)
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/// .unwrap();
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///
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/// // Zero out lower-triangular terms
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/// csr.triplet_iter_mut()
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/// .filter(|(i, j, _)| j < i)
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/// .for_each(|(_, _, v)| *v = 0);
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///
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/// let triplets: Vec<_> = csr.triplet_iter().map(|(i, j, v)| (i, j, *v)).collect();
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/// assert_eq!(triplets, vec![(0, 0, 1), (0, 2, 2), (1, 1, 3), (2, 0, 0)]);
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/// ```
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pub fn triplet_iter_mut(&mut self) -> CsrTripletIterMut<T> {
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CsrTripletIterMut {
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pattern_iter: self.sparsity_pattern.entries(),
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values_mut_iter: self.values.iter_mut()
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}
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}
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2020-07-21 23:39:06 +08:00
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/// Return the row at the given row index.
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///
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/// Panics
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/// ------
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/// Panics if row index is out of bounds.
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#[inline]
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pub fn row(&self, index: usize) -> CsrRow<T> {
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self.get_row(index)
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.expect("Row index must be in bounds")
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}
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/// Mutable row access for the given row index.
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///
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/// Panics
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/// ------
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/// Panics if row index is out of bounds.
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#[inline]
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pub fn row_mut(&mut self, index: usize) -> CsrRowMut<T> {
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self.get_row_mut(index)
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.expect("Row index must be in bounds")
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}
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/// Return the row at the given row index, or `None` if out of bounds.
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#[inline]
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pub fn get_row(&self, index: usize) -> Option<CsrRow<T>> {
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let range = self.get_index_range(index)?;
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Some(CsrRow {
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col_indices: &self.sparsity_pattern.minor_indices()[range.clone()],
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values: &self.values[range],
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ncols: self.ncols()
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})
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}
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/// Mutable row access for the given row index, or `None` if out of bounds.
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#[inline]
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pub fn get_row_mut(&mut self, index: usize) -> Option<CsrRowMut<T>> {
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let range = self.get_index_range(index)?;
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Some(CsrRowMut {
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ncols: self.ncols(),
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col_indices: &self.sparsity_pattern.minor_indices()[range.clone()],
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values: &mut self.values[range]
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})
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}
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/// Internal method for simplifying access to a row's data.
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fn get_index_range(&self, row_index: usize) -> Option<Range<usize>> {
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let row_begin = *self.sparsity_pattern.major_offsets().get(row_index)?;
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let row_end = *self.sparsity_pattern.major_offsets().get(row_index + 1)?;
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Some(row_begin .. row_end)
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}
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/// An iterator over rows in the matrix.
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pub fn row_iter(&self) -> CsrRowIter<T> {
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CsrRowIter {
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current_row_idx: 0,
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matrix: self
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}
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}
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/// A mutable iterator over rows in the matrix.
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pub fn row_iter_mut(&mut self) -> CsrRowIterMut<T> {
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CsrRowIterMut {
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current_row_idx: 0,
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pattern: &self.sparsity_pattern,
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remaining_values: self.values.as_mut_ptr()
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}
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}
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}
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impl<T: Clone + Zero> CsrMatrix<T> {
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/// Return the value in the matrix at the given global row/col indices, or `None` if out of
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/// bounds.
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///
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/// If the indices are in bounds, but no explicitly stored entry is associated with it,
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/// `T::zero()` is returned. Note that this methods offers no way of distinguishing
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/// explicitly stored zero entries from zero values that are only implicitly represented.
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///
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/// Each call to this function incurs the cost of a binary search among the explicitly
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/// stored column entries for the given row.
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#[inline]
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pub fn get(&self, row_index: usize, col_index: usize) -> Option<T> {
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self.get_row(row_index)?.get(col_index)
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}
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/// Same as `get`, but panics if indices are out of bounds.
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///
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/// Panics
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/// ------
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/// Panics if either index is out of bounds.
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#[inline]
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pub fn index(&self, row_index: usize, col_index: usize) -> T {
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self.get(row_index, col_index).unwrap()
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}
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2020-07-17 15:52:09 +08:00
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}
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2020-09-22 23:50:47 +08:00
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/// Convert pattern format errors into more meaningful CSR-specific errors.
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///
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/// This ensures that the terminology is consistent: we are talking about rows and columns,
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/// not lanes, major and minor dimensions.
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fn pattern_format_error_to_csr_error(err: SparsityPatternFormatError) -> SparseFormatError {
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use SparsityPatternFormatError::*;
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use SparsityPatternFormatError::DuplicateEntry as PatternDuplicateEntry;
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use SparseFormatError as E;
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use SparseFormatErrorKind as K;
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match err {
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InvalidOffsetArrayLength => E::from_kind_and_msg(
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K::InvalidStructure,
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"Length of row offset array is not equal to nrows + 1."),
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InvalidOffsetFirstLast => E::from_kind_and_msg(
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K::InvalidStructure,
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"First or last row offset is inconsistent with format specification."),
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NonmonotonicOffsets => E::from_kind_and_msg(
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K::InvalidStructure,
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"Row offsets are not monotonically increasing."),
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NonmonotonicMinorIndices => E::from_kind_and_msg(
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K::InvalidStructure,
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"Column indices are not monotonically increasing (sorted) within each row."),
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MinorIndexOutOfBounds => E::from_kind_and_msg(
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K::IndexOutOfBounds,
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"Column indices are out of bounds."),
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PatternDuplicateEntry => E::from_kind_and_msg(
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K::DuplicateEntry,
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"Matrix data contains duplicate entries."),
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}
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}
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2020-07-21 23:39:06 +08:00
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/// Iterator type for iterating over triplets in a CSR matrix.
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2020-07-17 15:52:09 +08:00
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#[derive(Debug)]
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pub struct CsrTripletIter<'a, T> {
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pattern_iter: SparsityPatternIter<'a>,
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values_iter: Iter<'a, T>
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}
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impl<'a, T> Iterator for CsrTripletIter<'a, T> {
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type Item = (usize, usize, &'a T);
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fn next(&mut self) -> Option<Self::Item> {
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let next_entry = self.pattern_iter.next();
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let next_value = self.values_iter.next();
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match (next_entry, next_value) {
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(Some((i, j)), Some(v)) => Some((i, j, v)),
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_ => None
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}
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}
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}
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2020-07-21 23:39:06 +08:00
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/// Iterator type for mutably iterating over triplets in a CSR matrix.
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2020-07-17 15:52:09 +08:00
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#[derive(Debug)]
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pub struct CsrTripletIterMut<'a, T> {
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pattern_iter: SparsityPatternIter<'a>,
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values_mut_iter: IterMut<'a, T>
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}
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impl<'a, T> Iterator for CsrTripletIterMut<'a, T> {
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type Item = (usize, usize, &'a mut T);
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2020-07-17 23:59:19 +08:00
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#[inline]
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2020-07-17 15:52:09 +08:00
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fn next(&mut self) -> Option<Self::Item> {
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let next_entry = self.pattern_iter.next();
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let next_value = self.values_mut_iter.next();
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match (next_entry, next_value) {
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(Some((i, j)), Some(v)) => Some((i, j, v)),
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_ => None
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}
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}
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2020-07-21 23:39:06 +08:00
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}
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/// An immutable representation of a row in a CSR matrix.
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#[derive(Debug, Clone, PartialEq, Eq)]
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pub struct CsrRow<'a, T> {
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ncols: usize,
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col_indices: &'a [usize],
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values: &'a [T],
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}
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/// A mutable representation of a row in a CSR matrix.
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///
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/// Note that only explicitly stored entries can be mutated. The sparsity pattern belonging
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/// to the row cannot be modified.
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#[derive(Debug, PartialEq, Eq)]
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pub struct CsrRowMut<'a, T> {
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ncols: usize,
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col_indices: &'a [usize],
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values: &'a mut [T]
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}
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/// Implement the methods common to both CsrRow and CsrRowMut
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macro_rules! impl_csr_row_common_methods {
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($name:ty) => {
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impl<'a, T> $name {
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/// The number of global columns in the row.
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#[inline]
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pub fn ncols(&self) -> usize {
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self.ncols
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}
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/// The number of non-zeros in this row.
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#[inline]
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pub fn nnz(&self) -> usize {
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self.col_indices.len()
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}
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/// The column indices corresponding to explicitly stored entries in this row.
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#[inline]
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pub fn col_indices(&self) -> &[usize] {
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self.col_indices
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}
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/// The values corresponding to explicitly stored entries in this row.
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#[inline]
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pub fn values(&self) -> &[T] {
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self.values
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}
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}
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impl<'a, T: Clone + Zero> $name {
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/// Return the value in the matrix at the given global column index, or `None` if out of
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/// bounds.
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///
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/// If the index is in bounds, but no explicitly stored entry is associated with it,
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2020-09-22 23:50:47 +08:00
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/// `T::zero()` is returned. Note that this method offers no way of distinguishing
|
2020-07-21 23:39:06 +08:00
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/// explicitly stored zero entries from zero values that are only implicitly represented.
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///
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/// Each call to this function incurs the cost of a binary search among the explicitly
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/// stored column entries for the current row.
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pub fn get(&self, global_col_index: usize) -> Option<T> {
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let local_index = self.col_indices().binary_search(&global_col_index);
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if let Ok(local_index) = local_index {
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Some(self.values[local_index].clone())
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} else if global_col_index < self.ncols {
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Some(T::zero())
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} else {
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None
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}
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}
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}
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}
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}
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impl_csr_row_common_methods!(CsrRow<'a, T>);
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impl_csr_row_common_methods!(CsrRowMut<'a, T>);
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impl<'a, T> CsrRowMut<'a, T> {
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/// Mutable access to the values corresponding to explicitly stored entries in this row.
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pub fn values_mut(&mut self) -> &mut [T] {
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self.values
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}
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/// Provides simultaneous access to column indices and mutable values corresponding to the
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/// explicitly stored entries in this row.
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///
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/// This method primarily facilitates low-level access for methods that process data stored
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/// in CSR format directly.
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pub fn cols_and_values_mut(&mut self) -> (&[usize], &mut [T]) {
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(self.col_indices, self.values)
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}
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}
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pub struct CsrRowIter<'a, T> {
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// The index of the row that will be returned on the next
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|
|
|
current_row_idx: usize,
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|
|
matrix: &'a CsrMatrix<T>
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}
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impl<'a, T> Iterator for CsrRowIter<'a, T> {
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|
type Item = CsrRow<'a, T>;
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fn next(&mut self) -> Option<Self::Item> {
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let row = self.matrix.get_row(self.current_row_idx);
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|
self.current_row_idx += 1;
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|
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|
row
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|
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|
}
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|
}
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|
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|
|
pub struct CsrRowIterMut<'a, T> {
|
|
|
|
current_row_idx: usize,
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|
|
pattern: &'a SparsityPattern,
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|
|
|
remaining_values: *mut T,
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|
|
|
}
|
|
|
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|
|
|
impl<'a, T> Iterator for CsrRowIterMut<'a, T>
|
|
|
|
where
|
|
|
|
T: 'a
|
|
|
|
{
|
|
|
|
type Item = CsrRowMut<'a, T>;
|
|
|
|
|
|
|
|
fn next(&mut self) -> Option<Self::Item> {
|
|
|
|
let lane = self.pattern.lane(self.current_row_idx);
|
|
|
|
let ncols = self.pattern.minor_dim();
|
|
|
|
|
|
|
|
if let Some(col_indices) = lane {
|
|
|
|
let count = col_indices.len();
|
|
|
|
|
|
|
|
// Note: I can't think of any way to construct this iterator without unsafe.
|
|
|
|
let values_in_row;
|
|
|
|
unsafe {
|
|
|
|
values_in_row = &mut *slice_from_raw_parts_mut(self.remaining_values, count);
|
|
|
|
self.remaining_values = self.remaining_values.add(count);
|
|
|
|
}
|
|
|
|
self.current_row_idx += 1;
|
|
|
|
|
|
|
|
Some(CsrRowMut {
|
|
|
|
ncols,
|
|
|
|
col_indices,
|
|
|
|
values: values_in_row
|
|
|
|
})
|
|
|
|
} else {
|
|
|
|
None
|
|
|
|
}
|
|
|
|
}
|
2020-07-17 15:52:09 +08:00
|
|
|
}
|