forked from M-Labs/nalgebra
Implement CSR::disassemble and SparsityPattern::disassemble
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@ -240,6 +240,61 @@ impl<T> CsrMatrix<T> {
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remaining_values: self.values.as_mut_ptr()
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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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}
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/// Returns the underlying vector containing the values for the explicitly stored entries.
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pub fn take_values(self) -> Vec<T> {
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self.values
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}
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/// Disassembles the CSR matrix into its underlying offset, index and value arrays.
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///
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/// If the matrix contains the sole reference to the sparsity pattern,
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/// then the data is returned as-is. Otherwise, the sparsity pattern is cloned.
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///
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/// Examples
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/// --------
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///
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/// ```
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/// # use nalgebra_sparse::csr::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(
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/// 3,
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/// 4,
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/// row_offsets.clone(),
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/// col_indices.clone(),
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/// values.clone())
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/// .unwrap();
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/// let (row_offsets2, col_indices2, values2) = csr.disassemble();
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/// assert_eq!(row_offsets2, row_offsets);
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/// assert_eq!(col_indices2, col_indices);
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/// assert_eq!(values2, values);
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/// ```
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pub fn disassemble(self) -> (Vec<usize>, Vec<usize>, Vec<T>) {
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// Take an Arc to the pattern, which might be the sole reference to the data after
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// taking the values. This is important, because it might let us avoid cloning the data
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// further below.
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let pattern = self.pattern();
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let values = self.take_values();
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// Try to take the pattern out of the `Arc` if possible,
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// otherwise clone the pattern.
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let owned_pattern = Arc::try_unwrap(pattern)
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.unwrap_or_else(|arc| SparsityPattern::clone(&*arc));
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let (offsets, indices) = owned_pattern.disassemble();
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(offsets, indices, values)
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}
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/// Returns the underlying sparsity pattern.
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///
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/// The sparsity pattern is stored internally inside an `Arc`. This allows users to re-use
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/// the same sparsity pattern for multiple matrices without storing the same pattern multiple
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/// times in memory.
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pub fn pattern(&self) -> Arc<SparsityPattern> {
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Arc::clone(&self.sparsity_pattern)
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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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impl<T: Clone + Zero> CsrMatrix<T> {
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@ -247,7 +302,7 @@ impl<T: Clone + Zero> CsrMatrix<T> {
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/// bounds.
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/// bounds.
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///
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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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/// 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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/// `T::zero()` is returned. Note that this method 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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/// explicitly stored zero entries from zero values that are only implicitly represented.
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///
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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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/// Each call to this function incurs the cost of a binary search among the explicitly
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@ -15,6 +15,7 @@
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//! - [x] Construct from valid offset + index data
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//! - [x] Construct from valid offset + index data
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//! - [ ] Construct from unsorted (but otherwise valid) offset + index data
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//! - [ ] Construct from unsorted (but otherwise valid) offset + index data
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//! - [x] Iterate over entries (i, j) in the pattern
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//! - [x] Iterate over entries (i, j) in the pattern
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//! - [x] "Disassemble" the sparsity pattern into the raw index data arrays.
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//! - CSR matrix type. Functionality:
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//! - CSR matrix type. Functionality:
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//! - [x] Access to CSR data as slices.
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//! - [x] Access to CSR data as slices.
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//! - [x] Return number of nnz
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//! - [x] Return number of nnz
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@ -24,6 +25,7 @@
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//! - [ ] Construct from unsorted CSR data
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//! - [ ] Construct from unsorted CSR data
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//! - [x] Iterate over entries (i, j, v) in the matrix (+mutable).
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//! - [x] Iterate over entries (i, j, v) in the matrix (+mutable).
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//! - [x] Iterate over rows in the matrix (+ mutable).
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//! - [x] Iterate over rows in the matrix (+ mutable).
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//! - [x] "Disassemble" the CSR matrix into the raw CSR data arrays.
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//!
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//!
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//! - CSC matrix type. Functionality:
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//! - CSC matrix type. Functionality:
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//! - Same as CSR, but with columns instead of rows.
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//! - Same as CSR, but with columns instead of rows.
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@ -170,6 +170,29 @@ impl SparsityPattern {
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pub fn entries(&self) -> SparsityPatternIter {
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pub fn entries(&self) -> SparsityPatternIter {
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SparsityPatternIter::from_pattern(self)
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SparsityPatternIter::from_pattern(self)
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}
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}
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/// Returns the raw offset and index data for the sparsity pattern.
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///
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/// Examples
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/// --------
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///
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/// ```
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/// # use nalgebra_sparse::pattern::SparsityPattern;
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/// let offsets = vec![0, 2, 3, 4];
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/// let minor_indices = vec![0, 2, 1, 0];
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/// let pattern = SparsityPattern::try_from_offsets_and_indices(
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/// 3,
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/// 4,
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/// offsets.clone(),
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/// minor_indices.clone())
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/// .unwrap();
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/// let (offsets2, minor_indices2) = pattern.disassemble();
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/// assert_eq!(offsets2, offsets);
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/// assert_eq!(minor_indices2, minor_indices);
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/// ```
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pub fn disassemble(self) -> (Vec<usize>, Vec<usize>) {
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(self.major_offsets, self.minor_indices)
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}
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}
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}
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/// Error type for `SparsityPattern` format errors.
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/// Error type for `SparsityPattern` format errors.
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