forked from M-Labs/nalgebra
Apply permutation
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@ -14,6 +14,7 @@ use crate::coo::CooMatrix;
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use crate::cs;
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use crate::cs;
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use crate::csc::CscMatrix;
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use crate::csc::CscMatrix;
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use crate::csr::CsrMatrix;
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use crate::csr::CsrMatrix;
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use crate::utils::apply_permutation;
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/// Converts a dense matrix to [`CooMatrix`].
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/// Converts a dense matrix to [`CooMatrix`].
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pub fn convert_dense_coo<T, R, C, S>(dense: &Matrix<T, R, C, S>) -> CooMatrix<T>
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pub fn convert_dense_coo<T, R, C, S>(dense: &Matrix<T, R, C, S>) -> CooMatrix<T>
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@ -390,15 +391,6 @@ fn sort_lane<T: Clone>(
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apply_permutation(values_result, values, permutation);
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apply_permutation(values_result, values, permutation);
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}
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}
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// TODO: Move this into `utils` or something?
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fn apply_permutation<T: Clone>(out_slice: &mut [T], in_slice: &[T], permutation: &[usize]) {
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assert_eq!(out_slice.len(), in_slice.len());
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assert_eq!(out_slice.len(), permutation.len());
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for (out_element, old_pos) in out_slice.iter_mut().zip(permutation) {
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*out_element = in_slice[*old_pos].clone();
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}
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}
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/// Given *sorted* indices and corresponding scalar values, combines duplicates with the given
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/// Given *sorted* indices and corresponding scalar values, combines duplicates with the given
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/// associative combiner and calls the provided produce methods with combined indices and values.
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/// associative combiner and calls the provided produce methods with combined indices and values.
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fn combine_duplicates<T: Clone>(
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fn combine_duplicates<T: Clone>(
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@ -535,6 +535,10 @@ fn pattern_format_error_to_csc_error(err: SparsityPatternFormatError) -> SparseF
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use SparsityPatternFormatError::*;
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use SparsityPatternFormatError::*;
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match err {
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match err {
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DifferentValuesIndicesLengths => E::from_kind_and_msg(
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K::InvalidStructure,
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"Lengths of values and column indices are not equal.",
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),
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InvalidOffsetArrayLength => E::from_kind_and_msg(
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InvalidOffsetArrayLength => E::from_kind_and_msg(
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K::InvalidStructure,
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K::InvalidStructure,
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"Length of col offset array is not equal to ncols + 1.",
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"Length of col offset array is not equal to ncols + 1.",
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@ -5,11 +5,13 @@
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use crate::cs::{CsLane, CsLaneIter, CsLaneIterMut, CsLaneMut, CsMatrix};
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use crate::cs::{CsLane, CsLaneIter, CsLaneIterMut, CsLaneMut, CsMatrix};
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use crate::csc::CscMatrix;
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use crate::csc::CscMatrix;
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use crate::pattern::{SparsityPattern, SparsityPatternFormatError, SparsityPatternIter};
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use crate::pattern::{SparsityPattern, SparsityPatternFormatError, SparsityPatternIter};
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use crate::utils::{apply_permutation, first_and_last_offsets_are_ok};
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use crate::{SparseEntry, SparseEntryMut, SparseFormatError, SparseFormatErrorKind};
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use crate::{SparseEntry, SparseEntryMut, SparseFormatError, SparseFormatErrorKind};
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use nalgebra::Scalar;
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use nalgebra::Scalar;
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use num_traits::One;
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use num_traits::One;
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use num_traits::Zero;
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use std::slice::{Iter, IterMut};
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use std::slice::{Iter, IterMut};
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/// A CSR representation of a sparse matrix.
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/// A CSR representation of a sparse matrix.
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@ -184,20 +186,40 @@ impl<T> CsrMatrix<T> {
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row_offsets: Vec<usize>,
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row_offsets: Vec<usize>,
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col_indices: Vec<usize>,
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col_indices: Vec<usize>,
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values: Vec<T>,
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values: Vec<T>,
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) -> Result<Self, SparseFormatError> {
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) -> Result<Self, SparseFormatError>
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use nalgebra::base::helper;
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where
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T: Scalar + Zero,
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{
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use SparsityPatternFormatError::*;
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use SparsityPatternFormatError::*;
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if helper::first_and_last_offsets_are_ok(&row_offsets, &col_indices) {
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let mut sorted_col_indices = col_indices.clone();
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let mut p: Vec<usize> = (0..col_indices.len()).collect();
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if col_indices.len() != values.len() {
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return (Err(DifferentValuesIndicesLengths)).map_err(pattern_format_error_to_csr_error);
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}
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if first_and_last_offsets_are_ok(&row_offsets, &col_indices) {
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for (index, &offset) in row_offsets[0..row_offsets.len() - 1].iter().enumerate() {
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for (index, &offset) in row_offsets[0..row_offsets.len() - 1].iter().enumerate() {
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sorted_col_indices[offset..row_offsets[index + 1]].sort_unstable();
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p[offset..row_offsets[index + 1]].sort_by(|a, b| {
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let x = &col_indices[*a];
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let y = &col_indices[*b];
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x.partial_cmp(y).unwrap()
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});
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}
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}
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// permute indices
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let sorted_col_indices: Vec<usize> = p.iter().map(|i| col_indices[*i]).collect();
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// permute values
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let mut output: Vec<T> = vec![T::zero(); p.len()];
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apply_permutation(&mut output[..p.len()], &values[..p.len()], &p[..p.len()]);
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return Self::try_from_csr_data(
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return Self::try_from_csr_data(
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num_rows,
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num_rows,
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num_cols,
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num_cols,
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row_offsets,
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row_offsets,
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sorted_col_indices,
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sorted_col_indices,
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values,
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output,
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);
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);
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}
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}
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return (Err(InvalidOffsetFirstLast)).map_err(pattern_format_error_to_csr_error);
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return (Err(InvalidOffsetFirstLast)).map_err(pattern_format_error_to_csr_error);
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@ -568,6 +590,10 @@ fn pattern_format_error_to_csr_error(err: SparsityPatternFormatError) -> SparseF
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use SparsityPatternFormatError::*;
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use SparsityPatternFormatError::*;
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match err {
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match err {
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DifferentValuesIndicesLengths => E::from_kind_and_msg(
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K::InvalidStructure,
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"Lengths of values and column indices are not equal.",
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),
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InvalidOffsetArrayLength => E::from_kind_and_msg(
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InvalidOffsetArrayLength => E::from_kind_and_msg(
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K::InvalidStructure,
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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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"Length of row offset array is not equal to nrows + 1.",
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@ -149,6 +149,7 @@ pub mod csr;
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pub mod factorization;
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pub mod factorization;
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pub mod ops;
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pub mod ops;
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pub mod pattern;
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pub mod pattern;
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pub mod utils;
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pub(crate) mod cs;
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pub(crate) mod cs;
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@ -1,5 +1,6 @@
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//! Sparsity patterns for CSR and CSC matrices.
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//! Sparsity patterns for CSR and CSC matrices.
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use crate::cs::transpose_cs;
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use crate::cs::transpose_cs;
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use crate::utils::first_and_last_offsets_are_ok;
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use crate::SparseFormatError;
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use crate::SparseFormatError;
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use std::error::Error;
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use std::error::Error;
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use std::fmt;
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use std::fmt;
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@ -125,7 +126,6 @@ impl SparsityPattern {
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major_offsets: Vec<usize>,
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major_offsets: Vec<usize>,
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minor_indices: Vec<usize>,
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minor_indices: Vec<usize>,
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) -> Result<Self, SparsityPatternFormatError> {
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) -> Result<Self, SparsityPatternFormatError> {
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use nalgebra::base::helper;
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use SparsityPatternFormatError::*;
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use SparsityPatternFormatError::*;
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if major_offsets.len() != major_dim + 1 {
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if major_offsets.len() != major_dim + 1 {
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@ -133,7 +133,7 @@ impl SparsityPattern {
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}
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}
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// Check that the first and last offsets conform to the specification
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// Check that the first and last offsets conform to the specification
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if !helper::first_and_last_offsets_are_ok(&major_offsets, &minor_indices) {
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if !first_and_last_offsets_are_ok(&major_offsets, &minor_indices) {
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return Err(InvalidOffsetFirstLast);
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return Err(InvalidOffsetFirstLast);
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}
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}
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@ -261,6 +261,8 @@ impl SparsityPattern {
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pub enum SparsityPatternFormatError {
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pub enum SparsityPatternFormatError {
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/// Indicates an invalid number of offsets.
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/// Indicates an invalid number of offsets.
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///
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///
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/// Indicates that column indices and values have different lengths.
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DifferentValuesIndicesLengths,
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/// The number of offsets must be equal to (major_dim + 1).
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/// The number of offsets must be equal to (major_dim + 1).
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InvalidOffsetArrayLength,
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InvalidOffsetArrayLength,
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/// Indicates that the first or last entry in the offset array did not conform to
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/// Indicates that the first or last entry in the offset array did not conform to
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@ -289,7 +291,8 @@ impl From<SparsityPatternFormatError> for SparseFormatError {
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use SparsityPatternFormatError::DuplicateEntry as PatternDuplicateEntry;
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use SparsityPatternFormatError::DuplicateEntry as PatternDuplicateEntry;
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use SparsityPatternFormatError::*;
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use SparsityPatternFormatError::*;
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match err {
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match err {
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InvalidOffsetArrayLength
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DifferentValuesIndicesLengths
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| InvalidOffsetArrayLength
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| InvalidOffsetFirstLast
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| InvalidOffsetFirstLast
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| NonmonotonicOffsets
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| NonmonotonicOffsets
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| NonmonotonicMinorIndices => {
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| NonmonotonicMinorIndices => {
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@ -310,6 +313,9 @@ impl From<SparsityPatternFormatError> for SparseFormatError {
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impl fmt::Display for SparsityPatternFormatError {
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impl fmt::Display for SparsityPatternFormatError {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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match self {
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match self {
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SparsityPatternFormatError::DifferentValuesIndicesLengths => {
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write!(f, "Lengths of values and column indices are not equal.")
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}
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SparsityPatternFormatError::InvalidOffsetArrayLength => {
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SparsityPatternFormatError::InvalidOffsetArrayLength => {
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write!(f, "Length of offset array is not equal to (major_dim + 1).")
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write!(f, "Length of offset array is not equal to (major_dim + 1).")
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}
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}
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23
nalgebra-sparse/src/utils.rs
Normal file
23
nalgebra-sparse/src/utils.rs
Normal file
@ -0,0 +1,23 @@
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//! Helper functions for sparse matrix computations
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/// Check that the first and last offsets conform to the specification of a CSR matrix
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#[inline]
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#[must_use]
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pub fn first_and_last_offsets_are_ok(
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major_offsets: &Vec<usize>,
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minor_indices: &Vec<usize>,
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) -> bool {
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let first_offset_ok = *major_offsets.first().unwrap() == 0;
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let last_offset_ok = *major_offsets.last().unwrap() == minor_indices.len();
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return first_offset_ok && last_offset_ok;
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}
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/// permutes entries of in_slice according to permutation slice and puts them to out_slice
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#[inline]
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pub fn apply_permutation<T: Clone>(out_slice: &mut [T], in_slice: &[T], permutation: &[usize]) {
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assert_eq!(out_slice.len(), in_slice.len());
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assert_eq!(out_slice.len(), permutation.len());
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for (out_element, old_pos) in out_slice.iter_mut().zip(permutation) {
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*out_element = in_slice[*old_pos].clone();
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}
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}
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@ -178,7 +178,7 @@ fn csr_matrix_valid_data_unsorted_column_indices() {
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4,
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4,
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vec![0, 1, 2, 5],
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vec![0, 1, 2, 5],
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vec![1, 3, 2, 3, 0],
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vec![1, 3, 2, 3, 0],
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vec![5, 4, 1, 1, 4],
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vec![5, 4, 1, 4, 1],
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)
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)
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.unwrap();
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.unwrap();
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@ -29,15 +29,3 @@ where
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use std::iter;
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use std::iter;
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iter::repeat(()).map(|_| g.gen()).find(f).unwrap()
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iter::repeat(()).map(|_| g.gen()).find(f).unwrap()
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}
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}
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/// Check that the first and last offsets conform to the specification of a CSR matrix
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#[inline]
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#[must_use]
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pub fn first_and_last_offsets_are_ok(
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major_offsets: &Vec<usize>,
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minor_indices: &Vec<usize>,
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) -> bool {
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let first_offset_ok = *major_offsets.first().unwrap() == 0;
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let last_offset_ok = *major_offsets.last().unwrap() == minor_indices.len();
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return first_offset_ok && last_offset_ok;
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}
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