forked from M-Labs/nalgebra
add support for matrix market export
This commit is contained in:
parent
6cc633474d
commit
d511e372de
@ -37,4 +37,4 @@ nalgebra = { version="0.30", path = "../", features = ["compare"] }
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[package.metadata.docs.rs]
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# Enable certain features when building docs for docs.rs
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features = [ "proptest-support", "compare" ]
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features = [ "proptest-support", "compare" , "io"]
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@ -1,9 +1,10 @@
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//! Implementation of matrix market io code.
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//!
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//! See the [website](https://math.nist.gov/MatrixMarket/formats.html) or the [paper](https://www.researchgate.net/publication/2630533_The_Matrix_Market_Exchange_Formats_Initial_Design) for more details about matrix market.
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use crate::coo::CooMatrix;
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use crate::CooMatrix;
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use crate::SparseFormatError;
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use crate::SparseFormatErrorKind;
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use matrixcompare_core::SparseAccess;
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use nalgebra::Complex;
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use pest::iterators::Pairs;
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use pest::Parser;
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@ -12,7 +13,8 @@ use std::convert::Infallible;
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use std::convert::TryFrom;
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use std::fmt;
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use std::fmt::Formatter;
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use std::fs;
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use std::fs::{self, File};
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use std::io::Write;
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use std::num::ParseIntError;
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use std::num::TryFromIntError;
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use std::path::Path;
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@ -267,7 +269,7 @@ impl fmt::Display for MatrixMarketError {
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write!(f, "InvalidHeader,")?;
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}
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MatrixMarketErrorKind::EntryMismatch => {
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write!(f, "EntryNumUnmatched,")?;
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write!(f, "EntryMismatch,")?;
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}
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MatrixMarketErrorKind::TypeMismatch => {
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write!(f, "TypeMismatch,")?;
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@ -288,7 +290,7 @@ impl fmt::Display for MatrixMarketError {
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write!(f, "NotLowerTriangle,")?;
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}
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MatrixMarketErrorKind::NonSquare => {
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write!(f, "NotSquareMatrix,")?;
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write!(f, "NonSquare,")?;
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}
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}
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write!(f, " message: {}", self.message)
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@ -506,6 +508,10 @@ mod internal {
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fn negative(self) -> Result<Self, MatrixMarketError>;
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/// When matrix is a Hermitian matrix, it will convert itself to its conjugate.
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fn conjugate(self) -> Result<Self, MatrixMarketError>;
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/// Returns the name of SupportedMatrixMarketScalar, used when write the matrix
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fn typename() -> &'static str;
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/// Convert the data to string
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fn to_matrixmarket_string(&self) -> String;
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}
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}
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@ -557,6 +563,14 @@ macro_rules! mm_int_impl {
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fn negative(self) -> Result<Self, MatrixMarketError> {
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Ok(-self)
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}
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#[inline]
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fn typename() -> &'static str {
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"integer"
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}
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#[inline]
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fn to_matrixmarket_string(&self) -> String {
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self.to_string()
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}
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}
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};
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}
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@ -602,6 +616,14 @@ macro_rules! mm_real_impl {
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fn negative(self) -> Result<Self, MatrixMarketError> {
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Ok(-self)
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}
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#[inline]
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fn typename() -> &'static str {
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"real"
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}
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#[inline]
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fn to_matrixmarket_string(&self) -> String {
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self.to_string()
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}
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}
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};
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}
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@ -648,6 +670,14 @@ macro_rules! mm_complex_impl {
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fn negative(self) -> Result<Self, MatrixMarketError> {
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Ok(-self)
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}
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#[inline]
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fn typename() -> &'static str {
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"complex"
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}
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#[inline]
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fn to_matrixmarket_string(&self) -> String {
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self.re.to_string() + " " + &self.im.to_string()
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}
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}
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};
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}
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@ -697,6 +727,15 @@ macro_rules! mm_pattern_impl {
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format!("Pattern type has no negative"),
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))
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}
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#[inline]
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fn typename() -> &'static str {
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"pattern"
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}
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#[inline]
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fn to_matrixmarket_string(&self) -> String {
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// pattern type will return an empty string
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String::new()
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}
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}
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};
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}
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@ -1329,3 +1368,89 @@ fn next_dense_coordinate(
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}
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}
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}
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/// Write a sparse matrix into Matrix Market format string.
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///
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/// Our exporter only writes matrix into `coordiante` and `general` format.
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///
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///
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/// Examples
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/// --------
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/// ```
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/// # use matrixcompare::assert_matrix_eq;
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/// use nalgebra_sparse::io::{write_to_matrix_market_str,load_coo_from_matrix_market_str};
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/// let str = r#"
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/// %%matrixmarket matrix coordinate integer general
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/// 5 4 2
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/// 1 1 10
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/// 2 3 5
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/// "#;
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/// let matrix = load_coo_from_matrix_market_str::<i32>(&str).unwrap();
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/// let generated_matrixmarket_string = write_to_matrix_market_str(&matrix);
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/// // 'generated_matrixmarket' should equal to the 'matrix'
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/// let generated_matrixmarket = load_coo_from_matrix_market_str::<i32>(&generated_matrixmarket_string).unwrap();
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/// assert_matrix_eq!(matrix,generated_matrixmarket);
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/// ```
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pub fn write_to_matrix_market_str<T: MatrixMarketScalar, S: SparseAccess<T>>(
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sparse_matrix: &S,
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) -> String {
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let mut matrixmarket_string = String::new();
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// write header
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matrixmarket_string.push_str("%%matrixmarket matrix coordinate ");
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matrixmarket_string.push_str(T::typename());
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matrixmarket_string.push_str(" general\n% matrixmarket file generated by nalgebra-sparse.\n");
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// write shape information
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matrixmarket_string.push_str(&sparse_matrix.rows().to_string());
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matrixmarket_string.push(' ');
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matrixmarket_string.push_str(&sparse_matrix.cols().to_string());
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matrixmarket_string.push(' ');
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matrixmarket_string.push_str(&sparse_matrix.nnz().to_string());
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matrixmarket_string.push('\n');
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for (r, c, d) in sparse_matrix.fetch_triplets() {
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matrixmarket_string.push_str(&(r + 1).to_string());
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matrixmarket_string.push_str(" ");
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matrixmarket_string.push_str(&(c + 1).to_string());
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matrixmarket_string.push_str(" ");
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matrixmarket_string.push_str(&d.to_matrixmarket_string());
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matrixmarket_string.push_str("\n");
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}
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matrixmarket_string
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}
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/// Write a sparse matrix into Matrix Market format file.
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///
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/// Our exporter only writes matrix into `coordiante` and `general` format.
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///
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///
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/// Errors
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/// --------
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///
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/// See [MatrixMarketErrorKind] for a list of possible error conditions.
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///
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/// Examples
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/// --------
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/// ```
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/// use nalgebra_sparse::io::{write_to_matrix_market_file,load_coo_from_matrix_market_str};
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/// let str = r#"
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/// %%matrixmarket matrix coordinate integer general
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/// 5 4 2
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/// 1 1 10
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/// 2 3 5
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/// "#;
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/// let matrix = load_coo_from_matrix_market_str::<i32>(&str).unwrap();
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/// let res = write_to_matrix_market_file(&matrix,"path/to/matrix.mtx");
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/// if res.is_err(){
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/// // do something
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/// }
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/// ```
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pub fn write_to_matrix_market_file<T: MatrixMarketScalar, S: SparseAccess<T>, P: AsRef<Path>>(
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matrix: &S,
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path: P,
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) -> Result<(), MatrixMarketError> {
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let matrixmarket_string = write_to_matrix_market_str(matrix);
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let mut file = File::create(path)?;
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write!(file, "{}", matrixmarket_string)?;
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Ok(())
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}
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@ -6,7 +6,7 @@
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//!
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//! | Format | Import | Export |
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//! | ------------------------------------------------|------------|------------|
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//! | [Matrix market](#matrix-market-format) | Yes | No |
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//! | [Matrix market](#matrix-market-format) | Yes | Yes |
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//!
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//! [Matrix market]: https://math.nist.gov/MatrixMarket/formats.html
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//!
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@ -32,7 +32,7 @@
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//! > "*The Matrix Market Exchange Formats: Initial Design.*" (1996).
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pub use self::matrix_market::{
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load_coo_from_matrix_market_file, load_coo_from_matrix_market_str, MatrixMarketError,
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MatrixMarketErrorKind, MatrixMarketScalar,
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load_coo_from_matrix_market_file, load_coo_from_matrix_market_str, write_to_matrix_market_file,
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write_to_matrix_market_str, MatrixMarketError, MatrixMarketErrorKind, MatrixMarketScalar,
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};
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mod matrix_market;
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@ -1,7 +1,7 @@
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use matrixcompare::assert_matrix_eq;
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use nalgebra::dmatrix;
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use nalgebra::Complex;
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use nalgebra_sparse::io::load_coo_from_matrix_market_str;
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use nalgebra_sparse::io::{load_coo_from_matrix_market_str, write_to_matrix_market_str};
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use nalgebra_sparse::CooMatrix;
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#[test]
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@ -19,6 +19,10 @@ fn test_matrixmarket_sparse_real_general_empty() {
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assert_eq!(sparse_mat.nrows(), shape.0);
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assert_eq!(sparse_mat.ncols(), shape.1);
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assert_eq!(sparse_mat.nnz(), 0);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<f32>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(sparse_mat, generated_matrix);
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}
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}
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@ -37,6 +41,10 @@ fn test_matrixmarket_dense_real_general_empty() {
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assert_eq!(sparse_mat.nrows(), shape.0);
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assert_eq!(sparse_mat.ncols(), shape.1);
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assert_eq!(sparse_mat.nnz(), 0);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<f32>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(sparse_mat, generated_matrix);
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}
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}
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@ -97,6 +105,10 @@ fn test_matrixmarket_sparse_real_general() {
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0.0, 0.0, 0.0, 0.0, 12.0;
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<f32>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(expected, generated_matrix);
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}
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#[test]
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@ -125,6 +137,10 @@ fn test_matrixmarket_sparse_int_symmetric() {
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-15, 0, 35, 0, 55;
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<i128>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(expected, generated_matrix);
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}
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#[test]
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@ -152,6 +168,10 @@ fn test_matrixmarket_sparse_complex_hermitian() {
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Complex::<f64>{re:0.0,im:0.0}, Complex::<f64>{re:0.0,im:0.0}, Complex::<f64>{re:0.0,im:0.0}, Complex::<f64>{re:0.0,im:33.32},Complex::<f64>{re:12.0,im:0.0};
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<Complex<f64>>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(expected, generated_matrix);
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}
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#[test]
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@ -175,6 +195,10 @@ fn test_matrixmarket_sparse_real_skew() {
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-15.0, 0.0, -35.0, 0.0, 0.0;
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<f64>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(expected, generated_matrix);
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}
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#[test]
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@ -198,7 +222,7 @@ fn test_matrixmarket_sparse_pattern_general() {
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let pattern_matrix = load_coo_from_matrix_market_str::<()>(file_str).unwrap();
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let nrows = pattern_matrix.nrows();
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let ncols = pattern_matrix.ncols();
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let (row_idx, col_idx, val) = pattern_matrix.disassemble();
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let (row_idx, col_idx, val) = pattern_matrix.clone().disassemble();
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let values = vec![1; val.len()];
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let sparse_mat = CooMatrix::try_from_triplets(nrows, ncols, row_idx, col_idx, values).unwrap();
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let expected = dmatrix![
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@ -209,6 +233,17 @@ fn test_matrixmarket_sparse_pattern_general() {
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0, 1, 0, 1, 1;
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&pattern_matrix);
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let generated_matrix = load_coo_from_matrix_market_str::<()>(&generated_matrixmarket_str).unwrap();
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let nrows = generated_matrix.nrows();
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let ncols = generated_matrix.ncols();
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let (row_idx, col_idx, val) = generated_matrix.clone().disassemble();
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let values = vec![1; val.len()];
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let generated_sparse_mat = CooMatrix::try_from_triplets(nrows, ncols, row_idx, col_idx, values).unwrap();
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assert_matrix_eq!(expected, generated_sparse_mat);
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}
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#[test]
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@ -240,6 +275,10 @@ fn test_matrixmarket_dense_real_general() {
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4.0, 8.0, 12.0;
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<f32>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(expected, generated_matrix);
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}
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#[test]
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@ -269,6 +308,10 @@ fn test_matrixmarket_dense_real_symmetric() {
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4.0, 7.0, 9.0, 10.0;
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<f32>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(expected, generated_matrix);
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}
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#[test]
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@ -298,6 +341,10 @@ fn test_matrixmarket_dense_complex_hermitian() {
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Complex::<f64>{re:4.0,im:4.0}, Complex::<f64>{re:7.0,im:7.0} ,Complex::<f64>{re:9.0,im:9.0} ,Complex::<f64>{re:10.0,im:0.0};
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<Complex<f64>>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(expected, generated_matrix);
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}
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#[test]
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@ -322,6 +369,10 @@ fn test_matrixmarket_dense_int_skew() {
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3, 5, 6, 0;
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<i32>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(expected, generated_matrix);
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}
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#[test]
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@ -342,4 +393,8 @@ fn test_matrixmarket_dense_complex_general() {
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Complex::<f32>{re:1.0,im:0.0},Complex::<f32>{re:1.0,im:0.0};
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];
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assert_matrix_eq!(sparse_mat, expected);
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let generated_matrixmarket_str = write_to_matrix_market_str(&sparse_mat);
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let generated_matrix = load_coo_from_matrix_market_str::<Complex<f32>>(&generated_matrixmarket_str).unwrap();
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assert_matrix_eq!(expected, generated_matrix);
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}
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