forked from M-Labs/nalgebra
Fix typos
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4569484aa0
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e2820316a8
@ -498,7 +498,7 @@ mod internal {
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fn from_i128(i: i128) -> Result<Self, MatrixMarketError>;
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/// When matrix is a Real matrix, it will convert a [f64] number to this type.
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fn from_f64(f: f64) -> Result<Self, MatrixMarketError>;
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/// When matrix is a Complx matrix, it will convert a [Complex<f64>] number to this type.
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/// When matrix is a Complex matrix, it will convert a [Complex<f64>] number to this type.
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fn from_c64(c: Complex<f64>) -> Result<Self, MatrixMarketError>;
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/// When matrix is a Pattern matrix, it will convert a unit type [unit] to this type.
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fn from_pattern(p: ()) -> Result<Self, MatrixMarketError>;
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@ -806,10 +806,10 @@ where
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// used when constructing dense matrix.
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// If it's sparse matrix, it has no effect.
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let mut current_dense_coordiante: (usize, usize) = (0, 0);
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let mut current_dense_coordinate: (usize, usize) = (0, 0);
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if header_type.storagescheme == StorageScheme::Skew {
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// for skew dense matrix, the first element starts from (1,0)
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current_dense_coordiante = (1, 0);
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current_dense_coordinate = (1, 0);
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}
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// count how many entries in the matrix data
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let count = lines.clone().count();
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@ -860,12 +860,12 @@ where
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..
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} => {
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entry = (
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current_dense_coordiante.0,
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current_dense_coordiante.1,
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current_dense_coordinate.0,
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current_dense_coordinate.1,
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parse_dense_complex::<T>(&mut data_line.into_inner())?,
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);
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next_dense_coordiante(
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&mut current_dense_coordiante,
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next_dense_coordinate(
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&mut current_dense_coordinate,
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shape,
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&header_type.storagescheme,
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);
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@ -876,13 +876,13 @@ where
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..
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} => {
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entry = (
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current_dense_coordiante.0,
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current_dense_coordiante.1,
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current_dense_coordinate.0,
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current_dense_coordinate.1,
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parse_dense_real::<T>(&mut data_line.into_inner())?,
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);
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next_dense_coordiante(
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&mut current_dense_coordiante,
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next_dense_coordinate(
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&mut current_dense_coordinate,
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shape,
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&header_type.storagescheme,
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);
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@ -893,12 +893,12 @@ where
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..
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} => {
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entry = (
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current_dense_coordiante.0,
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current_dense_coordiante.1,
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current_dense_coordinate.0,
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current_dense_coordinate.1,
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parse_dense_int::<T>(&mut data_line.into_inner())?,
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);
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next_dense_coordiante(
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&mut current_dense_coordiante,
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next_dense_coordinate(
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&mut current_dense_coordinate,
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shape,
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&header_type.storagescheme,
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);
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@ -1023,7 +1023,7 @@ fn parse_header(inner: &mut Pairs<'_, Rule>) -> Typecode {
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// Parse shape starts here-------------------------------------------------
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/// Parse a pest structure to sparse shape information, including 3 int, which are number of rols, cols and non-zeros.
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/// Parse a pest structure to sparse shape information, including 3 int, which are number of rows, cols and non-zeros.
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fn parse_sparse_shape(
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inner: &mut Pairs<'_, Rule>,
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storagescheme: &StorageScheme,
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@ -1054,7 +1054,7 @@ fn parse_sparse_shape(
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));
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}
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// check for square matirx, when it's not a general matrix
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// check for square matrix, when it's not a general matrix
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if *storagescheme != StorageScheme::General && r != c {
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return Err(MatrixMarketError::from_kind_and_message(MatrixMarketErrorKind::NonSquare, format!("(Skew-)Symmetric or hermitian matrix should be square matrix, but it has dimension {} and {}", r, c)));
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}
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@ -1062,7 +1062,7 @@ fn parse_sparse_shape(
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Ok((r, c, nnz))
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}
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/// Parse a pest structure to dense shape information, including 2 int, which are number of rols, cols.
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/// Parse a pest structure to dense shape information, including 2 int, which are number of rows, cols.
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fn parse_dense_shape(
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inner: &mut Pairs<'_, Rule>,
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storagescheme: &StorageScheme,
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@ -1090,7 +1090,7 @@ fn parse_dense_shape(
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));
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}
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// check for square matirx, when it's not a general matrix
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// check for square matrix, when it's not a general matrix
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if *storagescheme != StorageScheme::General && r != c {
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return Err(MatrixMarketError::from_kind_and_message(MatrixMarketErrorKind::NonSquare, format!("(Skew-)Symmetric or hermitian matrix should be square matrix, but it has dimension {} and {}", r, c)));
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}
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@ -1121,7 +1121,7 @@ fn parse_dense_shape(
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// Parse entry starts here-------------------------------------------------
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/// Parse a pest structure to sparse real entry, including 2 int, which are number of rols, cols, and a real number as data
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/// Parse a pest structure to sparse real entry, including 2 int, which are number of rows, cols, and a real number as data
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fn parse_sparse_real<T>(inner: &mut Pairs<'_, Rule>) -> Result<(usize, usize, T), MatrixMarketError>
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where
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T: MatrixMarketScalar,
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@ -1130,17 +1130,17 @@ where
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let entry_inner = inner.next().unwrap();
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if entry_inner.as_rule() != Rule::SparseReal {
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return Err(MatrixMarketError::from_kind_and_message(MatrixMarketErrorKind::ParsingError,format!("
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Spare real matrix requires 2 int number as coordiantes and 1 real number as data, but line {} was provided.
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Spare real matrix requires 2 int number as coordinates and 1 real number as data, but line {} was provided.
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",entry_inner.as_str() )));
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}
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let mut inner = entry_inner.into_inner();
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let (r, c) = parse_sparse_coordiante(&mut inner)?;
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let (r, c) = parse_sparse_coordinate(&mut inner)?;
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let d = inner.next().unwrap().as_str().parse::<f64>().unwrap();
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Ok((r, c, T::from_f64(d)?))
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}
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/// Parse a pest structure to sparse integer entry, including 2 int, which are number of rols, cols, and a int number as data
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/// Parse a pest structure to sparse integer entry, including 2 int, which are number of rows, cols, and a int number as data
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fn parse_sparse_int<T>(inner: &mut Pairs<'_, Rule>) -> Result<(usize, usize, T), MatrixMarketError>
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where
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T: MatrixMarketScalar,
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@ -1153,20 +1153,20 @@ where
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MatrixMarketErrorKind::ParsingError,
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format!(
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"
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Spare real matrix requires 3 int number as coordiantes and data, but line {} was provided.
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Spare real matrix requires 3 int number as coordinates and data, but line {} was provided.
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",
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entry_inner.as_str()
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),
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));
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}
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let mut inner = entry_inner.into_inner();
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let (r, c) = parse_sparse_coordiante(&mut inner)?;
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let (r, c) = parse_sparse_coordinate(&mut inner)?;
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// Here to guarantee it is an integer number
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let d = inner.next().unwrap().as_str().parse::<i128>()?;
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Ok((r, c, T::from_i128(d)?))
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}
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/// Parse a pest structure to sparse pattern entry, including 2 int, which are number of rols, cols
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/// Parse a pest structure to sparse pattern entry, including 2 int, which are number of rows, cols
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fn parse_sparse_pattern<T>(
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inner: &mut Pairs<'_, Rule>,
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) -> Result<(usize, usize, T), MatrixMarketError>
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@ -1180,18 +1180,18 @@ where
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MatrixMarketErrorKind::ParsingError,
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format!(
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"
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Spare real matrix requires 2 int number as coordiantes, but line {} was provided.
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Spare real matrix requires 2 int number as coordinates, but line {} was provided.
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",
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entry_inner.as_str()
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),
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));
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}
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let mut inner = entry_inner.into_inner();
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let (r, c) = parse_sparse_coordiante(&mut inner)?;
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let (r, c) = parse_sparse_coordinate(&mut inner)?;
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Ok((r, c, T::from_pattern(())?))
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}
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/// Parse a pest structure to sparse complex entry, including 2 int, which are number of rols, cols, and 2 real number as complex data
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/// Parse a pest structure to sparse complex entry, including 2 int, which are number of rows, cols, and 2 real number as complex data
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fn parse_sparse_complex<T>(
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inner: &mut Pairs<'_, Rule>,
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) -> Result<(usize, usize, T), MatrixMarketError>
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@ -1202,11 +1202,11 @@ where
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let entry_inner = inner.next().unwrap();
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if entry_inner.as_rule() != Rule::SparseComplex {
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return Err(MatrixMarketError::from_kind_and_message(MatrixMarketErrorKind::ParsingError,format!("
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Spare real matrix requires 2 int number as coordiantes and 2 real number as complex data, but line {} was provided.
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Spare real matrix requires 2 int number as coordinates and 2 real number as complex data, but line {} was provided.
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",entry_inner.as_str() )));
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}
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let mut inner = entry_inner.into_inner();
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let (r, c) = parse_sparse_coordiante(&mut inner)?;
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let (r, c) = parse_sparse_coordinate(&mut inner)?;
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let real = inner.next().unwrap().as_str().parse::<f64>().unwrap();
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let imag = inner.next().unwrap().as_str().parse::<f64>().unwrap();
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let complex = Complex::<f64>::new(real, imag);
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@ -1292,8 +1292,8 @@ where
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// Parse entry ends here-------------------------------------------------
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/// Parse the coordiantes information used for sparse matrix
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fn parse_sparse_coordiante(
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/// Parse the coordinates information used for sparse matrix
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fn parse_sparse_coordinate(
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inner: &mut Pairs<'_, Rule>,
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) -> Result<(usize, usize), MatrixMarketError> {
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// unwrap() in this function are guaranteed by parsing the data
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@ -1302,51 +1302,51 @@ fn parse_sparse_coordiante(
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if r * c == 0 {
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return Err(MatrixMarketError::from_kind_and_message(
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MatrixMarketErrorKind::ZeroError,
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String::from("The data has to be one-indixed"),
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String::from("The data has to be one-indexed"),
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));
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}
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// The coordiantes in matrix market is one-based, but in CooMatrix is zero-based.
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// The coordinates in matrix market is one-based, but in CooMatrix is zero-based.
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Ok((r - 1, c - 1))
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}
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/// Calculate the next coordiantes used for dense matrix
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fn next_dense_coordiante(
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current_dense_coordiante: &mut (usize, usize),
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/// Calculate the next coordinates used for dense matrix
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fn next_dense_coordinate(
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current_dense_coordinate: &mut (usize, usize),
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shape: (usize, usize, usize),
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storagescheme: &StorageScheme,
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) {
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// matrix market is column based format.
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// so it follows the order (0,0) -> (1,0) -> ... -> (row, 0) -> (0,1) -> ... ->(row,col)
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// current_dense_coordiante is (row, column)
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// current_dense_coordinate is (row, column)
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match storagescheme {
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StorageScheme::General => {
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if current_dense_coordiante.0 < shape.0 - 1 {
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current_dense_coordiante.0 += 1
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if current_dense_coordinate.0 < shape.0 - 1 {
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current_dense_coordinate.0 += 1
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} else {
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// jump to next column, reset row to 1, column add 1
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current_dense_coordiante.0 = 0;
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current_dense_coordiante.1 += 1;
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current_dense_coordinate.0 = 0;
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current_dense_coordinate.1 += 1;
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}
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}
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StorageScheme::Symmetric | StorageScheme::Hermitian => {
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if current_dense_coordiante.0 < shape.0 - 1 {
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current_dense_coordiante.0 += 1
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if current_dense_coordinate.0 < shape.0 - 1 {
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current_dense_coordinate.0 += 1
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} else {
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// jump to next column, column add 1, then set row equals to current column
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// for example (0,0) -> (1,0) -> ... -> (row, 0) -> (1,1) -> ...
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current_dense_coordiante.1 += 1;
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current_dense_coordiante.0 = current_dense_coordiante.1;
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current_dense_coordinate.1 += 1;
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current_dense_coordinate.0 = current_dense_coordinate.1;
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}
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}
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StorageScheme::Skew => {
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if current_dense_coordiante.0 < shape.0 - 1 {
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current_dense_coordiante.0 += 1;
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if current_dense_coordinate.0 < shape.0 - 1 {
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current_dense_coordinate.0 += 1;
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} else {
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// jump to next column, set row equals to current column, then column add 1
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// skew matrix doesn't have element on diagonal
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// for example (1,0) -> (2,0) -> ... -> (row, 0) -> (2,1) -> ...
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current_dense_coordiante.1 += 1;
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current_dense_coordiante.0 = current_dense_coordiante.1 + 1;
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current_dense_coordinate.1 += 1;
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current_dense_coordinate.0 = current_dense_coordinate.1 + 1;
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}
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}
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}
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