pub trait BaseMatrixMut<T>: BaseMatrix<T> {
Show 18 methods fn as_mut_ptr(&mut self) -> *mut T; fn as_mut_slice(&mut self) -> MatrixSliceMut<'_, T> { ... } unsafe fn get_unchecked_mut(&mut self, index: [usize; 2]) -> &mut T { ... } fn get_mut(&mut self, index: [usize; 2]) -> Option<&mut T> { ... } fn iter_mut<'a>(&mut self) -> SliceIterMut<'a, T>
    where
        T: 'a
, { ... } fn col_mut(&mut self, index: usize) -> ColumnMut<'_, T> { ... } unsafe fn col_unchecked_mut(&mut self, index: usize) -> ColumnMut<'_, T> { ... } fn row_mut(&mut self, index: usize) -> RowMut<'_, T> { ... } unsafe fn row_unchecked_mut(&mut self, index: usize) -> RowMut<'_, T> { ... } fn swap_rows(&mut self, a: usize, b: usize) { ... } fn swap_cols(&mut self, a: usize, b: usize) { ... } fn col_iter_mut(&mut self) -> ColsMut<'_, T> { ... } fn row_iter_mut(&mut self) -> RowsMut<'_, T> { ... } fn diag_iter_mut(&mut self, k: DiagOffset) -> DiagonalMut<'_, T, Self> { ... } fn set_to<M>(self, target: M)
    where
        M: BaseMatrix<T>,
        T: Copy
, { ... } fn apply(self, f: &dyn Fn(T)) -> Self
    where
        T: Copy
, { ... } fn split_at_mut(
        &mut self,
        mid: usize,
        axis: Axes
    ) -> (MatrixSliceMut<'_, T>, MatrixSliceMut<'_, T>) { ... } fn sub_slice_mut<'a>(
        &mut self,
        start: [usize; 2],
        rows: usize,
        cols: usize
    ) -> MatrixSliceMut<'a, T>
    where
        T: 'a
, { ... }
}
Expand description

Trait for mutable matrices.

Required Methods

Top left index of the slice.

Provided Methods

Returns a MatrixSliceMut over the whole matrix.

Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut a = Matrix::new(3, 3, vec![2.0; 9]);
let b = a.as_mut_slice();

Get a mutable reference to an element in the matrix without bounds checks.

Get a mutable reference to an element in the matrix.

Examples
use rulinalg::matrix::{Matrix, BaseMatrix, BaseMatrixMut};

let mut mat = matrix![0, 1;
                      3, 4;
                      6, 7];

assert_eq!(mat.get_mut([0, 2]), None);
assert_eq!(mat.get_mut([3, 0]), None);

assert_eq!(*mat.get_mut([0, 0]).unwrap(), 0);
*mat.get_mut([0,0]).unwrap() = 2;
assert_eq!(*mat.get_mut([0, 0]).unwrap(), 2);

Returns a mutable iterator over the matrix.

Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut a = Matrix::new(3,3, (0..9).collect::<Vec<usize>>());

{
    let mut slice = a.sub_slice_mut([1,1], 2, 2);

    for d in slice.iter_mut() {
        *d = *d + 2;
    }
}

// Only the matrix slice is updated.
assert_matrix_eq!(a, matrix![0, 1, 2; 3, 6, 7; 6, 9, 10]);

Returns a mutable reference to the column of a matrix at the given index. None if the index is out of bounds.

Examples

use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut mat = matrix![0, 1, 2;
                      3, 4, 5;
                      6, 7, 8];
let mut slice = mat.sub_slice_mut([1,1], 2, 2);
{
    let col = slice.col_mut(1);
    let mut expected = matrix![5usize; 8];
    assert_matrix_eq!(*col, expected);
}
Panics

Will panic if the column index is out of bounds.

Returns a mutable reference to the column of a matrix at the given index without doing a bounds check.

Examples

use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut mat = matrix![0, 1, 2;
                      3, 4, 5;
                      6, 7, 8];
let mut slice = mat.sub_slice_mut([1,1], 2, 2);
let col = unsafe { slice.col_unchecked_mut(1) };
let mut expected = matrix![5usize; 8];
assert_matrix_eq!(*col, expected);

Returns a mutable reference to the row of a matrix at the given index. None if the index is out of bounds.

Examples

use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut mat = matrix![0, 1, 2;
                      3, 4, 5;
                      6, 7, 8];
let mut slice = mat.sub_slice_mut([1,1], 2, 2);
{
    let row = slice.row_mut(1);
    let mut expected = matrix![7usize, 8];
    assert_matrix_eq!(*row, expected);
}
Panics

Will panic if the row index is out of bounds.

Returns a mutable reference to the row of a matrix at the given index without doing a bounds check.

Examples

use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut mat = matrix![0, 1, 2;
                      3, 4, 5;
                      6, 7, 8];
let mut slice = mat.sub_slice_mut([1,1], 2, 2);
let row = unsafe { slice.row_unchecked_mut(1) };
let mut expected = matrix![7usize, 8];
assert_matrix_eq!(*row, expected);

Swaps two rows in a matrix.

If a == b, this method does nothing.

Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut x = matrix![0, 1;
                    2, 3;
                    4, 5;
                    6, 7];

x.swap_rows(1, 3);
let expected = matrix![0, 1;
                       6, 7;
                       4, 5;
                       2, 3];

assert_matrix_eq!(x, expected);
Panics

Panics if a or b are out of bounds.

Swaps two columns in a matrix.

If a == b, this method does nothing.

Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut x = matrix![0, 1;
                    2, 3;
                    4, 5];

x.swap_cols(0, 1);
let expected = matrix![1, 0;
                       3, 2;
                       5, 4];

assert_matrix_eq!(x, expected);
Panics

Panics if a or b are out of bounds.

Iterate over the mutable columns of the matrix.

Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut a = matrix![0, 1;
                    2, 3;
                    4, 5];

for mut col in a.col_iter_mut() {
    *col += 1;
}

// Now contains the range 1..7
println!("{}", a);

Iterate over the mutable rows of the matrix.

Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut a = matrix![0, 1;
                    2, 3;
                    4, 5];

for mut row in a.row_iter_mut() {
    *row += 1;
}

// Now contains the range 1..7
println!("{}", a);

Iterate over diagonal entries mutably

Examples

use rulinalg::matrix::{Matrix, BaseMatrixMut, DiagOffset};

let mut a = matrix![0, 1, 2;
                    3, 4, 5;
                    6, 7, 8];

// Increment super diag
for d in a.diag_iter_mut(DiagOffset::Above(1)) {
    *d = *d + 1;
}

// Zero the sub-diagonal (sets 3 and 7 to 0)
// Equivalent to `diag_iter(DiagOffset::Below(1))`
for sub_d in a.diag_iter_mut(DiagOffset::from(-1)) {
    *sub_d = 0;
}

println!("{}", a);
Panics

If using an Above or Below offset which is out-of-bounds this function will panic.

This function will never panic if the Main diagonal offset is used.

Sets the underlying matrix data to the target data.

Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut};

let mut mat = Matrix::<f32>::zeros(4,4);
let one_block = Matrix::<f32>::ones(2,2);

// Get a mutable slice of the upper left 2x2 block.
let mat_block = mat.sub_slice_mut([0,0], 2, 2);

// Set the upper left 2x2 block to be ones.
mat_block.set_to(one_block);
Panics

Panics if the dimensions of self and target are not the same.

Applies a function to each element in the matrix.

Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut};

fn add_two(a: f64) -> f64 {
    a + 2f64
}

let a = Matrix::new(2, 2, vec![0.;4]);

let b = a.apply(&add_two);

assert_eq!(b, matrix![2.0, 2.0; 2.0, 2.0]);

Split the matrix at the specified axis returning two MatrixSliceMuts.

Examples
use rulinalg::matrix::{Axes, Matrix, BaseMatrixMut};

let mut a = Matrix::new(3,3, vec![2.0; 9]);
let (b, c) = a.split_at_mut(1, Axes::Col);

Produce a MatrixSliceMut from an existing matrix.

Examples
use rulinalg::matrix::{Matrix, MatrixSliceMut, BaseMatrixMut};

let mut a = Matrix::new(3,3, (0..9).collect::<Vec<usize>>());
let mut slice = MatrixSliceMut::from_matrix(&mut a, [1,1], 2, 2);
let new_slice = slice.sub_slice_mut([0,0], 1, 1);

Implementors