Trait rulinalg::matrix::slice::BaseMatrixMut
[−]
[src]
pub trait BaseMatrixMut<T>: BaseMatrix<T> { 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 iter_mut<'a>(&mut self) -> SliceIterMut<'a, T> where T: 'a { ... } fn get_row_mut(&mut self, index: usize) -> Option<&mut [T]> { ... } unsafe fn get_row_unchecked_mut(&mut self, index: usize) -> &mut [T] { ... } fn swap_rows(&mut self, a: usize, b: usize) { ... } fn swap_cols(&mut self, a: usize, b: usize) { ... } fn iter_rows_mut(&mut self) -> RowsMut<T> { ... } fn set_to<M: BaseMatrix<T>>(self, target: M) where T: Copy { ... } fn apply(self, f: &Fn(T) -> 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 { ... } }
Trait for mutable matrices.
Required Methods
fn as_mut_ptr(&mut self) -> *mut T
Top left index of the slice.
Provided Methods
fn as_mut_slice(&mut self) -> MatrixSliceMut<T>
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();
unsafe fn get_unchecked_mut(&mut self, index: [usize; 2]) -> &mut T
Get a mutable reference to a point in the matrix without bounds checks.
fn iter_mut<'a>(&mut self) -> SliceIterMut<'a, T> where T: 'a
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_eq!(a.into_vec(), vec![0,1,2,3,6,7,6,9,10]);
fn get_row_mut(&mut self, index: usize) -> Option<&mut [T]>
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 a = Matrix::new(3,3, (0..9).collect::<Vec<usize>>()); let mut slice = a.sub_slice_mut([1,1], 2, 2); { let row = slice.get_row_mut(1); let mut expected = vec![7usize, 8]; assert_eq!(row, Some(&mut *expected)); } assert!(slice.get_row_mut(5).is_none());
unsafe fn get_row_unchecked_mut(&mut self, index: usize) -> &mut [T]
Returns a mutable reference to the row of a matrix at the given index without doing unbounds checking
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); let row = unsafe { slice.get_row_unchecked_mut(1) }; let mut expected = vec![7usize, 8]; assert_eq!(row, &mut *expected);
fn swap_rows(&mut self, a: usize, b: usize)
Swaps two rows in a matrix.
Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut}; let mut a = Matrix::new(4, 2, (0..8).collect::<Vec<_>>()); a.swap_rows(1, 3); assert_eq!(a.into_vec(), vec![0,1,6,7,4,5,2,3]);
Panics
Panics if a
or b
are out of bounds.
fn swap_cols(&mut self, a: usize, b: usize)
Swaps two columns in a matrix.
Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut}; let mut a = Matrix::new(4, 2, (0..8).collect::<Vec<_>>()); a.swap_cols(0, 1); assert_eq!(a.into_vec(), vec![1,0,3,2,5,4,7,6]);
Panics
Panics if a
or b
are out of bounds.
fn iter_rows_mut(&mut self) -> RowsMut<T>
Iterate over the mutable rows of the matrix.
Examples
use rulinalg::matrix::{Matrix, BaseMatrixMut}; let mut a = Matrix::new(3, 2, (0..6).collect::<Vec<usize>>()); for row in a.iter_rows_mut() { for r in row { *r = *r + 1; } } // Now contains the range 1..7 println!("{}", a);
fn set_to<M: BaseMatrix<T>>(self, target: M) where T: Copy
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.
fn apply(self, f: &Fn(T) -> T) -> Self where T: Copy
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.data(), vec![2.0; 4]);
fn split_at_mut(&mut self, mid: usize, axis: Axes) -> (MatrixSliceMut<T>, MatrixSliceMut<T>)
Split the matrix at the specified axis returning two MatrixSliceMut
s.
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);
fn sub_slice_mut<'a>(&mut self, start: [usize; 2], rows: usize, cols: usize) -> MatrixSliceMut<'a, T> where T: 'a
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
impl<T> BaseMatrixMut<T> for Matrix<T>
impl<'a, T> BaseMatrixMut<T> for MatrixSliceMut<'a, T>