nalgebra/src/base/indexing.rs

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//! Indexing
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#![allow(clippy::reversed_empty_ranges)]
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use crate::base::storage::{RawStorage, RawStorageMut};
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use crate::base::{
Const, Dim, DimDiff, DimName, DimSub, Dynamic, Matrix, MatrixSlice, MatrixSliceMut, Scalar, U1,
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};
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use std::ops;
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// N.B.: Not a public trait!
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trait DimRange<D: Dim> {
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/// The number of elements indexed by this range.
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type Length: Dim;
/// The lower bound of the range, inclusive.
fn lower(&self, dimension: D) -> usize;
/// The number of elements included in the range.
fn length(&self, dimension: D) -> Self::Length;
/// Produces true if `Self` is contained within `dimension`.
fn contained_by(&self, dimension: D) -> bool;
}
impl<D: Dim> DimRange<D> for usize {
type Length = U1;
#[inline(always)]
fn lower(&self, _: D) -> usize {
*self
}
#[inline(always)]
fn length(&self, _: D) -> Self::Length {
Const::<1>
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}
#[inline(always)]
fn contained_by(&self, dimension: D) -> bool {
*self < dimension.value()
}
}
#[test]
fn dimrange_usize() {
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assert!(!DimRange::contained_by(&0, Const::<0>));
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assert!(DimRange::contained_by(&0, Const::<1>));
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}
impl<D: Dim> DimRange<D> for ops::Range<usize> {
type Length = Dynamic;
#[inline(always)]
fn lower(&self, _: D) -> usize {
self.start
}
#[inline(always)]
fn length(&self, _: D) -> Self::Length {
Dynamic::new(self.end.saturating_sub(self.start))
}
#[inline(always)]
fn contained_by(&self, dimension: D) -> bool {
(self.start < dimension.value()) && (self.end <= dimension.value())
}
}
#[test]
fn dimrange_range_usize() {
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assert!(!DimRange::contained_by(&(0..0), Const::<0>));
assert!(!DimRange::contained_by(&(0..1), Const::<0>));
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assert!(DimRange::contained_by(&(0..1), Const::<1>));
assert!(DimRange::contained_by(
&((usize::MAX - 1)..usize::MAX),
Dynamic::new(usize::MAX)
));
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assert_eq!(
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DimRange::length(&((usize::MAX - 1)..usize::MAX), Dynamic::new(usize::MAX)),
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Dynamic::new(1)
);
assert_eq!(
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DimRange::length(&(usize::MAX..(usize::MAX - 1)), Dynamic::new(usize::MAX)),
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Dynamic::new(0)
);
assert_eq!(
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DimRange::length(&(usize::MAX..usize::MAX), Dynamic::new(usize::MAX)),
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Dynamic::new(0)
);
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}
impl<D: Dim> DimRange<D> for ops::RangeFrom<usize> {
type Length = Dynamic;
#[inline(always)]
fn lower(&self, _: D) -> usize {
self.start
}
#[inline(always)]
fn length(&self, dimension: D) -> Self::Length {
(self.start..dimension.value()).length(dimension)
}
#[inline(always)]
fn contained_by(&self, dimension: D) -> bool {
self.start < dimension.value()
}
}
#[test]
fn dimrange_rangefrom_usize() {
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assert!(!DimRange::contained_by(&(0..), Const::<0>));
assert!(!DimRange::contained_by(&(0..), Const::<0>));
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assert!(DimRange::contained_by(&(0..), Const::<1>));
assert!(DimRange::contained_by(
&((usize::MAX - 1)..),
Dynamic::new(usize::MAX)
));
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assert_eq!(
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DimRange::length(&((usize::MAX - 1)..), Dynamic::new(usize::MAX)),
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Dynamic::new(1)
);
assert_eq!(
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DimRange::length(&(usize::MAX..), Dynamic::new(usize::MAX)),
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Dynamic::new(0)
);
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}
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impl<D: Dim, T: Dim> DimRange<D> for ops::RangeFrom<T>
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where
D: DimSub<T>,
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{
type Length = DimDiff<D, T>;
#[inline(always)]
fn lower(&self, _: D) -> usize {
self.start.value()
}
#[inline(always)]
fn length(&self, dimension: D) -> Self::Length {
dimension.sub(self.start)
}
#[inline(always)]
fn contained_by(&self, _: D) -> bool {
true
}
}
#[test]
fn dimrange_rangefrom_dimname() {
assert_eq!(DimRange::length(&(Const::<1>..), Const::<5>), Const::<4>);
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}
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impl<D: Dim> DimRange<D> for ops::RangeFull {
type Length = D;
#[inline(always)]
fn lower(&self, _: D) -> usize {
0
}
#[inline(always)]
fn length(&self, dimension: D) -> Self::Length {
dimension
}
#[inline(always)]
fn contained_by(&self, _: D) -> bool {
true
}
}
#[test]
fn dimrange_rangefull() {
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assert!(DimRange::contained_by(&(..), Const::<0>));
assert_eq!(DimRange::length(&(..), Const::<1>), Const::<1>);
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}
impl<D: Dim> DimRange<D> for ops::RangeInclusive<usize> {
type Length = Dynamic;
#[inline(always)]
fn lower(&self, _: D) -> usize {
*self.start()
}
#[inline(always)]
fn length(&self, _: D) -> Self::Length {
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Dynamic::new(if self.end() < self.start() {
0
} else {
self.end().wrapping_sub(self.start().wrapping_sub(1))
})
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}
#[inline(always)]
fn contained_by(&self, dimension: D) -> bool {
(*self.start() < dimension.value()) && (*self.end() < dimension.value())
}
}
#[test]
fn dimrange_rangeinclusive_usize() {
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assert!(!DimRange::contained_by(&(0..=0), Const::<0>));
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assert!(DimRange::contained_by(&(0..=0), Const::<1>));
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assert!(!DimRange::contained_by(
&(usize::MAX..=usize::MAX),
Dynamic::new(usize::MAX)
));
assert!(!DimRange::contained_by(
&((usize::MAX - 1)..=usize::MAX),
Dynamic::new(usize::MAX)
));
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assert!(DimRange::contained_by(
&((usize::MAX - 1)..=(usize::MAX - 1)),
Dynamic::new(usize::MAX)
));
assert_eq!(DimRange::length(&(0..=0), Const::<1>), Dynamic::new(1));
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assert_eq!(
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DimRange::length(&((usize::MAX - 1)..=usize::MAX), Dynamic::new(usize::MAX)),
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Dynamic::new(2)
);
assert_eq!(
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DimRange::length(&(usize::MAX..=(usize::MAX - 1)), Dynamic::new(usize::MAX)),
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Dynamic::new(0)
);
assert_eq!(
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DimRange::length(&(usize::MAX..=usize::MAX), Dynamic::new(usize::MAX)),
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Dynamic::new(1)
);
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}
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impl<D: Dim> DimRange<D> for ops::RangeTo<usize> {
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type Length = Dynamic;
#[inline(always)]
fn lower(&self, _: D) -> usize {
0
}
#[inline(always)]
fn length(&self, _: D) -> Self::Length {
Dynamic::new(self.end)
}
#[inline(always)]
fn contained_by(&self, dimension: D) -> bool {
self.end <= dimension.value()
}
}
#[test]
fn dimrange_rangeto_usize() {
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assert!(DimRange::contained_by(&(..0), Const::<0>));
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assert!(!DimRange::contained_by(&(..1), Const::<0>));
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assert!(DimRange::contained_by(&(..0), Const::<1>));
assert!(DimRange::contained_by(
&(..(usize::MAX - 1)),
Dynamic::new(usize::MAX)
));
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assert_eq!(
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DimRange::length(&(..(usize::MAX - 1)), Dynamic::new(usize::MAX)),
Dynamic::new(usize::MAX - 1)
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);
assert_eq!(
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DimRange::length(&(..usize::MAX), Dynamic::new(usize::MAX)),
Dynamic::new(usize::MAX)
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);
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}
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impl<D: Dim> DimRange<D> for ops::RangeToInclusive<usize> {
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type Length = Dynamic;
#[inline(always)]
fn lower(&self, _: D) -> usize {
0
}
#[inline(always)]
fn length(&self, _: D) -> Self::Length {
Dynamic::new(self.end + 1)
}
#[inline(always)]
fn contained_by(&self, dimension: D) -> bool {
self.end < dimension.value()
}
}
#[test]
fn dimrange_rangetoinclusive_usize() {
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assert!(!DimRange::contained_by(&(..=0), Const::<0>));
assert!(!DimRange::contained_by(&(..=1), Const::<0>));
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assert!(DimRange::contained_by(&(..=0), Const::<1>));
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assert!(!DimRange::contained_by(
&(..=(usize::MAX)),
Dynamic::new(usize::MAX)
));
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assert!(DimRange::contained_by(
&(..=(usize::MAX - 1)),
Dynamic::new(usize::MAX)
));
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assert_eq!(
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DimRange::length(&(..=(usize::MAX - 1)), Dynamic::new(usize::MAX)),
Dynamic::new(usize::MAX)
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);
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}
/// A helper trait used for indexing operations.
pub trait MatrixIndex<'a, T, R: Dim, C: Dim, S: RawStorage<T, R, C>>: Sized {
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/// The output type returned by methods.
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type Output: 'a;
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/// Produces true if the given matrix is contained by this index.
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#[doc(hidden)]
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fn contained_by(&self, matrix: &Matrix<T, R, C, S>) -> bool;
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/// Produces a shared view of the data at this location if in bounds,
/// or `None`, otherwise.
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#[doc(hidden)]
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#[inline(always)]
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fn get(self, matrix: &'a Matrix<T, R, C, S>) -> Option<Self::Output> {
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if self.contained_by(matrix) {
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Some(unsafe { self.get_unchecked(matrix) })
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} else {
None
}
}
/// Produces a shared view of the data at this location if in bounds
/// without any bounds checking.
#[doc(hidden)]
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unsafe fn get_unchecked(self, matrix: &'a Matrix<T, R, C, S>) -> Self::Output;
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/// Produces a shared view to the data at this location, or panics
/// if out of bounds.
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#[doc(hidden)]
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#[inline(always)]
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fn index(self, matrix: &'a Matrix<T, R, C, S>) -> Self::Output {
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self.get(matrix).expect("Index out of bounds.")
}
}
/// A helper trait used for indexing operations.
pub trait MatrixIndexMut<'a, T, R: Dim, C: Dim, S: RawStorageMut<T, R, C>>:
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MatrixIndex<'a, T, R, C, S>
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{
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/// The output type returned by methods.
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type OutputMut: 'a;
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/// Produces a mutable view of the data at this location, without
/// performing any bounds checking.
#[doc(hidden)]
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unsafe fn get_unchecked_mut(self, matrix: &'a mut Matrix<T, R, C, S>) -> Self::OutputMut;
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/// Produces a mutable view of the data at this location, if in
/// bounds.
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#[doc(hidden)]
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#[inline(always)]
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fn get_mut(self, matrix: &'a mut Matrix<T, R, C, S>) -> Option<Self::OutputMut> {
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if self.contained_by(matrix) {
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Some(unsafe { self.get_unchecked_mut(matrix) })
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} else {
None
}
}
/// Produces a mutable view of the data at this location, or panics
/// if out of bounds.
#[doc(hidden)]
#[inline(always)]
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fn index_mut(self, matrix: &'a mut Matrix<T, R, C, S>) -> Self::OutputMut {
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self.get_mut(matrix).expect("Index out of bounds.")
}
}
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/// # Slicing based on ranges
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/// ## Indices to Individual Elements
/// ### Two-Dimensional Indices
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/// ```
/// # use nalgebra::*;
/// let matrix = Matrix2::new(0, 2,
/// 1, 3);
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///
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/// assert_eq!(matrix.index((0, 0)), &0);
/// assert_eq!(matrix.index((1, 0)), &1);
/// assert_eq!(matrix.index((0, 1)), &2);
/// assert_eq!(matrix.index((1, 1)), &3);
/// ```
///
/// ### Linear Address Indexing
/// ```
/// # use nalgebra::*;
/// let matrix = Matrix2::new(0, 2,
/// 1, 3);
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///
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/// assert_eq!(matrix.get(0), Some(&0));
/// assert_eq!(matrix.get(1), Some(&1));
/// assert_eq!(matrix.get(2), Some(&2));
/// assert_eq!(matrix.get(3), Some(&3));
/// ```
///
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/// ## Indices to Individual Rows and Columns
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/// ### Index to a Row
/// ```
/// # use nalgebra::*;
/// let matrix = Matrix2::new(0, 2,
/// 1, 3);
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///
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/// assert!(matrix.index((0, ..))
/// .eq(&Matrix1x2::new(0, 2)));
/// ```
///
/// ### Index to a Column
/// ```
/// # use nalgebra::*;
/// let matrix = Matrix2::new(0, 2,
/// 1, 3);
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///
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/// assert!(matrix.index((.., 0))
/// .eq(&Matrix2x1::new(0,
/// 1)));
/// ```
///
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/// ## Indices to Parts of Individual Rows and Columns
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/// ### Index to a Partial Row
/// ```
/// # use nalgebra::*;
/// let matrix = Matrix3::new(0, 3, 6,
/// 1, 4, 7,
/// 2, 5, 8);
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///
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/// assert!(matrix.index((0, ..2))
/// .eq(&Matrix1x2::new(0, 3)));
/// ```
///
/// ### Index to a Partial Column
/// ```
/// # use nalgebra::*;
/// let matrix = Matrix3::new(0, 3, 6,
/// 1, 4, 7,
/// 2, 5, 8);
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///
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/// assert!(matrix.index((..2, 0))
/// .eq(&Matrix2x1::new(0,
/// 1)));
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///
/// assert!(matrix.index((Const::<1>.., 0))
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/// .eq(&Matrix2x1::new(1,
/// 2)));
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/// ```
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/// ## Indices to Ranges of Rows and Columns
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/// ### Index to a Range of Rows
/// ```
/// # use nalgebra::*;
/// let matrix = Matrix3::new(0, 3, 6,
/// 1, 4, 7,
/// 2, 5, 8);
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///
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/// assert!(matrix.index((1..3, ..))
/// .eq(&Matrix2x3::new(1, 4, 7,
/// 2, 5, 8)));
/// ```
/// ### Index to a Range of Columns
/// ```
/// # use nalgebra::*;
/// let matrix = Matrix3::new(0, 3, 6,
/// 1, 4, 7,
/// 2, 5, 8);
///
/// assert!(matrix.index((.., 1..3))
/// .eq(&Matrix3x2::new(3, 6,
/// 4, 7,
/// 5, 8)));
/// ```
impl<T, R: Dim, C: Dim, S: RawStorage<T, R, C>> Matrix<T, R, C, S> {
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/// Produces a view of the data at the given index, or
/// `None` if the index is out of bounds.
#[inline]
#[must_use]
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pub fn get<'a, I>(&'a self, index: I) -> Option<I::Output>
where
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I: MatrixIndex<'a, T, R, C, S>,
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{
index.get(self)
}
/// Produces a mutable view of the data at the given index, or
/// `None` if the index is out of bounds.
#[inline]
#[must_use]
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pub fn get_mut<'a, I>(&'a mut self, index: I) -> Option<I::OutputMut>
where
S: RawStorageMut<T, R, C>,
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I: MatrixIndexMut<'a, T, R, C, S>,
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{
index.get_mut(self)
}
/// Produces a view of the data at the given index, or
/// panics if the index is out of bounds.
#[inline]
#[must_use]
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pub fn index<'a, I>(&'a self, index: I) -> I::Output
where
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I: MatrixIndex<'a, T, R, C, S>,
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{
index.index(self)
}
/// Produces a mutable view of the data at the given index, or
/// panics if the index is out of bounds.
#[inline]
pub fn index_mut<'a, I>(&'a mut self, index: I) -> I::OutputMut
where
S: RawStorageMut<T, R, C>,
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I: MatrixIndexMut<'a, T, R, C, S>,
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{
index.index_mut(self)
}
/// Produces a view of the data at the given index, without doing
/// any bounds checking.
#[inline]
#[must_use]
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pub unsafe fn get_unchecked<'a, I>(&'a self, index: I) -> I::Output
where
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I: MatrixIndex<'a, T, R, C, S>,
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{
index.get_unchecked(self)
}
/// Returns a mutable view of the data at the given index, without doing
/// any bounds checking.
#[inline]
#[must_use]
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pub unsafe fn get_unchecked_mut<'a, I>(&'a mut self, index: I) -> I::OutputMut
where
S: RawStorageMut<T, R, C>,
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I: MatrixIndexMut<'a, T, R, C, S>,
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{
index.get_unchecked_mut(self)
}
}
// EXTRACT A SINGLE ELEMENT BY 1D LINEAR ADDRESS
impl<'a, T, R, C, S> MatrixIndex<'a, T, R, C, S> for usize
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where
T: Scalar,
R: Dim,
C: Dim,
S: RawStorage<T, R, C>,
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{
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type Output = &'a T;
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#[doc(hidden)]
#[inline(always)]
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fn contained_by(&self, matrix: &Matrix<T, R, C, S>) -> bool {
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*self < matrix.len()
}
#[doc(hidden)]
#[inline(always)]
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unsafe fn get_unchecked(self, matrix: &'a Matrix<T, R, C, S>) -> Self::Output {
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let nrows = matrix.shape().0;
let row = self % nrows;
let col = self / nrows;
matrix.data.get_unchecked(row, col)
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}
}
impl<'a, T, R, C, S> MatrixIndexMut<'a, T, R, C, S> for usize
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where
T: Scalar,
R: Dim,
C: Dim,
S: RawStorageMut<T, R, C>,
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{
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type OutputMut = &'a mut T;
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#[doc(hidden)]
#[inline(always)]
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unsafe fn get_unchecked_mut(self, matrix: &'a mut Matrix<T, R, C, S>) -> Self::OutputMut
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where
S: RawStorageMut<T, R, C>,
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{
matrix.data.get_unchecked_linear_mut(self)
}
}
// EXTRACT A SINGLE ELEMENT BY 2D COORDINATES
impl<'a, T: 'a, R, C, S> MatrixIndex<'a, T, R, C, S> for (usize, usize)
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where
R: Dim,
C: Dim,
S: RawStorage<T, R, C>,
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{
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type Output = &'a T;
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#[doc(hidden)]
#[inline(always)]
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fn contained_by(&self, matrix: &Matrix<T, R, C, S>) -> bool {
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let (rows, cols) = self;
let (nrows, ncols) = matrix.shape_generic();
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DimRange::contained_by(rows, nrows) && DimRange::contained_by(cols, ncols)
}
#[doc(hidden)]
#[inline(always)]
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unsafe fn get_unchecked(self, matrix: &'a Matrix<T, R, C, S>) -> Self::Output {
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let (row, col) = self;
matrix.data.get_unchecked(row, col)
}
}
impl<'a, T: 'a, R, C, S> MatrixIndexMut<'a, T, R, C, S> for (usize, usize)
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where
R: Dim,
C: Dim,
S: RawStorageMut<T, R, C>,
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{
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type OutputMut = &'a mut T;
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#[doc(hidden)]
#[inline(always)]
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unsafe fn get_unchecked_mut(self, matrix: &'a mut Matrix<T, R, C, S>) -> Self::OutputMut
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where
S: RawStorageMut<T, R, C>,
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{
let (row, col) = self;
matrix.data.get_unchecked_mut(row, col)
}
}
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macro_rules! impl_index_pair {
(
$R: ident,
$C: ident,
[<$($RTyP: ident : $RTyPB: ty,)*> usize => $ROut: ty
$(where $RConstraintType: ty: $RConstraintBound: ident<$($RConstraintBoundParams: ty $( = $REqBound: ty )*),*>)*],
[<$($CTyP: ident : $CTyPB: ty,)*> usize => $COut: ty
$(where $CConstraintType: ty: $CConstraintBound: ident<$($CConstraintBoundParams: ty $( = $CEqBound: ty )*),*>)*]
) => {};
(
$R: ident,
$C: ident,
[<$($RTyP: ident: $RTyPB: tt),*> $RIdx: ty => $ROut: ty
$(where $RConstraintType: ty: $RConstraintBound: ident $(<$($RConstraintBoundParams: ty $( = $REqBound: ty )*),*>)* )*],
[<$($CTyP: ident: $CTyPB: tt),*> $CIdx: ty => $COut: ty
$(where $CConstraintType: ty: $CConstraintBound: ident $(<$($CConstraintBoundParams: ty $( = $CEqBound: ty )*),*>)* )*]
) =>
{
impl<'a, T, $R, $C, S, $($RTyP : $RTyPB,)* $($CTyP : $CTyPB),*> MatrixIndex<'a, T, $R, $C, S> for ($RIdx, $CIdx)
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where
T: Scalar,
$R: Dim,
$C: Dim,
S: RawStorage<T, R, C>,
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$( $RConstraintType: $RConstraintBound $(<$( $RConstraintBoundParams $( = $REqBound )*),*>)* ,)*
$( $CConstraintType: $CConstraintBound $(<$( $CConstraintBoundParams $( = $CEqBound )*),*>)* ),*
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{
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type Output = MatrixSlice<'a, T, $ROut, $COut, S::RStride, S::CStride>;
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#[doc(hidden)]
#[inline(always)]
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fn contained_by(&self, matrix: &Matrix<T, $R, $C, S>) -> bool {
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let (rows, cols) = self;
let (nrows, ncols) = matrix.shape_generic();
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DimRange::contained_by(rows, nrows) && DimRange::contained_by(cols, ncols)
}
#[doc(hidden)]
#[inline(always)]
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unsafe fn get_unchecked(self, matrix: &'a Matrix<T, $R, $C, S>) -> Self::Output {
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use crate::base::SliceStorage;
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let (rows, cols) = self;
let (nrows, ncols) = matrix.shape_generic();
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let data =
SliceStorage::new_unchecked(&matrix.data,
(rows.lower(nrows), cols.lower(ncols)),
(rows.length(nrows), cols.length(ncols)));
Matrix::from_data_statically_unchecked(data)
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}
}
impl<'a, T, $R, $C, S, $($RTyP : $RTyPB,)* $($CTyP : $CTyPB),*> MatrixIndexMut<'a, T, $R, $C, S> for ($RIdx, $CIdx)
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where
T: Scalar,
$R: Dim,
$C: Dim,
S: RawStorageMut<T, R, C>,
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$( $RConstraintType: $RConstraintBound $(<$( $RConstraintBoundParams $( = $REqBound )*),*>)* ,)*
$( $CConstraintType: $CConstraintBound $(<$( $CConstraintBoundParams $( = $CEqBound )*),*>)* ),*
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{
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type OutputMut = MatrixSliceMut<'a, T, $ROut, $COut, S::RStride, S::CStride>;
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#[doc(hidden)]
#[inline(always)]
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unsafe fn get_unchecked_mut(self, matrix: &'a mut Matrix<T, $R, $C, S>) -> Self::OutputMut {
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use crate::base::SliceStorageMut;
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let (rows, cols) = self;
let (nrows, ncols) = matrix.shape_generic();
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let data =
SliceStorageMut::new_unchecked(&mut matrix.data,
(rows.lower(nrows), cols.lower(ncols)),
(rows.length(nrows), cols.length(ncols)));
Matrix::from_data_statically_unchecked(data)
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}
}
}
}
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macro_rules! impl_index_pairs {
(index $R: ident with {} index $C: ident with {$($r: tt,)* }) => {};
(index $R: ident with {$lh : tt, $($lt : tt,)*}
index $C: ident with { $($r: tt,)* }) =>
{
$(
impl_index_pair!{$R, $C, $lh, $r}
)*
impl_index_pairs!{index $R with {$($lt,)*} index $C with {$($r,)*}}
}
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}
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impl_index_pairs! {
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index R with {
[<> usize => U1],
[<> ops::Range<usize> => Dynamic],
[<> ops::RangeFrom<usize> => Dynamic],
[<> ops::RangeFull => R],
[<> ops::RangeInclusive<usize> => Dynamic],
[<> ops::RangeTo<usize> => Dynamic],
[<> ops::RangeToInclusive<usize> => Dynamic],
[<I: Dim> ops::RangeFrom<I>
=> DimDiff<R, I>
where R: DimSub<I>],
}
index C with {
[<> usize => U1],
[<> ops::Range<usize> => Dynamic],
[<> ops::RangeFrom<usize> => Dynamic],
[<> ops::RangeFull => C],
[<> ops::RangeInclusive<usize> => Dynamic],
[<> ops::RangeTo<usize> => Dynamic],
[<> ops::RangeToInclusive<usize> => Dynamic],
[<J: DimName> ops::RangeFrom<J>
=> DimDiff<C, J>
where C: DimSub<J>],
}
}