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change: Change syntax between MatrixFrom and MatrixInto so that it'll be easier to integrate into std::From later
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parent
6d93559a07
commit
55ac044c39
2 changed files with 45 additions and 45 deletions
88
src/lib.rs
88
src/lib.rs
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@ -557,48 +557,14 @@ impl<T: ToMatrix> Sub for Matrix<T> {
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}
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/// Trait for conversion between matrices of different types.
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/// It only has a [`matrix_into()`](Self::matrix_into()) method.
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/// It only has a [`matrix_from()`](Self::matrix_from()) method.
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/// This is needed since negative trait bound are not supported in stable Rust
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/// yet, so we'll have a conflict trying to implement [`From`].
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/// I plan to change this to the default From trait as soon as some sort
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/// of specialization system is implemented.
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/// You can track this issue [here](https://github.com/rust-lang/rust/issues/42721).
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pub trait MatrixInto<T: ToMatrix> {
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/// Method for converting a matrix into a matrix of type [`Matrix<T>`].
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/// # Example
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/// ```
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/// use matrix_basic::Matrix;
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/// use matrix_basic::MatrixInto;
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///
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/// let a = Matrix::from(vec![vec![1, 2, 3], vec![0, 1, 2]]).unwrap();
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/// let b = Matrix::from(vec![vec![1.0, 2.0, 3.0], vec![0.0, 1.0, 2.0]]).unwrap();
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/// let c: Matrix<f64> = a.matrix_into(); // Type annotation is needed here
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///
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/// assert_eq!(c, b);
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/// ```
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fn matrix_into(self) -> Matrix<T>;
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}
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/// Blanket implementation of [`MatrixInto`] for converting [`Matrix<S>`] to [`Matrix<T>`] whenever
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/// `S` implements [`Into(T)`]. Look at [`matrix_into`](Self::matrix_into()).
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impl<T: ToMatrix, S: ToMatrix + Into<T>> MatrixInto<T> for Matrix<S> {
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fn matrix_into(self) -> Matrix<T> {
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let mut out = Vec::new();
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for row in self.entries {
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let mut new_row: Vec<T> = Vec::new();
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for entry in row {
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new_row.push(entry.into());
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}
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out.push(new_row)
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}
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Matrix { entries: out }
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}
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}
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/// Sister trait of [`MatrixInto`]. Basically does the same thing, just with a
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/// different syntax.
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pub trait MatrixFrom<T> {
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/// Method for getting a matrix from another matrix of type [`Matrix<T>`].
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pub trait MatrixFrom<T: ToMatrix> {
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/// Method for getting a matrix of a new type from a matrix of type [`Matrix<T>`].
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/// # Example
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/// ```
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/// use matrix_basic::Matrix;
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@ -610,14 +576,48 @@ pub trait MatrixFrom<T> {
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///
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/// assert_eq!(c, b);
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/// ```
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fn matrix_from(input: T) -> Self;
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fn matrix_from(input: Matrix<T>) -> Self;
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}
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/// Blanket implementation of [`MatrixFrom`] for [`Matrix<S>`] whenever `T` (which is actually some)[`Matrix<U>`] implements
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/// [`MatrixInto<S>`].
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impl<T: MatrixInto<S>, S: ToMatrix> MatrixFrom<T> for Matrix<S> {
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fn matrix_from(input: T) -> Self {
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let out: Matrix<S> = input.matrix_into();
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out
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/// Blanket implementation of [`MatrixFrom<T>`] for converting [`Matrix<S>`] to [`Matrix<T>`] whenever
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/// `S` implements [`From(T)`]. Look at [`matrix_into`](Self::matrix_into()).
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impl<T: ToMatrix, S: ToMatrix + From<T>> MatrixFrom<T> for Matrix<S> {
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fn matrix_from(input: Matrix<T>) -> Self {
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let mut out = Vec::new();
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for row in input.entries {
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let mut new_row: Vec<S> = Vec::new();
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for entry in row {
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new_row.push(entry.into());
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}
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out.push(new_row)
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}
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Matrix { entries: out }
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}
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}
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/// Sister trait of [`MatrixFrom`]. Basically does the same thing, just with a
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/// different syntax.
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pub trait MatrixInto<T> {
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/// Method for converting a matrix [`Matrix<T>`] to another type.
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/// # Example
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/// ```
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/// use matrix_basic::Matrix;
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/// use matrix_basic::MatrixInto;
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///
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/// let a = Matrix::from(vec![vec![1, 2, 3], vec![0, 1, 2]]).unwrap();
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/// let b = Matrix::from(vec![vec![1.0, 2.0, 3.0], vec![0.0, 1.0, 2.0]]).unwrap();
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/// let c: Matrix<f64> = a.matrix_into(); // Type annotation is needed here
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///
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///
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/// assert_eq!(c, b);
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/// ```
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fn matrix_into(self) -> T;
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}
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/// Blanket implementation of [`MatrixInto<T>`] for [`Matrix<S>`] whenever `T`
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/// (which is actually some)[`Matrix<U>`] implements [`MatrixFrom<S>`].
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impl<T: MatrixFrom<S>, S: ToMatrix> MatrixInto<T> for Matrix<S> {
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fn matrix_into(self) -> T {
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T::matrix_from(self)
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}
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}
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@ -72,7 +72,7 @@ fn conversion_test() {
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let b = Matrix::from(vec![vec![1.0, 2.0, 3.0], vec![0.0, 1.0, 2.0]]).unwrap();
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use crate::MatrixInto;
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assert_eq!(a.clone().matrix_into(), b);
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assert_eq!(b, a.clone().matrix_into());
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use crate::MatrixFrom;
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let c = Matrix::<f64>::matrix_from(a);
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