common impls between matrix and vector
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102
fixed_wide_vectors/src/macros/common.rs
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102
fixed_wide_vectors/src/macros/common.rs
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@ -0,0 +1,102 @@
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#[doc(hidden)]
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#[macro_export(local_inner_macros)]
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macro_rules! impl_common {
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( $struct: ident { $($field: ident), + }, ( $($generic: ident), + ), $size: expr ) => {
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impl<T> $struct<T> {
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/// Constructs a new vector with the specified values for each field.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::new(0, 0);
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///
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/// assert_eq!(vec2.x, 0);
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/// assert_eq!(vec2.y, 0);
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/// ```
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#[inline(always)]
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pub const fn new( $($field: T), + ) -> Self {
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Self {
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$( $field ), +
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}
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}
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/// Consumes the vector and returns its values as an array.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::new(0, 0);
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/// let array = vec2.to_array();
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///
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/// assert_eq!(array, [0, 0]);
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/// ```
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#[inline(always)]
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pub fn to_array(self) -> [T; $size] {
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[ $(self.$field), + ]
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}
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/// Consumes the vector and returns its values as a tuple.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::new(0, 0);
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/// let tuple = vec2.to_tuple();
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///
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/// assert_eq!(tuple, (0, 0));
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/// ```
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#[inline(always)]
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pub fn to_tuple(self) -> ( $($generic), + ) {
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( $(self.$field), + )
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}
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/// Consumes the vector and returns a new vector with the given function applied on each field.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::new(1, 2)
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/// .map(|i| i * 2);
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///
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/// assert_eq!(vec2, Vector2::new(2, 4));
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/// ```
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#[inline]
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pub fn map<F, U>(self, f: F) -> $struct<U>
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where
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F: Fn(T) -> U
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{
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$struct {
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$( $field: f(self.$field) ), +
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}
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}
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}
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impl<T: Copy> $struct<T> {
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/// Constructs a vector using the given `value` as the value for all of its fields.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::from_value(0);
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///
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/// assert_eq!(vec2, Vector2::new(0, 0));
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/// ```
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#[inline(always)]
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pub const fn from_value(value: T) -> Self {
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Self {
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$( $field: value ), +
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}
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}
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}
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}
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}
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@ -2,6 +2,26 @@
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#[doc(hidden)]
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#[macro_export(local_inner_macros)]
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macro_rules! impl_matrix {
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(
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($struct_outer: ident { $($field_outer: ident), + }, $vector_outer: ident { $($vector_field_outer: ident), + }, $size_outer: expr),
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( $($generic_outer: tt), + )
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) => {
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$crate::impl_common!($struct_outer { $($field_outer), + }, ( $($generic_outer), + ), $size_outer);
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impl<U> $struct_outer<U> {
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#[inline(always)]
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pub fn to_vector(self) -> $vector_outer<U> {
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$vector_outer {
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$(
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$vector_field_outer: self.$field_outer
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), +
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}
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}
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}
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}
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}
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#[doc(hidden)]
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#[macro_export(local_inner_macros)]
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macro_rules! impl_matrix_inner {
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(
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($struct_outer: ident { $($field_outer: ident), + }, $vector_outer: ident { $($vector_field_outer: ident), + }, $size_outer: expr),
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($struct_inner: ident { $($field_inner: ident), + }, $matrix_inner: ident { $($matrix_field_inner: ident), + }, $size_inner: expr),
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@ -1,5 +1,6 @@
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#[cfg(feature="fixed_wide")]
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pub mod fixed_wide;
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pub mod common;
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pub mod vector;
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pub mod matrix;
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@ -3,102 +3,7 @@
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#[macro_export(local_inner_macros)]
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macro_rules! impl_vector {
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( $struct: ident { $($field: ident), + }, ( $($generic: ident), + ), $size: expr ) => {
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impl<T> $struct<T> {
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/// Constructs a new vector with the specified values for each field.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::new(0, 0);
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///
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/// assert_eq!(vec2.x, 0);
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/// assert_eq!(vec2.y, 0);
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/// ```
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#[inline(always)]
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pub const fn new( $($field: T), + ) -> Self {
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Self {
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$( $field ), +
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}
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}
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/// Consumes the vector and returns its values as an array.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::new(0, 0);
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/// let array = vec2.to_array();
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///
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/// assert_eq!(array, [0, 0]);
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/// ```
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#[inline(always)]
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pub fn to_array(self) -> [T; $size] {
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[ $(self.$field), + ]
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}
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/// Consumes the vector and returns its values as a tuple.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::new(0, 0);
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/// let tuple = vec2.to_tuple();
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///
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/// assert_eq!(tuple, (0, 0));
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/// ```
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#[inline(always)]
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pub fn to_tuple(self) -> ( $($generic), + ) {
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( $(self.$field), + )
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}
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/// Consumes the vector and returns a new vector with the given function applied on each field.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::new(1, 2)
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/// .map(|i| i * 2);
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///
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/// assert_eq!(vec2, Vector2::new(2, 4));
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/// ```
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#[inline]
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pub fn map<F, U>(self, f: F) -> $struct<U>
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where
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F: Fn(T) -> U
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{
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$struct {
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$( $field: f(self.$field) ), +
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}
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}
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}
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impl<T: Copy> $struct<T> {
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/// Constructs a vector using the given `value` as the value for all of its fields.
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///
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/// # Example
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///
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/// ```
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/// use fixed_wide_vectors::Vector2;
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///
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/// let vec2 = Vector2::from_value(0);
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///
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/// assert_eq!(vec2, Vector2::new(0, 0));
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/// ```
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#[inline(always)]
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pub const fn from_value(value: T) -> Self {
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Self {
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$( $field: value ), +
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}
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}
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}
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$crate::impl_common!($struct { $($field), + }, ( $($generic), + ), $size);
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impl<T> From<[T; $size]> for $struct<T> {
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fn from(from: [T; $size]) -> Self {
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@ -16,15 +16,19 @@ pub struct Matrix4<T> {
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pub w_axis: T,
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}
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crate::impl_matrix!((Matrix2 { x_axis, y_axis }, Vector2 { x, y }, 2), (T, T));
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crate::impl_matrix!((Matrix3 { x_axis, y_axis, z_axis }, Vector3 { x, y, z }, 3), (T, T, T));
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crate::impl_matrix!((Matrix4 { x_axis, y_axis, z_axis, w_axis }, Vector4 { x, y, z, w }, 4), (T, T, T, T));
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crate::impl_extend!(Matrix2 { x_axis, y_axis }, Matrix3, z_axis);
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crate::impl_extend!(Matrix3 { x_axis, y_axis, z_axis }, Matrix4, w_axis);
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crate::impl_matrix!((Matrix2 { x_axis, y_axis }, Vector2 { x, y }, 2), (Vector2 { x, y }, Matrix2 { x_axis, y_axis }, 2), ((T, T), (T, T)) );
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crate::impl_matrix!((Matrix2 { x_axis, y_axis }, Vector2 { x, y }, 2), (Vector3 { x, y, z }, Matrix3 { x_axis, y_axis, z_axis }, 3), ((T, T, T), (T, T, T)) );
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crate::impl_matrix!((Matrix2 { x_axis, y_axis }, Vector2 { x, y }, 2), (Vector4 { x, y, z, w }, Matrix4 { x_axis, y_axis, z_axis, w_axis }, 4), ((T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix!((Matrix3 { x_axis, y_axis, z_axis }, Vector3 { x, y, z }, 3), (Vector2 { x, y }, Matrix2 { x_axis, y_axis }, 2), ((T, T), (T, T), (T, T)) );
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crate::impl_matrix!((Matrix3 { x_axis, y_axis, z_axis }, Vector3 { x, y, z }, 3), (Vector3 { x, y, z }, Matrix3 { x_axis, y_axis, z_axis }, 3), ((T, T, T), (T, T, T), (T, T, T)) );
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crate::impl_matrix!((Matrix3 { x_axis, y_axis, z_axis }, Vector3 { x, y, z }, 3), (Vector4 { x, y, z, w }, Matrix4 { x_axis, y_axis, z_axis, w_axis }, 4), ((T, T, T, T), (T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix!((Matrix4 { x_axis, y_axis, z_axis, w_axis }, Vector4 { x, y, z, w }, 4), (Vector2 { x, y }, Matrix2 { x_axis, y_axis }, 2), ((T, T), (T, T), (T, T), (T, T)) );
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crate::impl_matrix!((Matrix4 { x_axis, y_axis, z_axis, w_axis }, Vector4 { x, y, z, w }, 4), (Vector3 { x, y, z }, Matrix3 { x_axis, y_axis, z_axis }, 3), ((T, T, T), (T, T, T), (T, T, T), (T, T, T)) );
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crate::impl_matrix!((Matrix4 { x_axis, y_axis, z_axis, w_axis }, Vector4 { x, y, z, w }, 4), (Vector4 { x, y, z, w }, Matrix4 { x_axis, y_axis, z_axis, w_axis }, 4), ((T, T, T, T), (T, T, T, T), (T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix_inner!((Matrix2 { x_axis, y_axis }, Vector2 { x, y }, 2), (Vector2 { x, y }, Matrix2 { x_axis, y_axis }, 2), ((T, T), (T, T)) );
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crate::impl_matrix_inner!((Matrix2 { x_axis, y_axis }, Vector2 { x, y }, 2), (Vector3 { x, y, z }, Matrix3 { x_axis, y_axis, z_axis }, 3), ((T, T, T), (T, T, T)) );
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crate::impl_matrix_inner!((Matrix2 { x_axis, y_axis }, Vector2 { x, y }, 2), (Vector4 { x, y, z, w }, Matrix4 { x_axis, y_axis, z_axis, w_axis }, 4), ((T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix_inner!((Matrix3 { x_axis, y_axis, z_axis }, Vector3 { x, y, z }, 3), (Vector2 { x, y }, Matrix2 { x_axis, y_axis }, 2), ((T, T), (T, T), (T, T)) );
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crate::impl_matrix_inner!((Matrix3 { x_axis, y_axis, z_axis }, Vector3 { x, y, z }, 3), (Vector3 { x, y, z }, Matrix3 { x_axis, y_axis, z_axis }, 3), ((T, T, T), (T, T, T), (T, T, T)) );
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crate::impl_matrix_inner!((Matrix3 { x_axis, y_axis, z_axis }, Vector3 { x, y, z }, 3), (Vector4 { x, y, z, w }, Matrix4 { x_axis, y_axis, z_axis, w_axis }, 4), ((T, T, T, T), (T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix_inner!((Matrix4 { x_axis, y_axis, z_axis, w_axis }, Vector4 { x, y, z, w }, 4), (Vector2 { x, y }, Matrix2 { x_axis, y_axis }, 2), ((T, T), (T, T), (T, T), (T, T)) );
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crate::impl_matrix_inner!((Matrix4 { x_axis, y_axis, z_axis, w_axis }, Vector4 { x, y, z, w }, 4), (Vector3 { x, y, z }, Matrix3 { x_axis, y_axis, z_axis }, 3), ((T, T, T), (T, T, T), (T, T, T), (T, T, T)) );
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crate::impl_matrix_inner!((Matrix4 { x_axis, y_axis, z_axis, w_axis }, Vector4 { x, y, z, w }, 4), (Vector4 { x, y, z, w }, Matrix4 { x_axis, y_axis, z_axis, w_axis }, 4), ((T, T, T, T), (T, T, T, T), (T, T, T, T), (T, T, T, T)) );
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crate::impl_extend!(Vector2 { x, y }, Vector3, z);
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crate::impl_extend!(Vector3 { x, y, z }, Vector4, w);
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crate::impl_matrix!((Vector2 { x, y }, Vector2 { x, y }, 2), (Vector2 { x, y }, Vector2 { x, y }, 2), ((T, T), (T, T)) );
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crate::impl_matrix!((Vector2 { x, y }, Vector2 { x, y }, 2), (Vector3 { x, y, z }, Vector3 { x, y, z }, 3), ((T, T, T), (T, T, T)) );
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crate::impl_matrix!((Vector2 { x, y }, Vector2 { x, y }, 2), (Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), ((T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix!((Vector3 { x, y, z }, Vector3 { x, y, z }, 3), (Vector2 { x, y }, Vector2 { x, y }, 2), ((T, T), (T, T), (T, T)) );
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crate::impl_matrix!((Vector3 { x, y, z }, Vector3 { x, y, z }, 3), (Vector3 { x, y, z }, Vector3 { x, y, z }, 3), ((T, T, T), (T, T, T), (T, T, T)) );
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crate::impl_matrix!((Vector3 { x, y, z }, Vector3 { x, y, z }, 3), (Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), ((T, T, T, T), (T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix!((Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), (Vector2 { x, y }, Vector2 { x, y }, 2), ((T, T), (T, T), (T, T), (T, T)) );
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crate::impl_matrix!((Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), (Vector3 { x, y, z }, Vector3 { x, y, z }, 3), ((T, T, T), (T, T, T), (T, T, T), (T, T, T)) );
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crate::impl_matrix!((Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), (Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), ((T, T, T, T), (T, T, T, T), (T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix_inner!((Vector2 { x, y }, Vector2 { x, y }, 2), (Vector2 { x, y }, Vector2 { x, y }, 2), ((T, T), (T, T)) );
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crate::impl_matrix_inner!((Vector2 { x, y }, Vector2 { x, y }, 2), (Vector3 { x, y, z }, Vector3 { x, y, z }, 3), ((T, T, T), (T, T, T)) );
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crate::impl_matrix_inner!((Vector2 { x, y }, Vector2 { x, y }, 2), (Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), ((T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix_inner!((Vector3 { x, y, z }, Vector3 { x, y, z }, 3), (Vector2 { x, y }, Vector2 { x, y }, 2), ((T, T), (T, T), (T, T)) );
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crate::impl_matrix_inner!((Vector3 { x, y, z }, Vector3 { x, y, z }, 3), (Vector3 { x, y, z }, Vector3 { x, y, z }, 3), ((T, T, T), (T, T, T), (T, T, T)) );
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crate::impl_matrix_inner!((Vector3 { x, y, z }, Vector3 { x, y, z }, 3), (Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), ((T, T, T, T), (T, T, T, T), (T, T, T, T)) );
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crate::impl_matrix_inner!((Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), (Vector2 { x, y }, Vector2 { x, y }, 2), ((T, T), (T, T), (T, T), (T, T)) );
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crate::impl_matrix_inner!((Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), (Vector3 { x, y, z }, Vector3 { x, y, z }, 3), ((T, T, T), (T, T, T), (T, T, T), (T, T, T)) );
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crate::impl_matrix_inner!((Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), (Vector4 { x, y, z, w }, Vector4 { x, y, z, w }, 4), ((T, T, T, T), (T, T, T, T), (T, T, T, T), (T, T, T, T)) );
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