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pub trait VectorScalar {}
impl_marker_trait_for_f32!(VectorScalar);
impl_marker_trait_for_u32!(VectorScalar);
impl_marker_trait_for_i32!(VectorScalar);
pub trait AsRefVectorParts<T: VectorScalar, const N: usize> {
fn as_ref_parts(&self) -> &[T; N];
}
pub trait AsMutVectorParts<T: VectorScalar, const N: usize> {
fn as_mut_parts(&mut self) -> &mut [T; N];
}
pub trait FromVectorParts<T: VectorScalar, const N: usize> {
fn from_parts(parts: [T; N]) -> Self;
}
#[macro_export]
macro_rules! impl_vector {
($n:literal, $type:ty $( ; using $($using:tt)* )?) => {
$crate::impl_vector_inner!(__inner, ($n, $type, T, (T)); $( $($using)* )?);
};
($n:literal, $type:ty; ($($generics:tt)*) $( ; using $($using:tt)* )?) => {
$crate::impl_vector_inner!(__inner, ($n, $type, T, ($($generics)*)); $( $($using)* )?);
};
($n:literal, $type:ty, $el_ty:ty $( ; using $($using:tt)* )?) => {
$crate::impl_vector_inner!(__inner, ($n, $type, $el_ty, ()); $( $($using)* )?);
};
}
#[doc(hidden)]
#[macro_export]
macro_rules! impl_vector_inner {
(__inner, ($($other:tt)*); AsRef $($using:tt)*) => {
$crate::impl_vector_inner!(__ref, $($other)*);
$crate::impl_vector_inner!(__inner, ($($other)*); $($using)*);
};
(__inner, ($($other:tt)*); AsMut $($using:tt)*) => {
$crate::impl_vector_inner!(__mut, $($other)*);
$crate::impl_vector_inner!(__inner, ($($other)*); $($using)*);
};
(__inner, ($($other:tt)*); From $($using:tt)*) => {
$crate::impl_vector_inner!(__from, $($other)*);
$crate::impl_vector_inner!(__inner, ($($other)*); $($using)*);
};
(__inner, ($n:literal, $type:ty, $el_ty:ty, ($($generics:tt)*)); ) => {
$crate::impl_vector_inner!(__main, $n, $type, $el_ty, ($($generics)*));
};
(__ref, $n:literal, $type:ty, $el_ty:ty, ($($generics:tt)*)) => {
impl<$($generics)*> $crate::private::AsRefVectorParts<$el_ty, $n> for $type
where
Self: ::core::convert::AsRef<[$el_ty; $n]>,
$el_ty: $crate::private::VectorScalar,
{
fn as_ref_parts(&self) -> &[$el_ty; $n] {
::core::convert::AsRef::as_ref(self)
}
}
};
(__mut, $n:literal, $type:ty, $el_ty:ty, ($($generics:tt)*)) => {
impl<$($generics)*> $crate::private::AsMutVectorParts<$el_ty, $n> for $type
where
Self: ::core::convert::AsMut<[$el_ty; $n]>,
$el_ty: $crate::private::VectorScalar,
{
fn as_mut_parts(&mut self) -> &mut [$el_ty; $n] {
::core::convert::AsMut::as_mut(self)
}
}
};
(__from, $n:literal, $type:ty, $el_ty:ty, ($($generics:tt)*)) => {
impl<$($generics)*> $crate::private::FromVectorParts<$el_ty, $n> for $type
where
Self: ::core::convert::From<[$el_ty; $n]>,
$el_ty: $crate::private::VectorScalar,
{
fn from_parts(parts: [$el_ty; $n]) -> Self {
::core::convert::From::from(parts)
}
}
};
(__main, $n:literal, $type:ty, $el_ty:ty, ($($generics:tt)*)) => {
const _: () = assert!(
2 <= $n && $n <= 4,
"Vector should have at least 2 elements and at most 4!",
);
impl<$($generics)*> $crate::private::ShaderType for $type
where
$el_ty: $crate::private::ShaderSize,
{
type ExtraMetadata = ();
const METADATA: $crate::private::Metadata<Self::ExtraMetadata> = {
let size = $crate::private::SizeValue::from(<$el_ty as $crate::private::ShaderSize>::SHADER_SIZE).mul($n);
let alignment = $crate::private::AlignmentValue::from_next_power_of_two_size(size);
$crate::private::Metadata {
alignment,
has_uniform_min_alignment: false,
min_size: size,
extra: ()
}
};
}
impl<$($generics)*> $crate::private::ShaderSize for $type
where
$el_ty: $crate::private::ShaderSize
{}
impl<$($generics)*> $crate::private::WriteInto for $type
where
Self: $crate::private::AsRefVectorParts<$el_ty, $n>,
$el_ty: $crate::private::VectorScalar + $crate::private::WriteInto,
{
fn write_into<B: $crate::private::BufferMut>(&self, writer: &mut $crate::private::Writer<B>) {
let elements = $crate::private::AsRefVectorParts::<$el_ty, $n>::as_ref_parts(self);
for el in elements {
$crate::private::WriteInto::write_into(el, writer);
}
}
}
impl<$($generics)*> $crate::private::ReadFrom for $type
where
Self: $crate::private::AsMutVectorParts<$el_ty, $n>,
$el_ty: $crate::private::VectorScalar + $crate::private::ReadFrom,
{
fn read_from<B: $crate::private::BufferRef>(&mut self, reader: &mut $crate::private::Reader<B>) {
let elements = $crate::private::AsMutVectorParts::<$el_ty, $n>::as_mut_parts(self);
for el in elements {
$crate::private::ReadFrom::read_from(el, reader);
}
}
}
impl<$($generics)*> $crate::private::CreateFrom for $type
where
Self: $crate::private::FromVectorParts<$el_ty, $n>,
$el_ty: $crate::private::VectorScalar + $crate::private::CreateFrom,
{
fn create_from<B: $crate::private::BufferRef>(reader: &mut $crate::private::Reader<B>) -> Self {
let elements = ::core::array::from_fn(|_| {
$crate::private::CreateFrom::create_from(reader)
});
$crate::private::FromVectorParts::<$el_ty, $n>::from_parts(elements)
}
}
};
}