Deleted vendor folder

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diff --git a/vendor/bytemuck/src/lib.rs b/vendor/bytemuck/src/lib.rs
deleted file mode 100644
index 000dacb..0000000
--- a/vendor/bytemuck/src/lib.rs
+++ /dev/null
@@ -1,457 +0,0 @@
-#![no_std]
-#![warn(missing_docs)]
-#![allow(clippy::match_like_matches_macro)]
-#![allow(clippy::uninlined_format_args)]
-#![cfg_attr(feature = "nightly_docs", feature(doc_cfg))]
-#![cfg_attr(feature = "nightly_portable_simd", feature(portable_simd))]
-#![cfg_attr(feature = "nightly_stdsimd", feature(stdsimd))]
-
-//! This crate gives small utilities for casting between plain data types.
-//!
-//! ## Basics
-//!
-//! Data comes in five basic forms in Rust, so we have five basic casting
-//! functions:
-//!
-//! * `T` uses [`cast`]
-//! * `&T` uses [`cast_ref`]
-//! * `&mut T` uses [`cast_mut`]
-//! * `&[T]` uses [`cast_slice`]
-//! * `&mut [T]` uses [`cast_slice_mut`]
-//!
-//! Some casts will never fail (eg: `cast::<u32, f32>` always works), other
-//! casts might fail (eg: `cast_ref::<[u8; 4], u32>` will fail if the reference
-//! isn't already aligned to 4). Each casting function has a "try" version which
-//! will return a `Result`, and the "normal" version which will simply panic on
-//! invalid input.
-//!
-//! ## Using Your Own Types
-//!
-//! All the functions here are guarded by the [`Pod`] trait, which is a
-//! sub-trait of the [`Zeroable`] trait.
-//!
-//! If you're very sure that your type is eligible, you can implement those
-//! traits for your type and then they'll have full casting support. However,
-//! these traits are `unsafe`, and you should carefully read the requirements
-//! before adding the them to your own types.
-//!
-//! ## Features
-//!
-//! * This crate is core only by default, but if you're using Rust 1.36 or later
-//!   you can enable the `extern_crate_alloc` cargo feature for some additional
-//!   methods related to `Box` and `Vec`. Note that the `docs.rs` documentation
-//!   is always built with `extern_crate_alloc` cargo feature enabled.
-
-#[cfg(all(target_arch = "aarch64", feature = "aarch64_simd"))]
-use core::arch::aarch64;
-#[cfg(all(target_arch = "wasm32", feature = "wasm_simd"))]
-use core::arch::wasm32;
-#[cfg(target_arch = "x86")]
-use core::arch::x86;
-#[cfg(target_arch = "x86_64")]
-use core::arch::x86_64;
-//
-use core::{marker::*, mem::*, num::*, ptr::*};
-
-// Used from macros to ensure we aren't using some locally defined name and
-// actually are referencing libcore. This also would allow pre-2018 edition
-// crates to use our macros, but I'm not sure how important that is.
-#[doc(hidden)]
-pub use ::core as __core;
-
-#[cfg(not(feature = "min_const_generics"))]
-macro_rules! impl_unsafe_marker_for_array {
-  ( $marker:ident , $( $n:expr ),* ) => {
-    $(unsafe impl<T> $marker for [T; $n] where T: $marker {})*
-  }
-}
-
-/// A macro to transmute between two types without requiring knowing size
-/// statically.
-macro_rules! transmute {
-  ($val:expr) => {
-    ::core::mem::transmute_copy(&::core::mem::ManuallyDrop::new($val))
-  };
-}
-
-/// A macro to implement marker traits for various simd types.
-/// #[allow(unused)] because the impls are only compiled on relevant platforms
-/// with relevant cargo features enabled.
-#[allow(unused)]
-macro_rules! impl_unsafe_marker_for_simd {
-  ($(#[cfg($cfg_predicate:meta)])? unsafe impl $trait:ident for $platform:ident :: {}) => {};
-  ($(#[cfg($cfg_predicate:meta)])? unsafe impl $trait:ident for $platform:ident :: { $first_type:ident $(, $types:ident)* $(,)? }) => {
-    $( #[cfg($cfg_predicate)] )?
-    $( #[cfg_attr(feature = "nightly_docs", doc(cfg($cfg_predicate)))] )?
-    unsafe impl $trait for $platform::$first_type {}
-    $( #[cfg($cfg_predicate)] )? // To prevent recursion errors if nothing is going to be expanded anyway.
-    impl_unsafe_marker_for_simd!($( #[cfg($cfg_predicate)] )? unsafe impl $trait for $platform::{ $( $types ),* });
-  };
-}
-
-#[cfg(feature = "extern_crate_std")]
-extern crate std;
-
-#[cfg(feature = "extern_crate_alloc")]
-extern crate alloc;
-#[cfg(feature = "extern_crate_alloc")]
-#[cfg_attr(feature = "nightly_docs", doc(cfg(feature = "extern_crate_alloc")))]
-pub mod allocation;
-#[cfg(feature = "extern_crate_alloc")]
-pub use allocation::*;
-
-mod anybitpattern;
-pub use anybitpattern::*;
-
-pub mod checked;
-pub use checked::CheckedBitPattern;
-
-mod internal;
-
-mod zeroable;
-pub use zeroable::*;
-mod zeroable_in_option;
-pub use zeroable_in_option::*;
-
-mod pod;
-pub use pod::*;
-mod pod_in_option;
-pub use pod_in_option::*;
-
-#[cfg(feature = "must_cast")]
-mod must;
-#[cfg(feature = "must_cast")]
-#[cfg_attr(feature = "nightly_docs", doc(cfg(feature = "must_cast")))]
-pub use must::*;
-
-mod no_uninit;
-pub use no_uninit::*;
-
-mod contiguous;
-pub use contiguous::*;
-
-mod offset_of;
-pub use offset_of::*;
-
-mod transparent;
-pub use transparent::*;
-
-#[cfg(feature = "derive")]
-#[cfg_attr(feature = "nightly_docs", doc(cfg(feature = "derive")))]
-pub use bytemuck_derive::{
-  AnyBitPattern, ByteEq, ByteHash, CheckedBitPattern, Contiguous, NoUninit,
-  Pod, TransparentWrapper, Zeroable,
-};
-
-/// The things that can go wrong when casting between [`Pod`] data forms.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub enum PodCastError {
-  /// You tried to cast a slice to an element type with a higher alignment
-  /// requirement but the slice wasn't aligned.
-  TargetAlignmentGreaterAndInputNotAligned,
-  /// If the element size changes then the output slice changes length
-  /// accordingly. If the output slice wouldn't be a whole number of elements
-  /// then the conversion fails.
-  OutputSliceWouldHaveSlop,
-  /// When casting a slice you can't convert between ZST elements and non-ZST
-  /// elements. When casting an individual `T`, `&T`, or `&mut T` value the
-  /// source size and destination size must be an exact match.
-  SizeMismatch,
-  /// For this type of cast the alignments must be exactly the same and they
-  /// were not so now you're sad.
-  ///
-  /// This error is generated **only** by operations that cast allocated types
-  /// (such as `Box` and `Vec`), because in that case the alignment must stay
-  /// exact.
-  AlignmentMismatch,
-}
-#[cfg(not(target_arch = "spirv"))]
-impl core::fmt::Display for PodCastError {
-  fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result {
-    write!(f, "{:?}", self)
-  }
-}
-#[cfg(feature = "extern_crate_std")]
-#[cfg_attr(feature = "nightly_docs", doc(cfg(feature = "extern_crate_std")))]
-impl std::error::Error for PodCastError {}
-
-/// Re-interprets `&T` as `&[u8]`.
-///
-/// Any ZST becomes an empty slice, and in that case the pointer value of that
-/// empty slice might not match the pointer value of the input reference.
-#[inline]
-pub fn bytes_of<T: NoUninit>(t: &T) -> &[u8] {
-  unsafe { internal::bytes_of(t) }
-}
-
-/// Re-interprets `&mut T` as `&mut [u8]`.
-///
-/// Any ZST becomes an empty slice, and in that case the pointer value of that
-/// empty slice might not match the pointer value of the input reference.
-#[inline]
-pub fn bytes_of_mut<T: NoUninit + AnyBitPattern>(t: &mut T) -> &mut [u8] {
-  unsafe { internal::bytes_of_mut(t) }
-}
-
-/// Re-interprets `&[u8]` as `&T`.
-///
-/// ## Panics
-///
-/// This is [`try_from_bytes`] but will panic on error.
-#[inline]
-pub fn from_bytes<T: AnyBitPattern>(s: &[u8]) -> &T {
-  unsafe { internal::from_bytes(s) }
-}
-
-/// Re-interprets `&mut [u8]` as `&mut T`.
-///
-/// ## Panics
-///
-/// This is [`try_from_bytes_mut`] but will panic on error.
-#[inline]
-pub fn from_bytes_mut<T: NoUninit + AnyBitPattern>(s: &mut [u8]) -> &mut T {
-  unsafe { internal::from_bytes_mut(s) }
-}
-
-/// Reads from the bytes as if they were a `T`.
-///
-/// ## Failure
-/// * If the `bytes` length is not equal to `size_of::<T>()`.
-#[inline]
-pub fn try_pod_read_unaligned<T: AnyBitPattern>(
-  bytes: &[u8],
-) -> Result<T, PodCastError> {
-  unsafe { internal::try_pod_read_unaligned(bytes) }
-}
-
-/// Reads the slice into a `T` value.
-///
-/// ## Panics
-/// * This is like `try_pod_read_unaligned` but will panic on failure.
-#[inline]
-pub fn pod_read_unaligned<T: AnyBitPattern>(bytes: &[u8]) -> T {
-  unsafe { internal::pod_read_unaligned(bytes) }
-}
-
-/// Re-interprets `&[u8]` as `&T`.
-///
-/// ## Failure
-///
-/// * If the slice isn't aligned for the new type
-/// * If the slice's length isn’t exactly the size of the new type
-#[inline]
-pub fn try_from_bytes<T: AnyBitPattern>(s: &[u8]) -> Result<&T, PodCastError> {
-  unsafe { internal::try_from_bytes(s) }
-}
-
-/// Re-interprets `&mut [u8]` as `&mut T`.
-///
-/// ## Failure
-///
-/// * If the slice isn't aligned for the new type
-/// * If the slice's length isn’t exactly the size of the new type
-#[inline]
-pub fn try_from_bytes_mut<T: NoUninit + AnyBitPattern>(
-  s: &mut [u8],
-) -> Result<&mut T, PodCastError> {
-  unsafe { internal::try_from_bytes_mut(s) }
-}
-
-/// Cast `T` into `U`
-///
-/// ## Panics
-///
-/// * This is like [`try_cast`](try_cast), but will panic on a size mismatch.
-#[inline]
-pub fn cast<A: NoUninit, B: AnyBitPattern>(a: A) -> B {
-  unsafe { internal::cast(a) }
-}
-
-/// Cast `&mut T` into `&mut U`.
-///
-/// ## Panics
-///
-/// This is [`try_cast_mut`] but will panic on error.
-#[inline]
-pub fn cast_mut<A: NoUninit + AnyBitPattern, B: NoUninit + AnyBitPattern>(
-  a: &mut A,
-) -> &mut B {
-  unsafe { internal::cast_mut(a) }
-}
-
-/// Cast `&T` into `&U`.
-///
-/// ## Panics
-///
-/// This is [`try_cast_ref`] but will panic on error.
-#[inline]
-pub fn cast_ref<A: NoUninit, B: AnyBitPattern>(a: &A) -> &B {
-  unsafe { internal::cast_ref(a) }
-}
-
-/// Cast `&[A]` into `&[B]`.
-///
-/// ## Panics
-///
-/// This is [`try_cast_slice`] but will panic on error.
-#[inline]
-pub fn cast_slice<A: NoUninit, B: AnyBitPattern>(a: &[A]) -> &[B] {
-  unsafe { internal::cast_slice(a) }
-}
-
-/// Cast `&mut [T]` into `&mut [U]`.
-///
-/// ## Panics
-///
-/// This is [`try_cast_slice_mut`] but will panic on error.
-#[inline]
-pub fn cast_slice_mut<
-  A: NoUninit + AnyBitPattern,
-  B: NoUninit + AnyBitPattern,
->(
-  a: &mut [A],
-) -> &mut [B] {
-  unsafe { internal::cast_slice_mut(a) }
-}
-
-/// As `align_to`, but safe because of the [`Pod`] bound.
-#[inline]
-pub fn pod_align_to<T: NoUninit, U: AnyBitPattern>(
-  vals: &[T],
-) -> (&[T], &[U], &[T]) {
-  unsafe { vals.align_to::<U>() }
-}
-
-/// As `align_to_mut`, but safe because of the [`Pod`] bound.
-#[inline]
-pub fn pod_align_to_mut<
-  T: NoUninit + AnyBitPattern,
-  U: NoUninit + AnyBitPattern,
->(
-  vals: &mut [T],
-) -> (&mut [T], &mut [U], &mut [T]) {
-  unsafe { vals.align_to_mut::<U>() }
-}
-
-/// Try to cast `T` into `U`.
-///
-/// Note that for this particular type of cast, alignment isn't a factor. The
-/// input value is semantically copied into the function and then returned to a
-/// new memory location which will have whatever the required alignment of the
-/// output type is.
-///
-/// ## Failure
-///
-/// * If the types don't have the same size this fails.
-#[inline]
-pub fn try_cast<A: NoUninit, B: AnyBitPattern>(
-  a: A,
-) -> Result<B, PodCastError> {
-  unsafe { internal::try_cast(a) }
-}
-
-/// Try to convert a `&T` into `&U`.
-///
-/// ## Failure
-///
-/// * If the reference isn't aligned in the new type
-/// * If the source type and target type aren't the same size.
-#[inline]
-pub fn try_cast_ref<A: NoUninit, B: AnyBitPattern>(
-  a: &A,
-) -> Result<&B, PodCastError> {
-  unsafe { internal::try_cast_ref(a) }
-}
-
-/// Try to convert a `&mut T` into `&mut U`.
-///
-/// As [`try_cast_ref`], but `mut`.
-#[inline]
-pub fn try_cast_mut<
-  A: NoUninit + AnyBitPattern,
-  B: NoUninit + AnyBitPattern,
->(
-  a: &mut A,
-) -> Result<&mut B, PodCastError> {
-  unsafe { internal::try_cast_mut(a) }
-}
-
-/// Try to convert `&[A]` into `&[B]` (possibly with a change in length).
-///
-/// * `input.as_ptr() as usize == output.as_ptr() as usize`
-/// * `input.len() * size_of::<A>() == output.len() * size_of::<B>()`
-///
-/// ## Failure
-///
-/// * If the target type has a greater alignment requirement and the input slice
-///   isn't aligned.
-/// * If the target element type is a different size from the current element
-///   type, and the output slice wouldn't be a whole number of elements when
-///   accounting for the size change (eg: 3 `u16` values is 1.5 `u32` values, so
-///   that's a failure).
-/// * Similarly, you can't convert between a [ZST](https://doc.rust-lang.org/nomicon/exotic-sizes.html#zero-sized-types-zsts)
-///   and a non-ZST.
-#[inline]
-pub fn try_cast_slice<A: NoUninit, B: AnyBitPattern>(
-  a: &[A],
-) -> Result<&[B], PodCastError> {
-  unsafe { internal::try_cast_slice(a) }
-}
-
-/// Try to convert `&mut [A]` into `&mut [B]` (possibly with a change in
-/// length).
-///
-/// As [`try_cast_slice`], but `&mut`.
-#[inline]
-pub fn try_cast_slice_mut<
-  A: NoUninit + AnyBitPattern,
-  B: NoUninit + AnyBitPattern,
->(
-  a: &mut [A],
-) -> Result<&mut [B], PodCastError> {
-  unsafe { internal::try_cast_slice_mut(a) }
-}
-
-/// Fill all bytes of `target` with zeroes (see [`Zeroable`]).
-///
-/// This is similar to `*target = Zeroable::zeroed()`, but guarantees that any
-/// padding bytes in `target` are zeroed as well.
-///
-/// See also [`fill_zeroes`], if you have a slice rather than a single value.
-#[inline]
-pub fn write_zeroes<T: Zeroable>(target: &mut T) {
-  struct EnsureZeroWrite<T>(*mut T);
-  impl<T> Drop for EnsureZeroWrite<T> {
-    #[inline(always)]
-    fn drop(&mut self) {
-      unsafe {
-        core::ptr::write_bytes(self.0, 0u8, 1);
-      }
-    }
-  }
-  unsafe {
-    let guard = EnsureZeroWrite(target);
-    core::ptr::drop_in_place(guard.0);
-    drop(guard);
-  }
-}
-
-/// Fill all bytes of `slice` with zeroes (see [`Zeroable`]).
-///
-/// This is similar to `slice.fill(Zeroable::zeroed())`, but guarantees that any
-/// padding bytes in `slice` are zeroed as well.
-///
-/// See also [`write_zeroes`], which zeroes all bytes of a single value rather
-/// than a slice.
-#[inline]
-pub fn fill_zeroes<T: Zeroable>(slice: &mut [T]) {
-  if core::mem::needs_drop::<T>() {
-    // If `T` needs to be dropped then we have to do this one item at a time, in
-    // case one of the intermediate drops does a panic.
-    slice.iter_mut().for_each(write_zeroes);
-  } else {
-    // Otherwise we can be really fast and just fill everthing with zeros.
-    let len = core::mem::size_of_val::<[T]>(slice);
-    unsafe { core::ptr::write_bytes(slice.as_mut_ptr() as *mut u8, 0u8, len) }
-  }
-}