src/convert.rs - platform/external/rust/crates/ahash - Git at Google

 pub(crate) trait Convert<To> {
     fn convert(self) -> To;
 }

 macro_rules! convert {
     ($a:ty, $b:ty) => {
         impl Convert<$b> for $a {
             #[inline(always)]
             fn convert(self) -> $b {
                 unsafe {
                     let mut result: $b = core::mem::zeroed();
                     core::ptr::copy_nonoverlapping(
                         &self as *const $a as *const u8,
                         &mut result as *mut $b as *mut u8,
                         core::mem::size_of::<$b>(),
                     );
                     return result;
                 }
             }
         }
         impl Convert<$a> for $b {
             #[inline(always)]
             fn convert(self) -> $a {
                 unsafe {
                     let mut result: $a = core::mem::zeroed();
                     core::ptr::copy_nonoverlapping(
                         &self as *const $b as *const u8,
                         &mut result as *mut $a as *mut u8,
                         core::mem::size_of::<$a>(),
                     );
                     return result;
                 }
             }
         }
     };
 }

 convert!([u128; 4], [u64; 8]);
 convert!([u128; 4], [u32; 16]);
 convert!([u128; 4], [u16; 32]);
 convert!([u128; 4], [u8; 64]);
 convert!([u128; 2], [u64; 4]);
 convert!([u128; 2], [u32; 8]);
 convert!([u128; 2], [u16; 16]);
 convert!([u128; 2], [u8; 32]);
 convert!(u128, [u64; 2]);
 convert!(u128, [u32; 4]);
 convert!(u128, [u16; 8]);
 convert!(u128, [u8; 16]);
 convert!([u64; 8], [u32; 16]);
 convert!([u64; 8], [u16; 32]);
 convert!([u64; 8], [u8; 64]);
 convert!([u64; 4], [u32; 8]);
 convert!([u64; 4], [u16; 16]);
 convert!([u64; 4], [u8; 32]);
 convert!([u64; 2], [u32; 4]);
 convert!([u64; 2], [u16; 8]);
 convert!([u64; 2], [u8; 16]);
 convert!([u32; 4], [u16; 8]);
 convert!([u32; 4], [u8; 16]);
 convert!([u16; 8], [u8; 16]);
 convert!(u64, [u32; 2]);
 convert!(u64, [u16; 4]);
 convert!(u64, [u8; 8]);
 convert!([u32; 2], [u16; 4]);
 convert!([u32; 2], [u8; 8]);
 convert!(u32, [u16; 2]);
 convert!(u32, [u8; 4]);
 convert!([u16; 2], [u8; 4]);
 convert!(u16, [u8; 2]);
 convert!([[u64; 4]; 2], [u8; 64]);

 convert!([f64; 2], [u8; 16]);
 convert!([f32; 4], [u8; 16]);
 convert!(f64, [u8; 8]);
 convert!([f32; 2], [u8; 8]);
 convert!(f32, [u8; 4]);

 macro_rules! as_array {
     ($input:expr, $len:expr) => {{
         {
             #[inline(always)]
             fn as_array<T>(slice: &[T]) -> &[T; $len] {
                 assert_eq!(slice.len(), $len);
                 unsafe { &*(slice.as_ptr() as *const [_; $len]) }
             }
             as_array($input)
         }
     }};
 }

 pub(crate) trait ReadFromSlice {
     fn read_u16(&self) -> (u16, &[u8]);
     fn read_u32(&self) -> (u32, &[u8]);
     fn read_u64(&self) -> (u64, &[u8]);
     fn read_u128(&self) -> (u128, &[u8]);
     fn read_u128x2(&self) -> ([u128; 2], &[u8]);
     fn read_u128x4(&self) -> ([u128; 4], &[u8]);
     fn read_last_u16(&self) -> u16;
     fn read_last_u32(&self) -> u32;
     fn read_last_u64(&self) -> u64;
     fn read_last_u128(&self) -> u128;
     fn read_last_u128x2(&self) -> [u128; 2];
     fn read_last_u128x4(&self) -> [u128; 4];
 }

 impl ReadFromSlice for [u8] {
     #[inline(always)]
     fn read_u16(&self) -> (u16, &[u8]) {
         let (value, rest) = self.split_at(2);
         (as_array!(value, 2).convert(), rest)
     }

     #[inline(always)]
     fn read_u32(&self) -> (u32, &[u8]) {
         let (value, rest) = self.split_at(4);
         (as_array!(value, 4).convert(), rest)
     }

     #[inline(always)]
     fn read_u64(&self) -> (u64, &[u8]) {
         let (value, rest) = self.split_at(8);
         (as_array!(value, 8).convert(), rest)
     }

     #[inline(always)]
     fn read_u128(&self) -> (u128, &[u8]) {
         let (value, rest) = self.split_at(16);
         (as_array!(value, 16).convert(), rest)
     }

     #[inline(always)]
     fn read_u128x2(&self) -> ([u128; 2], &[u8]) {
         let (value, rest) = self.split_at(32);
         (as_array!(value, 32).convert(), rest)
     }

     #[inline(always)]
     fn read_u128x4(&self) -> ([u128; 4], &[u8]) {
         let (value, rest) = self.split_at(64);
         (as_array!(value, 64).convert(), rest)
     }

     #[inline(always)]
     fn read_last_u16(&self) -> u16 {
         let (_, value) = self.split_at(self.len() - 2);
         as_array!(value, 2).convert()
     }

     #[inline(always)]
     fn read_last_u32(&self) -> u32 {
         let (_, value) = self.split_at(self.len() - 4);
         as_array!(value, 4).convert()
     }

     #[inline(always)]
     fn read_last_u64(&self) -> u64 {
         let (_, value) = self.split_at(self.len() - 8);
         as_array!(value, 8).convert()
     }

     #[inline(always)]
     fn read_last_u128(&self) -> u128 {
         let (_, value) = self.split_at(self.len() - 16);
         as_array!(value, 16).convert()
     }

     #[inline(always)]
     fn read_last_u128x2(&self) -> [u128; 2] {
         let (_, value) = self.split_at(self.len() - 32);
         as_array!(value, 32).convert()
     }

     #[inline(always)]
     fn read_last_u128x4(&self) -> [u128; 4] {
         let (_, value) = self.split_at(self.len() - 64);
         as_array!(value, 64).convert()
     }
 }
	pub(crate) trait Convert<To> {
	fn convert(self) -> To;
	}

	macro_rules! convert {
	($a:ty, $b:ty) => {
	impl Convert<$b> for $a {
	#[inline(always)]
	fn convert(self) -> $b {
	unsafe {
	let mut result: $b = core::mem::zeroed();
	core::ptr::copy_nonoverlapping(
	&self as const $a as const u8,
	&mut result as mut $b as mut u8,
	core::mem::size_of::<$b>(),
	);
	return result;
	}
	}
	}
	impl Convert<$a> for $b {
	#[inline(always)]
	fn convert(self) -> $a {
	unsafe {
	let mut result: $a = core::mem::zeroed();
	core::ptr::copy_nonoverlapping(
	&self as const $b as const u8,
	&mut result as mut $a as mut u8,
	core::mem::size_of::<$a>(),
	);
	return result;
	}
	}
	}
	};
	}

	convert!([u128; 4], [u64; 8]);
	convert!([u128; 4], [u32; 16]);
	convert!([u128; 4], [u16; 32]);
	convert!([u128; 4], [u8; 64]);
	convert!([u128; 2], [u64; 4]);
	convert!([u128; 2], [u32; 8]);
	convert!([u128; 2], [u16; 16]);
	convert!([u128; 2], [u8; 32]);
	convert!(u128, [u64; 2]);
	convert!(u128, [u32; 4]);
	convert!(u128, [u16; 8]);
	convert!(u128, [u8; 16]);
	convert!([u64; 8], [u32; 16]);
	convert!([u64; 8], [u16; 32]);
	convert!([u64; 8], [u8; 64]);
	convert!([u64; 4], [u32; 8]);
	convert!([u64; 4], [u16; 16]);
	convert!([u64; 4], [u8; 32]);
	convert!([u64; 2], [u32; 4]);
	convert!([u64; 2], [u16; 8]);
	convert!([u64; 2], [u8; 16]);
	convert!([u32; 4], [u16; 8]);
	convert!([u32; 4], [u8; 16]);
	convert!([u16; 8], [u8; 16]);
	convert!(u64, [u32; 2]);
	convert!(u64, [u16; 4]);
	convert!(u64, [u8; 8]);
	convert!([u32; 2], [u16; 4]);
	convert!([u32; 2], [u8; 8]);
	convert!(u32, [u16; 2]);
	convert!(u32, [u8; 4]);
	convert!([u16; 2], [u8; 4]);
	convert!(u16, [u8; 2]);
	convert!([[u64; 4]; 2], [u8; 64]);

	convert!([f64; 2], [u8; 16]);
	convert!([f32; 4], [u8; 16]);
	convert!(f64, [u8; 8]);
	convert!([f32; 2], [u8; 8]);
	convert!(f32, [u8; 4]);

	macro_rules! as_array {
	($input:expr, $len:expr) => {{
	{
	#[inline(always)]
	fn as_array<T>(slice: &[T]) -> &[T; $len] {
	assert_eq!(slice.len(), $len);
	unsafe { &(slice.as_ptr() as const [_; $len]) }
	}
	as_array($input)
	}
	}};
	}

	pub(crate) trait ReadFromSlice {
	fn read_u16(&self) -> (u16, &[u8]);
	fn read_u32(&self) -> (u32, &[u8]);
	fn read_u64(&self) -> (u64, &[u8]);
	fn read_u128(&self) -> (u128, &[u8]);
	fn read_u128x2(&self) -> ([u128; 2], &[u8]);
	fn read_u128x4(&self) -> ([u128; 4], &[u8]);
	fn read_last_u16(&self) -> u16;
	fn read_last_u32(&self) -> u32;
	fn read_last_u64(&self) -> u64;
	fn read_last_u128(&self) -> u128;
	fn read_last_u128x2(&self) -> [u128; 2];
	fn read_last_u128x4(&self) -> [u128; 4];
	}

	impl ReadFromSlice for [u8] {
	#[inline(always)]
	fn read_u16(&self) -> (u16, &[u8]) {
	let (value, rest) = self.split_at(2);
	(as_array!(value, 2).convert(), rest)
	}

	#[inline(always)]
	fn read_u32(&self) -> (u32, &[u8]) {
	let (value, rest) = self.split_at(4);
	(as_array!(value, 4).convert(), rest)
	}

	#[inline(always)]
	fn read_u64(&self) -> (u64, &[u8]) {
	let (value, rest) = self.split_at(8);
	(as_array!(value, 8).convert(), rest)
	}

	#[inline(always)]
	fn read_u128(&self) -> (u128, &[u8]) {
	let (value, rest) = self.split_at(16);
	(as_array!(value, 16).convert(), rest)
	}

	#[inline(always)]
	fn read_u128x2(&self) -> ([u128; 2], &[u8]) {
	let (value, rest) = self.split_at(32);
	(as_array!(value, 32).convert(), rest)
	}

	#[inline(always)]
	fn read_u128x4(&self) -> ([u128; 4], &[u8]) {
	let (value, rest) = self.split_at(64);
	(as_array!(value, 64).convert(), rest)
	}

	#[inline(always)]
	fn read_last_u16(&self) -> u16 {
	let (_, value) = self.split_at(self.len() - 2);
	as_array!(value, 2).convert()
	}

	#[inline(always)]
	fn read_last_u32(&self) -> u32 {
	let (_, value) = self.split_at(self.len() - 4);
	as_array!(value, 4).convert()
	}

	#[inline(always)]
	fn read_last_u64(&self) -> u64 {
	let (_, value) = self.split_at(self.len() - 8);
	as_array!(value, 8).convert()
	}

	#[inline(always)]
	fn read_last_u128(&self) -> u128 {
	let (_, value) = self.split_at(self.len() - 16);
	as_array!(value, 16).convert()
	}

	#[inline(always)]
	fn read_last_u128x2(&self) -> [u128; 2] {
	let (_, value) = self.split_at(self.len() - 32);
	as_array!(value, 32).convert()
	}

	#[inline(always)]
	fn read_last_u128x4(&self) -> [u128; 4] {
	let (_, value) = self.split_at(self.len() - 64);
	as_array!(value, 64).convert()
	}
	}