vendor/packed_simd/src/api/ops/scalar_bitwise.rs - toolchain/rustc - Git at Google

 //! Vertical (lane-wise) vector-scalar / scalar-vector bitwise operations.

 macro_rules! impl_ops_scalar_bitwise {
     (
         [$elem_ty:ident; $elem_count:expr]:
         $id:ident | $test_tt:tt |
         ($true:expr, $false:expr)
     ) => {
         impl crate::ops::BitXor<$elem_ty> for $id {
             type Output = Self;
             #[inline]
             fn bitxor(self, other: $elem_ty) -> Self {
                 self ^ $id::splat(other)
             }
         }
         impl crate::ops::BitXor<$id> for $elem_ty {
             type Output = $id;
             #[inline]
             fn bitxor(self, other: $id) -> $id {
                 $id::splat(self) ^ other
             }
         }

         impl crate::ops::BitAnd<$elem_ty> for $id {
             type Output = Self;
             #[inline]
             fn bitand(self, other: $elem_ty) -> Self {
                 self & $id::splat(other)
             }
         }
         impl crate::ops::BitAnd<$id> for $elem_ty {
             type Output = $id;
             #[inline]
             fn bitand(self, other: $id) -> $id {
                 $id::splat(self) & other
             }
         }

         impl crate::ops::BitOr<$elem_ty> for $id {
             type Output = Self;
             #[inline]
             fn bitor(self, other: $elem_ty) -> Self {
                 self | $id::splat(other)
             }
         }
         impl crate::ops::BitOr<$id> for $elem_ty {
             type Output = $id;
             #[inline]
             fn bitor(self, other: $id) -> $id {
                 $id::splat(self) | other
             }
         }

         impl crate::ops::BitAndAssign<$elem_ty> for $id {
             #[inline]
             fn bitand_assign(&mut self, other: $elem_ty) {
                 *self = *self & other;
             }
         }
         impl crate::ops::BitOrAssign<$elem_ty> for $id {
             #[inline]
             fn bitor_assign(&mut self, other: $elem_ty) {
                 *self = *self | other;
             }
         }
         impl crate::ops::BitXorAssign<$elem_ty> for $id {
             #[inline]
             fn bitxor_assign(&mut self, other: $elem_ty) {
                 *self = *self ^ other;
             }
         }

         test_if!{
             $test_tt:
             paste::item! {
                 pub mod [<$id _ops_scalar_bitwise>] {
                     use super::*;

                     #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)]
                     fn ops_scalar_bitwise() {
                         let zi = 0 as $elem_ty;
                         let oi = 1 as $elem_ty;
                         let ti = 2 as $elem_ty;
                         let z = $id::splat(zi);
                         let o = $id::splat(oi);
                         let t = $id::splat(ti);

                         // BitAnd:
                         assert_eq!(oi & o, o);
                         assert_eq!(o & oi, o);
                         assert_eq!(oi & z, z);
                         assert_eq!(o & zi, z);
                         assert_eq!(zi & o, z);
                         assert_eq!(z & oi, z);
                         assert_eq!(zi & z, z);
                         assert_eq!(z & zi, z);

                         assert_eq!(ti & t, t);
                         assert_eq!(t & ti, t);
                         assert_eq!(ti & o, z);
                         assert_eq!(t & oi, z);
                         assert_eq!(oi & t, z);
                         assert_eq!(o & ti, z);

                         // BitOr:
                         assert_eq!(oi | o, o);
                         assert_eq!(o | oi, o);
                         assert_eq!(oi | z, o);
                         assert_eq!(o | zi, o);
                         assert_eq!(zi | o, o);
                         assert_eq!(z | oi, o);
                         assert_eq!(zi | z, z);
                         assert_eq!(z | zi, z);

                         assert_eq!(ti | t, t);
                         assert_eq!(t | ti, t);
                         assert_eq!(zi | t, t);
                         assert_eq!(z | ti, t);
                         assert_eq!(ti | z, t);
                         assert_eq!(t | zi, t);

                         // BitXOR:
                         assert_eq!(oi ^ o, z);
                         assert_eq!(o ^ oi, z);
                         assert_eq!(zi ^ z, z);
                         assert_eq!(z ^ zi, z);
                         assert_eq!(zi ^ o, o);
                         assert_eq!(z ^ oi, o);
                         assert_eq!(oi ^ z, o);
                         assert_eq!(o ^ zi, o);

                         assert_eq!(ti ^ t, z);
                         assert_eq!(t ^ ti, z);
                         assert_eq!(ti ^ z, t);
                         assert_eq!(t ^ zi, t);
                         assert_eq!(zi ^ t, t);
                         assert_eq!(z ^ ti, t);

                         {
                             // AndAssign:
                             let mut v = o;
                             v &= ti;
                             assert_eq!(v, z);
                         }
                         {
                             // OrAssign:
                             let mut v = z;
                             v |= oi;
                             assert_eq!(v, o);
                         }
                         {
                             // XORAssign:
                             let mut v = z;
                             v ^= oi;
                             assert_eq!(v, o);
                         }
                     }
                 }
             }
         }
     };
 }
	//! Vertical (lane-wise) vector-scalar / scalar-vector bitwise operations.

	macro_rules! impl_ops_scalar_bitwise {
	(
	[$elem_ty:ident; $elem_count:expr]:
	$id:ident \| $test_tt:tt \|
	($true:expr, $false:expr)
	) => {
	impl crate::ops::BitXor<$elem_ty> for $id {
	type Output = Self;
	#[inline]
	fn bitxor(self, other: $elem_ty) -> Self {
	self ^ $id::splat(other)
	}
	}
	impl crate::ops::BitXor<$id> for $elem_ty {
	type Output = $id;
	#[inline]
	fn bitxor(self, other: $id) -> $id {
	$id::splat(self) ^ other
	}
	}

	impl crate::ops::BitAnd<$elem_ty> for $id {
	type Output = Self;
	#[inline]
	fn bitand(self, other: $elem_ty) -> Self {
	self & $id::splat(other)
	}
	}
	impl crate::ops::BitAnd<$id> for $elem_ty {
	type Output = $id;
	#[inline]
	fn bitand(self, other: $id) -> $id {
	$id::splat(self) & other
	}
	}

	impl crate::ops::BitOr<$elem_ty> for $id {
	type Output = Self;
	#[inline]
	fn bitor(self, other: $elem_ty) -> Self {
	self \| $id::splat(other)
	}
	}
	impl crate::ops::BitOr<$id> for $elem_ty {
	type Output = $id;
	#[inline]
	fn bitor(self, other: $id) -> $id {
	$id::splat(self) \| other
	}
	}

	impl crate::ops::BitAndAssign<$elem_ty> for $id {
	#[inline]
	fn bitand_assign(&mut self, other: $elem_ty) {
	self = self & other;
	}
	}
	impl crate::ops::BitOrAssign<$elem_ty> for $id {
	#[inline]
	fn bitor_assign(&mut self, other: $elem_ty) {
	self = self \| other;
	}
	}
	impl crate::ops::BitXorAssign<$elem_ty> for $id {
	#[inline]
	fn bitxor_assign(&mut self, other: $elem_ty) {
	self = self ^ other;
	}
	}

	test_if!{
	$test_tt:
	paste::item! {
	pub mod [<$id _ops_scalar_bitwise>] {
	use super::*;

	#[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)]
	fn ops_scalar_bitwise() {
	let zi = 0 as $elem_ty;
	let oi = 1 as $elem_ty;
	let ti = 2 as $elem_ty;
	let z = $id::splat(zi);
	let o = $id::splat(oi);
	let t = $id::splat(ti);

	// BitAnd:
	assert_eq!(oi & o, o);
	assert_eq!(o & oi, o);
	assert_eq!(oi & z, z);
	assert_eq!(o & zi, z);
	assert_eq!(zi & o, z);
	assert_eq!(z & oi, z);
	assert_eq!(zi & z, z);
	assert_eq!(z & zi, z);

	assert_eq!(ti & t, t);
	assert_eq!(t & ti, t);
	assert_eq!(ti & o, z);
	assert_eq!(t & oi, z);
	assert_eq!(oi & t, z);
	assert_eq!(o & ti, z);

	// BitOr:
	assert_eq!(oi \| o, o);
	assert_eq!(o \| oi, o);
	assert_eq!(oi \| z, o);
	assert_eq!(o \| zi, o);
	assert_eq!(zi \| o, o);
	assert_eq!(z \| oi, o);
	assert_eq!(zi \| z, z);
	assert_eq!(z \| zi, z);

	assert_eq!(ti \| t, t);
	assert_eq!(t \| ti, t);
	assert_eq!(zi \| t, t);
	assert_eq!(z \| ti, t);
	assert_eq!(ti \| z, t);
	assert_eq!(t \| zi, t);

	// BitXOR:
	assert_eq!(oi ^ o, z);
	assert_eq!(o ^ oi, z);
	assert_eq!(zi ^ z, z);
	assert_eq!(z ^ zi, z);
	assert_eq!(zi ^ o, o);
	assert_eq!(z ^ oi, o);
	assert_eq!(oi ^ z, o);
	assert_eq!(o ^ zi, o);

	assert_eq!(ti ^ t, z);
	assert_eq!(t ^ ti, z);
	assert_eq!(ti ^ z, t);
	assert_eq!(t ^ zi, t);
	assert_eq!(zi ^ t, t);
	assert_eq!(z ^ ti, t);

	{
	// AndAssign:
	let mut v = o;
	v &= ti;
	assert_eq!(v, z);
	}
	{
	// OrAssign:
	let mut v = z;
	v \|= oi;
	assert_eq!(v, o);
	}
	{
	// XORAssign:
	let mut v = z;
	v ^= oi;
	assert_eq!(v, o);
	}
	}
	}
	}
	}
	};
	}