//! Shuffle vector lanes with run-time indices. use crate::*; pub trait Shuffle1Dyn { type Indices; fn shuffle1_dyn(self, _: Self::Indices) -> Self; } // Fallback implementation macro_rules! impl_fallback { ($id:ident) => { impl Shuffle1Dyn for $id { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { let mut result = Self::splat(0); for i in 0..$id::lanes() { result = result .replace(i, self.extract(indices.extract(i) as usize)); } result } } }; } macro_rules! impl_shuffle1_dyn { (u8x8) => { cfg_if! { if #[cfg(all( any( all(target_arch = "aarch64", target_feature = "neon"), all(target_arch = "arm", target_feature = "v7", target_feature = "neon") ), any(feature = "core_arch", libcore_neon) ) )] { impl Shuffle1Dyn for u8x8 { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { #[cfg(target_arch = "aarch64")] use crate::arch::aarch64::vtbl1_u8; #[cfg(target_arch = "arm")] use crate::arch::arm::vtbl1_u8; // This is safe because the binary is compiled with // neon enabled at compile-time and can therefore only // run on CPUs that have it enabled. unsafe { Simd(mem::transmute( vtbl1_u8(mem::transmute(self.0), crate::mem::transmute(indices.0)) )) } } } } else { impl_fallback!(u8x8); } } }; (u8x16) => { cfg_if! { if #[cfg(all(any(target_arch = "x86", target_arch = "x86_64"), target_feature = "ssse3"))] { impl Shuffle1Dyn for u8x16 { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { #[cfg(target_arch = "x86")] use crate::arch::x86::_mm_shuffle_epi8; #[cfg(target_arch = "x86_64")] use crate::arch::x86_64::_mm_shuffle_epi8; // This is safe because the binary is compiled with // ssse3 enabled at compile-time and can therefore only // run on CPUs that have it enabled. unsafe { Simd(mem::transmute( _mm_shuffle_epi8(mem::transmute(self.0), crate::mem::transmute(indices)) )) } } } } else if #[cfg(all(target_arch = "aarch64", target_feature = "neon", any(feature = "core_arch", libcore_neon)))] { impl Shuffle1Dyn for u8x16 { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { use crate::arch::aarch64::vqtbl1q_u8; // This is safe because the binary is compiled with // neon enabled at compile-time and can therefore only // run on CPUs that have it enabled. unsafe { Simd(mem::transmute( vqtbl1q_u8(mem::transmute(self.0), crate::mem::transmute(indices.0)) )) } } } } else if #[cfg(all(target_arch = "arm", target_feature = "v7", target_feature = "neon", any(feature = "core_arch", libcore_neon)))] { impl Shuffle1Dyn for u8x16 { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { use crate::arch::arm::vtbl2_u8; // This is safe because the binary is compiled with // neon enabled at compile-time and can therefore only // run on CPUs that have it enabled. unsafe { union U { j: u8x16, s: (u8x8, u8x8), } let (i0, i1) = U { j: y }.s; let r0 = vtbl2_u8( mem::transmute(x), crate::mem::transmute(i0) ); let r1 = vtbl2_u8( mem::transmute(x), crate::mem::transmute(i1) ); let r = U { s: (r0, r1) }.j; Simd(mem::transmute(r)) } } } } else { impl_fallback!(u8x16); } } }; (u16x8) => { impl Shuffle1Dyn for u16x8 { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { let indices: u8x8 = (indices * 2).cast(); let indices: u8x16 = shuffle!( indices, [0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7] ); let v = u8x16::new( 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1 ); let indices = indices + v; unsafe { let s: u8x16 =crate::mem::transmute(self); crate::mem::transmute(s.shuffle1_dyn(indices)) } } } }; (u32x4) => { cfg_if! { if #[cfg(all(any(target_arch = "x86", target_arch = "x86_64"), target_feature = "avx"))] { impl Shuffle1Dyn for u32x4 { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { #[cfg(target_arch = "x86")] use crate::arch::x86::{_mm_permutevar_ps}; #[cfg(target_arch = "x86_64")] use crate::arch::x86_64::{_mm_permutevar_ps}; unsafe { crate::mem::transmute( _mm_permutevar_ps( crate::mem::transmute(self.0), crate::mem::transmute(indices.0) ) ) } } } } else { impl Shuffle1Dyn for u32x4 { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { let indices: u8x4 = (indices * 4).cast(); let indices: u8x16 = shuffle!( indices, [0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3] ); let v = u8x16::new( 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3 ); let indices = indices + v; unsafe { let s: u8x16 =crate::mem::transmute(self); crate::mem::transmute(s.shuffle1_dyn(indices)) } } } } } }; (u64x2) => { cfg_if! { if #[cfg(all(any(target_arch = "x86", target_arch = "x86_64"), target_feature = "avx"))] { impl Shuffle1Dyn for u64x2 { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { #[cfg(target_arch = "x86")] use crate::arch::x86::{_mm_permutevar_pd}; #[cfg(target_arch = "x86_64")] use crate::arch::x86_64::{_mm_permutevar_pd}; // _mm_permutevar_pd uses the _second_ bit of each // element to perform the selection, that is: 0b00 => 0, // 0b10 => 1: let indices = indices << 1; unsafe { crate::mem::transmute( _mm_permutevar_pd( crate::mem::transmute(self), crate::mem::transmute(indices) ) ) } } } } else { impl Shuffle1Dyn for u64x2 { type Indices = Self; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { let indices: u8x2 = (indices * 8).cast(); let indices: u8x16 = shuffle!( indices, [0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1] ); let v = u8x16::new( 0, 1, 2, 3, 4, 5, 6, 7, 0, 1, 2, 3, 4, 5, 6, 7 ); let indices = indices + v; unsafe { let s: u8x16 =crate::mem::transmute(self); crate::mem::transmute(s.shuffle1_dyn(indices)) } } } } } }; (u128x1) => { impl Shuffle1Dyn for u128x1 { type Indices = Self; #[inline] fn shuffle1_dyn(self, _indices: Self::Indices) -> Self { self } } }; ($id:ident) => { impl_fallback!($id); } } impl_shuffle1_dyn!(u8x2); impl_shuffle1_dyn!(u8x4); impl_shuffle1_dyn!(u8x8); impl_shuffle1_dyn!(u8x16); impl_shuffle1_dyn!(u8x32); impl_shuffle1_dyn!(u8x64); impl_shuffle1_dyn!(u16x2); impl_shuffle1_dyn!(u16x4); impl_shuffle1_dyn!(u16x8); impl_shuffle1_dyn!(u16x16); impl_shuffle1_dyn!(u16x32); impl_shuffle1_dyn!(u32x2); impl_shuffle1_dyn!(u32x4); impl_shuffle1_dyn!(u32x8); impl_shuffle1_dyn!(u32x16); impl_shuffle1_dyn!(u64x2); impl_shuffle1_dyn!(u64x4); impl_shuffle1_dyn!(u64x8); impl_shuffle1_dyn!(usizex2); impl_shuffle1_dyn!(usizex4); impl_shuffle1_dyn!(usizex8); impl_shuffle1_dyn!(u128x1); impl_shuffle1_dyn!(u128x2); impl_shuffle1_dyn!(u128x4); // Implementation for non-unsigned vector types macro_rules! impl_shuffle1_dyn_non_u { ($id:ident, $uid:ident) => { impl Shuffle1Dyn for $id { type Indices = $uid; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { unsafe { let u: $uid = crate::mem::transmute(self); crate::mem::transmute(u.shuffle1_dyn(indices)) } } } }; } impl_shuffle1_dyn_non_u!(i8x2, u8x2); impl_shuffle1_dyn_non_u!(i8x4, u8x4); impl_shuffle1_dyn_non_u!(i8x8, u8x8); impl_shuffle1_dyn_non_u!(i8x16, u8x16); impl_shuffle1_dyn_non_u!(i8x32, u8x32); impl_shuffle1_dyn_non_u!(i8x64, u8x64); impl_shuffle1_dyn_non_u!(i16x2, u16x2); impl_shuffle1_dyn_non_u!(i16x4, u16x4); impl_shuffle1_dyn_non_u!(i16x8, u16x8); impl_shuffle1_dyn_non_u!(i16x16, u16x16); impl_shuffle1_dyn_non_u!(i16x32, u16x32); impl_shuffle1_dyn_non_u!(i32x2, u32x2); impl_shuffle1_dyn_non_u!(i32x4, u32x4); impl_shuffle1_dyn_non_u!(i32x8, u32x8); impl_shuffle1_dyn_non_u!(i32x16, u32x16); impl_shuffle1_dyn_non_u!(i64x2, u64x2); impl_shuffle1_dyn_non_u!(i64x4, u64x4); impl_shuffle1_dyn_non_u!(i64x8, u64x8); impl_shuffle1_dyn_non_u!(isizex2, usizex2); impl_shuffle1_dyn_non_u!(isizex4, usizex4); impl_shuffle1_dyn_non_u!(isizex8, usizex8); impl_shuffle1_dyn_non_u!(i128x1, u128x1); impl_shuffle1_dyn_non_u!(i128x2, u128x2); impl_shuffle1_dyn_non_u!(i128x4, u128x4); impl_shuffle1_dyn_non_u!(m8x2, u8x2); impl_shuffle1_dyn_non_u!(m8x4, u8x4); impl_shuffle1_dyn_non_u!(m8x8, u8x8); impl_shuffle1_dyn_non_u!(m8x16, u8x16); impl_shuffle1_dyn_non_u!(m8x32, u8x32); impl_shuffle1_dyn_non_u!(m8x64, u8x64); impl_shuffle1_dyn_non_u!(m16x2, u16x2); impl_shuffle1_dyn_non_u!(m16x4, u16x4); impl_shuffle1_dyn_non_u!(m16x8, u16x8); impl_shuffle1_dyn_non_u!(m16x16, u16x16); impl_shuffle1_dyn_non_u!(m16x32, u16x32); impl_shuffle1_dyn_non_u!(m32x2, u32x2); impl_shuffle1_dyn_non_u!(m32x4, u32x4); impl_shuffle1_dyn_non_u!(m32x8, u32x8); impl_shuffle1_dyn_non_u!(m32x16, u32x16); impl_shuffle1_dyn_non_u!(m64x2, u64x2); impl_shuffle1_dyn_non_u!(m64x4, u64x4); impl_shuffle1_dyn_non_u!(m64x8, u64x8); impl_shuffle1_dyn_non_u!(msizex2, usizex2); impl_shuffle1_dyn_non_u!(msizex4, usizex4); impl_shuffle1_dyn_non_u!(msizex8, usizex8); impl_shuffle1_dyn_non_u!(m128x1, u128x1); impl_shuffle1_dyn_non_u!(m128x2, u128x2); impl_shuffle1_dyn_non_u!(m128x4, u128x4); impl_shuffle1_dyn_non_u!(f32x2, u32x2); impl_shuffle1_dyn_non_u!(f32x4, u32x4); impl_shuffle1_dyn_non_u!(f32x8, u32x8); impl_shuffle1_dyn_non_u!(f32x16, u32x16); impl_shuffle1_dyn_non_u!(f64x2, u64x2); impl_shuffle1_dyn_non_u!(f64x4, u64x4); impl_shuffle1_dyn_non_u!(f64x8, u64x8); // Implementation for non-unsigned vector types macro_rules! impl_shuffle1_dyn_ptr { ($id:ident, $uid:ident) => { impl Shuffle1Dyn for $id { type Indices = $uid; #[inline] fn shuffle1_dyn(self, indices: Self::Indices) -> Self { unsafe { let u: $uid = crate::mem::transmute(self); crate::mem::transmute(u.shuffle1_dyn(indices)) } } } }; } impl_shuffle1_dyn_ptr!(cptrx2, usizex2); impl_shuffle1_dyn_ptr!(cptrx4, usizex4); impl_shuffle1_dyn_ptr!(cptrx8, usizex8); impl_shuffle1_dyn_ptr!(mptrx2, usizex2); impl_shuffle1_dyn_ptr!(mptrx4, usizex4); impl_shuffle1_dyn_ptr!(mptrx8, usizex8);