use crate::simd::{LaneCount, Simd, SupportedLaneCount}; use core::{ iter::{Product, Sum}, ops::{Add, Mul}, }; macro_rules! impl_traits { { $type:ty } => { impl Sum for Simd<$type, LANES> where LaneCount: SupportedLaneCount, { fn sum>(iter: I) -> Self { iter.fold(Simd::splat(0 as $type), Add::add) } } impl Product for Simd<$type, LANES> where LaneCount: SupportedLaneCount, { fn product>(iter: I) -> Self { iter.fold(Simd::splat(1 as $type), Mul::mul) } } impl<'a, const LANES: usize> Sum<&'a Self> for Simd<$type, LANES> where LaneCount: SupportedLaneCount, { fn sum>(iter: I) -> Self { iter.fold(Simd::splat(0 as $type), Add::add) } } impl<'a, const LANES: usize> Product<&'a Self> for Simd<$type, LANES> where LaneCount: SupportedLaneCount, { fn product>(iter: I) -> Self { iter.fold(Simd::splat(1 as $type), Mul::mul) } } } } impl_traits! { f32 } impl_traits! { f64 } impl_traits! { u8 } impl_traits! { u16 } impl_traits! { u32 } impl_traits! { u64 } impl_traits! { usize } impl_traits! { i8 } impl_traits! { i16 } impl_traits! { i32 } impl_traits! { i64 } impl_traits! { isize }