// Copyright (c) the JPEG XL Project Authors. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #![allow(unused)] #![allow(clippy::type_complexity)] #![allow(clippy::erasing_op)] #![allow(clippy::identity_op)] use crate::*; use jxl_simd::{F32SimdVec, SimdDescriptor}; #[allow(clippy::too_many_arguments)] #[allow(clippy::excessive_precision)] #[inline(always)] pub(super) fn idct_4( d: D, mut v0: D::F32Vec, mut v1: D::F32Vec, mut v2: D::F32Vec, mut v3: D::F32Vec, ) -> (D::F32Vec, D::F32Vec, D::F32Vec, D::F32Vec) { let mut v4 = v0 + v2; let mut v5 = v0 - v2; let mut v6 = v1 + v3; let mut v7 = v1 * D::F32Vec::splat(d, std::f32::consts::SQRT_2); let mut v8 = v7 + v6; let mut v9 = v7 - v6; let mul = D::F32Vec::splat(d, 0.5411961001461970); let mut v10 = v8.mul_add(mul, v4); let mut v11 = v8.neg_mul_add(mul, v4); let mul = D::F32Vec::splat(d, 1.3065629648763764); let mut v12 = v9.mul_add(mul, v5); let mut v13 = v9.neg_mul_add(mul, v5); (v10, v12, v13, v11) } #[inline(always)] pub(super) fn do_idct_4( d: D, data: &mut [::UnderlyingArray], stride: usize, ) { assert!(data.len() > 3 * stride); let mut v0 = D::F32Vec::load_array(d, &data[0 * stride]); let mut v1 = D::F32Vec::load_array(d, &data[1 * stride]); let mut v2 = D::F32Vec::load_array(d, &data[2 * stride]); let mut v3 = D::F32Vec::load_array(d, &data[3 * stride]); (v0, v1, v2, v3) = idct_4(d, v0, v1, v2, v3); v0.store_array(&mut data[0 * stride]); v1.store_array(&mut data[1 * stride]); v2.store_array(&mut data[2 * stride]); v3.store_array(&mut data[3 * stride]); } #[inline(always)] pub(super) fn do_idct_4_rowblock( d: D, data: &mut [::UnderlyingArray], ) { assert!(data.len() >= 4); const { assert!(4usize.is_multiple_of(D::F32Vec::LEN)) }; let row_stride = 4 / D::F32Vec::LEN; let mut v0 = D::F32Vec::load_array( d, &data[row_stride * (0 % D::F32Vec::LEN) + (0 / D::F32Vec::LEN)], ); let mut v1 = D::F32Vec::load_array( d, &data[row_stride * (1 % D::F32Vec::LEN) + (1 / D::F32Vec::LEN)], ); let mut v2 = D::F32Vec::load_array( d, &data[row_stride * (2 % D::F32Vec::LEN) + (2 / D::F32Vec::LEN)], ); let mut v3 = D::F32Vec::load_array( d, &data[row_stride * (3 % D::F32Vec::LEN) + (3 / D::F32Vec::LEN)], ); (v0, v1, v2, v3) = idct_4(d, v0, v1, v2, v3); v0.store_array(&mut data[row_stride * (0 % D::F32Vec::LEN) + (0 / D::F32Vec::LEN)]); v1.store_array(&mut data[row_stride * (1 % D::F32Vec::LEN) + (1 / D::F32Vec::LEN)]); v2.store_array(&mut data[row_stride * (2 % D::F32Vec::LEN) + (2 / D::F32Vec::LEN)]); v3.store_array(&mut data[row_stride * (3 % D::F32Vec::LEN) + (3 / D::F32Vec::LEN)]); } #[inline(always)] pub(super) fn do_idct_4_trh( d: D, data: &mut [::UnderlyingArray], ) { let row_stride = 2 / D::F32Vec::LEN; assert!(data.len() > 3 * row_stride); const { assert!(2usize.is_multiple_of(D::F32Vec::LEN)) }; let mut v0 = D::F32Vec::load_array(d, &data[row_stride * 0]); let mut v1 = D::F32Vec::load_array(d, &data[row_stride * 2]); let mut v2 = D::F32Vec::load_array(d, &data[row_stride * 1]); let mut v3 = D::F32Vec::load_array(d, &data[row_stride * 3]); (v0, v1, v2, v3) = idct_4(d, v0, v1, v2, v3); v0.store_array(&mut data[row_stride * 0]); v1.store_array(&mut data[row_stride * 1]); v2.store_array(&mut data[row_stride * 2]); v3.store_array(&mut data[row_stride * 3]); }