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aomedia / aom / f761795853ba48a282 / . / av1 / common / clpf_simd.h
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/*
* Copyright (c) 2016, Alliance for Open Media. All rights reserved
*
* This source code is subject to the terms of the BSD 2 Clause License and
* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
* was not distributed with this source code in the LICENSE file, you can
* obtain it at www.aomedia.org/license/software. If the Alliance for Open
* Media Patent License 1.0 was not distributed with this source code in the
* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
*/
#include "./aom_dsp_rtcd.h"
SIMD_INLINE void calc_delta(v128 o, v128 x, v128 a, v128 b, v128 c, v128 d,
v128 e, v128 f, uint8_t *dst, v128 sp, v128 sm,
int dstride) {
const v128 c8 = v128_dup_8(8);
const v128 tmp =
v128_add_8(v128_max_s8(v128_min_s8(v128_ssub_s8(c, x), sp), sm),
v128_max_s8(v128_min_s8(v128_ssub_s8(d, x), sp), sm));
const v128 delta = v128_add_8(
v128_add_8(
v128_shl_8(
v128_add_8(v128_max_s8(v128_min_s8(v128_ssub_s8(a, x), sp), sm),
v128_max_s8(v128_min_s8(v128_ssub_s8(f, x), sp), sm)),
2),
v128_add_8(v128_max_s8(v128_min_s8(v128_ssub_s8(b, x), sp), sm),
v128_max_s8(v128_min_s8(v128_ssub_s8(e, x), sp), sm))),
v128_add_8(v128_add_8(tmp, tmp), tmp));
o = v128_add_8(
o,
v128_shr_s8(
v128_add_8(c8, v128_add_8(delta, v128_cmplt_s8(delta, v128_zero()))),
4));
v64_store_aligned(dst, v128_high_v64(o));
v64_store_aligned(dst + dstride, v128_low_v64(o));
}
static void clpf_block(const uint8_t *src, uint8_t *dst, int sstride,
int dstride, int x0, int y0, int sizey, int width,
int height, unsigned int strength) {
int bottom = height - 2 - y0;
const v128 sp = v128_dup_8(strength);
const v128 sm = v128_dup_8(-(int)strength);
const v128 c128 = v128_dup_8(128);
dst += x0 + y0 * dstride;
src += x0 + y0 * sstride;
if (!x0) { // Clip left
const v128 b_shuff = v128_from_v64(v64_from_64(0x0d0c0b0a09080808LL),
v64_from_64(0x0504030201000000LL));
const v128 c_shuff = v128_from_v64(v64_from_64(0x0e0d0c0b0a090808LL),
v64_from_64(0x0605040302010000LL));
int y;
for (y = 0; y < sizey; y += 2) {
const v64 l1 = v64_load_aligned(src);
const v64 l2 = v64_load_aligned(src + sstride);
v128 o = v128_from_v64(l1, l2);
const v128 x = v128_add_8(c128, o);
const v128 a = v128_add_8(
c128,
v128_from_v64(v64_load_aligned(src - (y != -y0) * sstride), l1));
const v128 b = v128_shuffle_8(x, b_shuff);
const v128 c = v128_shuffle_8(x, c_shuff);
const v128 d = v128_add_8(
c128, v128_from_v64(v64_load_unaligned(src + 1),
v64_load_unaligned(src + 1 + sstride)));
const v128 e = v128_add_8(
c128, v128_from_v64(v64_load_unaligned(src + 2),
v64_load_unaligned(src + 2 + sstride)));
const v128 f = v128_add_8(
c128, v128_from_v64(
l2, v64_load_aligned(src + ((y != bottom) + 1) * sstride)));
calc_delta(o, x, a, b, c, d, e, f, dst, sp, sm, dstride);
src += sstride * 2;
dst += dstride * 2;
}
} else if (!(width - x0 - 8)) { // Clip right
const v128 d_shuff = v128_from_v64(v64_from_64(0x0f0f0e0d0c0b0a09LL),
v64_from_64(0x0707060504030201LL));
const v128 e_shuff = v128_from_v64(v64_from_64(0x0f0f0f0e0d0c0b0aLL),
v64_from_64(0x0707070605040302LL));
int y;
for (y = 0; y < sizey; y += 2) {
const v64 l1 = v64_load_aligned(src);
const v64 l2 = v64_load_aligned(src + sstride);
v128 o = v128_from_v64(l1, l2);
const v128 x = v128_add_8(c128, o);
const v128 a = v128_add_8(
c128,
v128_from_v64(v64_load_aligned(src - (y != -y0) * sstride), l1));
const v128 b = v128_add_8(
c128, v128_from_v64(v64_load_unaligned(src - 2),
v64_load_unaligned(src - 2 + sstride)));
const v128 c = v128_add_8(
c128, v128_from_v64(v64_load_unaligned(src - 1),
v64_load_unaligned(src - 1 + sstride)));
const v128 d = v128_shuffle_8(x, d_shuff);
const v128 e = v128_shuffle_8(x, e_shuff);
const v128 f = v128_add_8(
c128, v128_from_v64(
l2, v64_load_aligned(src + ((y != bottom) + 1) * sstride)));
calc_delta(o, x, a, b, c, d, e, f, dst, sp, sm, dstride);
src += sstride * 2;
dst += dstride * 2;
}
} else { // No left/right clipping
int y;
for (y = 0; y < sizey; y += 2) {
const v64 l1 = v64_load_aligned(src);
const v64 l2 = v64_load_aligned(src + sstride);
v128 o = v128_from_v64(l1, l2);
const v128 x = v128_add_8(c128, o);
const v128 a = v128_add_8(
c128,
v128_from_v64(v64_load_aligned(src - (y != -y0) * sstride), l1));
const v128 b = v128_add_8(
c128, v128_from_v64(v64_load_unaligned(src - 2),
v64_load_unaligned(src - 2 + sstride)));
const v128 c = v128_add_8(
c128, v128_from_v64(v64_load_unaligned(src - 1),
v64_load_unaligned(src - 1 + sstride)));
const v128 d = v128_add_8(
c128, v128_from_v64(v64_load_unaligned(src + 1),
v64_load_unaligned(src + 1 + sstride)));
const v128 e = v128_add_8(
c128, v128_from_v64(v64_load_unaligned(src + 2),
v64_load_unaligned(src + 2 + sstride)));
const v128 f = v128_add_8(
c128, v128_from_v64(
l2, v64_load_aligned(src + ((y != bottom) + 1) * sstride)));
calc_delta(o, x, a, b, c, d, e, f, dst, sp, sm, dstride);
src += sstride * 2;
dst += dstride * 2;
}
}
}
void SIMD_FUNC(aom_clpf_block)(const uint8_t *src, uint8_t *dst, int sstride,
int dstride, int x0, int y0, int sizex,
int sizey, int width, int height,
unsigned int strength) {
// TODO(stemidts):
// A sizex different from 8 will only be needed if CLPF is extended to chroma.
// This will only be used if 4:2:0 and width not a multiple of 16 and along
// the right edge only, so we can fall back to the plain C implementation in
// this case. If not extended to chroma, this test will be redundant.
if (sizex != 8 || width < 16 || y0 + 8 > height || x0 + 8 > width) {
// Fallback to C for odd sizes
aom_clpf_block_c(src, dst, sstride, dstride, x0, y0, sizex, sizey, width,
height, strength);
} else {
clpf_block(src, dst, sstride, dstride, x0, y0, sizey, width, height,
strength);
}
}
#if CONFIG_AOM_HIGHBITDEPTH
static void calc_delta_hbd(v128 o, v128 a, v128 b, v128 c, v128 d, v128 e,
v128 f, uint16_t *dst, v128 sp, v128 sm) {
const v128 c8 = v128_dup_16(8);
const v128 tmp =
v128_add_16(v128_max_s16(v128_min_s16(v128_sub_16(c, o), sp), sm),
v128_max_s16(v128_min_s16(v128_sub_16(d, o), sp), sm));
const v128 delta = v128_add_16(
v128_add_16(
v128_shl_16(
v128_add_16(
v128_max_s16(v128_min_s16(v128_sub_16(a, o), sp), sm),
v128_max_s16(v128_min_s16(v128_sub_16(f, o), sp), sm)),
2),
v128_add_16(v128_max_s16(v128_min_s16(v128_sub_16(b, o), sp), sm),
v128_max_s16(v128_min_s16(v128_sub_16(e, o), sp), sm))),
v128_add_16(v128_add_16(tmp, tmp), tmp));
v128_store_aligned(
dst,
v128_add_16(
o, v128_shr_s16(
v128_add_16(c8, v128_add_16(delta, v128_cmplt_s16(
delta, v128_zero()))),
4)));
}
SIMD_INLINE void clpf_block_hbd(const uint16_t *src, uint16_t *dst, int sstride,
int dstride, int x0, int y0, int sizey,
int width, int height, unsigned int strength) {
int y;
int bottom = height - 2 - y0;
const v128 sp = v128_dup_16(strength);
const v128 sm = v128_dup_16(-(int)strength);
dst += x0 + y0 * dstride;
src += x0 + y0 * sstride;
if (!x0) { // Clip left
const v128 b_shuff = v128_from_v64(v64_from_64(0x0b0a090807060504LL),
v64_from_64(0x0302010001000100LL));
const v128 c_shuff = v128_from_v64(v64_from_64(0x0d0c0b0a09080706LL),
v64_from_64(0x0504030201000100LL));
for (y = 0; y < sizey; y++) {
const v128 o = v128_load_aligned(src);
const v128 a = v128_load_aligned(src - (y != -y0) * sstride);
const v128 b = v128_shuffle_8(o, b_shuff);
const v128 c = v128_shuffle_8(o, c_shuff);
const v128 d = v128_load_unaligned(src + 1);
const v128 e = v128_load_unaligned(src + 2);
const v128 f = v128_load_aligned(src + (y - 1 != bottom) * sstride);
calc_delta_hbd(o, a, b, c, d, e, f, dst, sp, sm);
src += sstride;
dst += dstride;
}
} else if (!(width - x0 - 8)) { // Clip right
const v128 d_shuff = v128_from_v64(v64_from_64(0x0f0e0f0e0d0c0b0aLL),
v64_from_64(0x0908070605040302LL));
const v128 e_shuff = v128_from_v64(v64_from_64(0x0f0e0f0e0f0e0d0cLL),
v64_from_64(0x0b0a090807060504LL));
for (y = 0; y < sizey; y++) {
const v128 o = v128_load_aligned(src);
const v128 a = v128_load_aligned(src - (y != -y0) * sstride);
const v128 b = v128_load_unaligned(src - 2);
const v128 c = v128_load_unaligned(src - 1);
const v128 d = v128_shuffle_8(o, d_shuff);
const v128 e = v128_shuffle_8(o, e_shuff);
const v128 f = v128_load_aligned(src + (y - 1 != bottom) * sstride);
calc_delta_hbd(o, a, b, c, d, e, f, dst, sp, sm);
src += sstride;
dst += dstride;
}
} else { // No left/right clipping
for (y = 0; y < sizey; y++) {
const v128 o = v128_load_aligned(src);
const v128 a = v128_load_aligned(src - (y != -y0) * sstride);
const v128 b = v128_load_unaligned(src - 2);
const v128 c = v128_load_unaligned(src - 1);
const v128 d = v128_load_unaligned(src + 1);
const v128 e = v128_load_unaligned(src + 2);
const v128 f = v128_load_aligned(src + (y - 1 != bottom) * sstride);
calc_delta_hbd(o, a, b, c, d, e, f, dst, sp, sm);
src += sstride;
dst += dstride;
}
}
}
void SIMD_FUNC(aom_clpf_block_hbd)(const uint16_t *src, uint16_t *dst,
int sstride, int dstride, int x0, int y0,
int sizex, int sizey, int width, int height,
unsigned int strength) {
if (sizex != 8 || width < 16 || y0 + 8 > height || x0 + 8 > width) {
// Fallback to C for odd sizes
aom_clpf_block_hbd_c(src, dst, sstride, dstride, x0, y0, sizex, sizey,
width, height, strength);
} else {
clpf_block_hbd(src, dst, sstride, dstride, x0, y0, sizey, width, height,
strength);
}
}
#endif