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/*
* Copyright (c) 2016 The WebM 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 in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include <assert.h>
#include <immintrin.h>
#include "./vpx_config.h"
#include "vpx_ports/mem.h"
#include "vpx/vpx_integer.h"
#include "vpx_dsp/vpx_dsp_common.h"
#include "vpx_dsp/x86/synonyms.h"
////////////////////////////////////////////////////////////////////////////////
// 8 bit
////////////////////////////////////////////////////////////////////////////////
static INLINE unsigned int obmc_sad_w4(const uint8_t *pre,
const int pre_stride,
const int32_t *wsrc,
const int32_t *mask,
const int height) {
const int pre_step = pre_stride - 4;
int n = 0;
__m128i v_sad_d = _mm_setzero_si128();
do {
const __m128i v_p_b = xx_loadl_32(pre + n);
const __m128i v_m_d = xx_load_128(mask + n);
const __m128i v_w_d = xx_load_128(wsrc + n);
const __m128i v_p_d = _mm_cvtepu8_epi32(v_p_b);
// Values in both pre and mask fit in 15 bits, and are packed at 32 bit
// boundaries. We use pmaddwd, as it has lower latency on Haswell
// than pmulld but produces the same result with these inputs.
const __m128i v_pm_d = _mm_madd_epi16(v_p_d, v_m_d);
const __m128i v_diff_d = _mm_sub_epi32(v_w_d, v_pm_d);
const __m128i v_absdiff_d = _mm_abs_epi32(v_diff_d);
// Rounded absolute difference
const __m128i v_rad_d = xx_roundn_epu32(v_absdiff_d, 12);
v_sad_d = _mm_add_epi32(v_sad_d, v_rad_d);
n += 4;
if (n % 4 == 0) pre += pre_step;
} while (n < 4 * height);
return xx_hsum_epi32_si32(v_sad_d);
}
static INLINE unsigned int obmc_sad_w8n(const uint8_t *pre,
const int pre_stride,
const int32_t *wsrc,
const int32_t *mask,
const int width,
const int height) {
const int pre_step = pre_stride - width;
int n = 0;
__m128i v_sad_d = _mm_setzero_si128();
assert(width >= 8);
assert(IS_POWER_OF_TWO(width));
do {
const __m128i v_p1_b = xx_loadl_32(pre + n + 4);
const __m128i v_m1_d = xx_load_128(mask + n + 4);
const __m128i v_w1_d = xx_load_128(wsrc + n + 4);
const __m128i v_p0_b = xx_loadl_32(pre + n);
const __m128i v_m0_d = xx_load_128(mask + n);
const __m128i v_w0_d = xx_load_128(wsrc + n);
const __m128i v_p0_d = _mm_cvtepu8_epi32(v_p0_b);
const __m128i v_p1_d = _mm_cvtepu8_epi32(v_p1_b);
// Values in both pre and mask fit in 15 bits, and are packed at 32 bit
// boundaries. We use pmaddwd, as it has lower latency on Haswell
// than pmulld but produces the same result with these inputs.
const __m128i v_pm0_d = _mm_madd_epi16(v_p0_d, v_m0_d);
const __m128i v_pm1_d = _mm_madd_epi16(v_p1_d, v_m1_d);
const __m128i v_diff0_d = _mm_sub_epi32(v_w0_d, v_pm0_d);
const __m128i v_diff1_d = _mm_sub_epi32(v_w1_d, v_pm1_d);
const __m128i v_absdiff0_d = _mm_abs_epi32(v_diff0_d);
const __m128i v_absdiff1_d = _mm_abs_epi32(v_diff1_d);
// Rounded absolute difference
const __m128i v_rad0_d = xx_roundn_epu32(v_absdiff0_d, 12);
const __m128i v_rad1_d = xx_roundn_epu32(v_absdiff1_d, 12);
v_sad_d = _mm_add_epi32(v_sad_d, v_rad0_d);
v_sad_d = _mm_add_epi32(v_sad_d, v_rad1_d);
n += 8;
if (n % width == 0) pre += pre_step;
} while (n < width * height);
return xx_hsum_epi32_si32(v_sad_d);
}
#define OBMCSADWXH(w, h) \
unsigned int vpx_obmc_sad##w##x##h##_sse4_1(const uint8_t *pre, \
int pre_stride, \
const int32_t *wsrc, \
const int32_t *msk) { \
if (w == 4) { \
return obmc_sad_w4(pre, pre_stride, wsrc, msk, h); \
} else { \
return obmc_sad_w8n(pre, pre_stride, wsrc, msk, w, h); \
} \
}
#if CONFIG_EXT_PARTITION
OBMCSADWXH(128, 128)
OBMCSADWXH(128, 64)
OBMCSADWXH(64, 128)
#endif // CONFIG_EXT_PARTITION
OBMCSADWXH(64, 64)
OBMCSADWXH(64, 32)
OBMCSADWXH(32, 64)
OBMCSADWXH(32, 32)
OBMCSADWXH(32, 16)
OBMCSADWXH(16, 32)
OBMCSADWXH(16, 16)
OBMCSADWXH(16, 8)
OBMCSADWXH(8, 16)
OBMCSADWXH(8, 8)
OBMCSADWXH(8, 4)
OBMCSADWXH(4, 8)
OBMCSADWXH(4, 4)
////////////////////////////////////////////////////////////////////////////////
// High bit-depth
////////////////////////////////////////////////////////////////////////////////
#if CONFIG_VP9_HIGHBITDEPTH
static INLINE unsigned int hbd_obmc_sad_w4(const uint8_t *pre8,
const int pre_stride,
const int32_t *wsrc,
const int32_t *mask,
const int height) {
const uint16_t *pre = CONVERT_TO_SHORTPTR(pre8);
const int pre_step = pre_stride - 4;
int n = 0;
__m128i v_sad_d = _mm_setzero_si128();
do {
const __m128i v_p_w = xx_loadl_64(pre + n);
const __m128i v_m_d = xx_load_128(mask + n);
const __m128i v_w_d = xx_load_128(wsrc + n);
const __m128i v_p_d = _mm_cvtepu16_epi32(v_p_w);
// Values in both pre and mask fit in 15 bits, and are packed at 32 bit
// boundaries. We use pmaddwd, as it has lower latency on Haswell
// than pmulld but produces the same result with these inputs.
const __m128i v_pm_d = _mm_madd_epi16(v_p_d, v_m_d);
const __m128i v_diff_d = _mm_sub_epi32(v_w_d, v_pm_d);
const __m128i v_absdiff_d = _mm_abs_epi32(v_diff_d);
// Rounded absolute difference
const __m128i v_rad_d = xx_roundn_epu32(v_absdiff_d, 12);
v_sad_d = _mm_add_epi32(v_sad_d, v_rad_d);
n += 4;
if (n % 4 == 0) pre += pre_step;
} while (n < 4 * height);
return xx_hsum_epi32_si32(v_sad_d);
}
static INLINE unsigned int hbd_obmc_sad_w8n(const uint8_t *pre8,
const int pre_stride,
const int32_t *wsrc,
const int32_t *mask,
const int width,
const int height) {
const uint16_t *pre = CONVERT_TO_SHORTPTR(pre8);
const int pre_step = pre_stride - width;
int n = 0;
__m128i v_sad_d = _mm_setzero_si128();
assert(width >= 8);
assert(IS_POWER_OF_TWO(width));
do {
const __m128i v_p1_w = xx_loadl_64(pre + n + 4);
const __m128i v_m1_d = xx_load_128(mask + n + 4);
const __m128i v_w1_d = xx_load_128(wsrc + n + 4);
const __m128i v_p0_w = xx_loadl_64(pre + n);
const __m128i v_m0_d = xx_load_128(mask + n);
const __m128i v_w0_d = xx_load_128(wsrc + n);
const __m128i v_p0_d = _mm_cvtepu16_epi32(v_p0_w);
const __m128i v_p1_d = _mm_cvtepu16_epi32(v_p1_w);
// Values in both pre and mask fit in 15 bits, and are packed at 32 bit
// boundaries. We use pmaddwd, as it has lower latency on Haswell
// than pmulld but produces the same result with these inputs.
const __m128i v_pm0_d = _mm_madd_epi16(v_p0_d, v_m0_d);
const __m128i v_pm1_d = _mm_madd_epi16(v_p1_d, v_m1_d);
const __m128i v_diff0_d = _mm_sub_epi32(v_w0_d, v_pm0_d);
const __m128i v_diff1_d = _mm_sub_epi32(v_w1_d, v_pm1_d);
const __m128i v_absdiff0_d = _mm_abs_epi32(v_diff0_d);
const __m128i v_absdiff1_d = _mm_abs_epi32(v_diff1_d);
// Rounded absolute difference
const __m128i v_rad0_d = xx_roundn_epu32(v_absdiff0_d, 12);
const __m128i v_rad1_d = xx_roundn_epu32(v_absdiff1_d, 12);
v_sad_d = _mm_add_epi32(v_sad_d, v_rad0_d);
v_sad_d = _mm_add_epi32(v_sad_d, v_rad1_d);
n += 8;
if (n % width == 0) pre += pre_step;
} while (n < width * height);
return xx_hsum_epi32_si32(v_sad_d);
}
#define HBD_OBMCSADWXH(w, h) \
unsigned int vpx_highbd_obmc_sad##w##x##h##_sse4_1(const uint8_t *pre, \
int pre_stride, \
const int32_t *wsrc, \
const int32_t *mask) { \
if (w == 4) { \
return hbd_obmc_sad_w4(pre, pre_stride, wsrc, mask, h); \
} else { \
return hbd_obmc_sad_w8n(pre, pre_stride, wsrc, mask, w, h); \
} \
}
#if CONFIG_EXT_PARTITION
HBD_OBMCSADWXH(128, 128)
HBD_OBMCSADWXH(128, 64)
HBD_OBMCSADWXH(64, 128)
#endif // CONFIG_EXT_PARTITION
HBD_OBMCSADWXH(64, 64)
HBD_OBMCSADWXH(64, 32)
HBD_OBMCSADWXH(32, 64)
HBD_OBMCSADWXH(32, 32)
HBD_OBMCSADWXH(32, 16)
HBD_OBMCSADWXH(16, 32)
HBD_OBMCSADWXH(16, 16)
HBD_OBMCSADWXH(16, 8)
HBD_OBMCSADWXH(8, 16)
HBD_OBMCSADWXH(8, 8)
HBD_OBMCSADWXH(8, 4)
HBD_OBMCSADWXH(4, 8)
HBD_OBMCSADWXH(4, 4)
#endif // CONFIG_VP9_HIGHBITDEPTH