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https://github.com/ultravideo/uvg266.git
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reconst optimation doesn't work yet
This commit is contained in:
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d29f834a69
commit
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@ -35,9 +35,12 @@
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// Might be useful to check that if (when) this file
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// is difficult to understand.
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static INLINE __m128i load_6_pixels(const kvz_pixel* data)
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static INLINE __m128i load_14_pixels(const kvz_pixel* data)
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{
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return _mm_insert_epi16(_mm_cvtsi32_si128(*(int32_t*)&(data[0])), *(int16_t*)&(data[4]), 2);
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__m128i temp = _mm_loadl_epi64((__m128i*)&data[0]);
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temp = _mm_insert_epi32(temp, *(int32_t*)&data[8], 2);
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temp = _mm_insert_epi16(temp, *(int16_t*)&data[12], 6);
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return temp;
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}
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static INLINE __m256i load_5_offsets(const int* offsets)
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@ -60,7 +63,7 @@ static __m128i sao_calc_eo_cat_avx2_256(__m128i* a, __m128i* b, __m128i* c)
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v_eo_idx = _mm256_add_epi16(v_eo_idx, temp_b);
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v_eo_idx = _mm256_packus_epi16(v_eo_idx, v_eo_idx);
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v_eo_idx = _mm256_permute4x64_epi64(v_eo_idx, 0b11011000);
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v_eo_idx = _mm256_permute4x64_epi64(v_eo_idx, _MM_SHUFFLE(3,1,2,0));
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__m128i v_cat_lookup = _mm_setr_epi8(1, 2, 0, 3, 4, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
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__m128i v_cat = _mm_shuffle_epi8(v_cat_lookup, _mm256_extracti128_si256(v_eo_idx, 1));
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@ -123,7 +126,7 @@ static int sao_edge_ddistortion_avx2(const kvz_pixel *orig_data,
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__m128i temp_cat = sao_calc_eo_cat_avx2_256(&vector_a, &vector_b, &vector_c_data);
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//Split temp_cat vector to higher and upper parts
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__m256i vector_cat_lower = _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(_mm_extract_epi64(temp_cat, 0)));
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__m256i vector_cat_lower = _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(*(int64_t*)&(temp_cat)));
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__m256i vector_cat_upper = _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(_mm_extract_epi64(temp_cat, 1)));
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// Re-arrenge offsets to right order
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@ -147,30 +150,20 @@ static int sao_edge_ddistortion_avx2(const kvz_pixel *orig_data,
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v_temp_sum = _mm256_sub_epi32(_mm256_mullo_epi32(v_diff_minus_offset, v_diff_minus_offset), _mm256_mullo_epi32(v_diff, v_diff));
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v_accum = _mm256_add_epi32(v_accum, v_temp_sum);
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}
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/*
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Make 14 pixel load here
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static INLINE __m128i load_14_pixels(const kvz_pixel* data) {
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__m128i temp;
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temp = _mm_loadl_epi64((__m128i*)data);
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_mm_insert_epi32((int32_t*)&)
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*
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}*/
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// After x> (block_width-16) handle 8 pixels and after that the last 6 pixels
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const kvz_pixel *c_data = &rec_data[y * block_width + x];
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vector_c_data = _mm_loadl_epi64((__m128i*)c_data);
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vector_a = _mm_loadl_epi64((__m128i*)(&c_data[a_ofs.y * block_width + a_ofs.x]));
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vector_b = _mm_loadl_epi64((__m128i*)(&c_data[b_ofs.y * block_width + b_ofs.x]));
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vector_c_data = load_14_pixels(c_data);
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vector_a = load_14_pixels((&c_data[a_ofs.y * block_width + a_ofs.x]));
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__m256i v_cat = _mm256_cvtepu8_epi32(sao_calc_eo_cat_avx2_256(&vector_a, &vector_b, &vector_c_data));
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temp_v_offset = _mm256_permutevar8x32_epi32(v_offset, v_cat);
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vector_b = load_14_pixels((&c_data[b_ofs.y * block_width + b_ofs.x]));
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__m128i temp_cat = sao_calc_eo_cat_avx2_256(&vector_a, &vector_b, &vector_c_data);
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//Split temp_cat vector to higher and upper parts
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__m256i vector_cat_lower = _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(*(int64_t*)&(temp_cat)));
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__m256i vector_cat_upper = _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(_mm_extract_epi64(temp_cat, 1)));
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// Re-arrenge offsets to right order
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temp_v_offset = _mm256_permutevar8x32_epi32(v_offset, vector_cat_lower);
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__m256i v_diff = _mm256_cvtepu8_epi32(_mm_loadl_epi64((__m128i*)&(orig_data[y * block_width + x])));
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v_diff = _mm256_sub_epi32(v_diff, _mm256_cvtepu8_epi32(vector_c_data));
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@ -180,28 +173,16 @@ static int sao_edge_ddistortion_avx2(const kvz_pixel *orig_data,
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__m256i v_temp_sum = _mm256_sub_epi32(_mm256_mullo_epi32(v_diff_minus_offset, v_diff_minus_offset), _mm256_mullo_epi32(v_diff, v_diff));
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v_accum = _mm256_add_epi32(v_accum, v_temp_sum);
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//Handle last 6 pixels separately to prevent reading over boundary
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x += 8;
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c_data = &rec_data[y * block_width + x];
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vector_c_data = load_6_pixels(c_data);
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const kvz_pixel *a_ptr = &c_data[a_ofs.y * block_width + a_ofs.x];
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const kvz_pixel *b_ptr = &c_data[b_ofs.y * block_width + b_ofs.x];
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vector_a = load_6_pixels(a_ptr);
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vector_b = load_6_pixels(b_ptr);
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v_cat = _mm256_cvtepu8_epi32(sao_calc_eo_cat_avx2_256(&vector_a, &vector_b, &vector_c_data));
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temp_v_offset = _mm256_permutevar8x32_epi32(v_offset, v_cat);
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const kvz_pixel *orig_ptr = &(orig_data[y * block_width + x]);
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v_diff = _mm256_cvtepu8_epi32(load_6_pixels(orig_ptr));
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v_diff = _mm256_sub_epi32(v_diff, _mm256_cvtepu8_epi32(vector_c_data));
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temp_v_offset = _mm256_permutevar8x32_epi32(v_offset, vector_cat_upper);
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v_diff = _mm256_cvtepu8_epi32(_mm_loadl_epi64((__m128i*)&(orig_data[y * block_width + x + 8])));
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int64_t*c_pointer = (int64_t*)&vector_c_data;
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v_diff = _mm256_sub_epi32(v_diff, _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(c_pointer[1])));
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v_diff_minus_offset = _mm256_sub_epi32(v_diff, temp_v_offset);
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v_temp_sum = _mm256_sub_epi32(_mm256_mullo_epi32(v_diff_minus_offset, v_diff_minus_offset), _mm256_mullo_epi32(v_diff, v_diff));
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v_accum = _mm256_add_epi32(v_accum, v_temp_sum);
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}
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//Full horizontal sum
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@ -243,6 +224,24 @@ static INLINE void accum_count_eo_cat_avx2(__m256i* __restrict v_diff_accum,
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accum_count_eo_cat_avx2(&(v_diff_accum[ EO_CAT ]), &(v_count[ EO_CAT ]), &V_CAT , &v_diff, EO_CAT);
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static INLINE void accum_count_eo_cat_avx2_256(__m256i* __restrict v_diff_accum,
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__m256i* __restrict v_count,
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__m256i* __restrict v_cat,
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__m256i* __restrict v_diff,
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int eo_cat)
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{
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__m256i v_mask = _mm256_cmpeq_epi32(*v_cat, _mm256_set1_epi32(eo_cat));
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*v_diff_accum = _mm256_add_epi32(*v_diff_accum, _mm256_and_si256(*v_diff, v_mask));
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*v_count = _mm256_sub_epi32(*v_count, v_mask);
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}
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#define ACCUM_COUNT_EO_CAT_AVX2_256(EO_CAT, V_CAT) \
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\
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accum_count_eo_cat_avx2(&(v_diff_accum[ EO_CAT ]), &(v_count[ EO_CAT ]), &V_CAT , &v_diff, EO_CAT);
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/*
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static void calc_sao_edge_dir_generic(const kvz_pixel *orig_data,
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const kvz_pixel *rec_data,
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@ -331,51 +330,36 @@ static void calc_sao_edge_dir_avx2(const kvz_pixel *orig_data,
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const kvz_pixel *c_data = &rec_data[y * block_width + x];
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__m128i v_c_data = _mm_loadl_epi64((__m128i* __restrict)c_data);
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__m128i v_a = _mm_loadl_epi64((__m128i* __restrict)(&c_data[a_ofs.y * block_width + a_ofs.x]));
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__m128i v_c_data = load_14_pixels(c_data);
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__m128i v_a = load_14_pixels(&c_data[a_ofs.y * block_width + a_ofs.x]);
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__m128i v_c = v_c_data;
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__m128i v_b = _mm_loadl_epi64((__m128i* __restrict)(&c_data[b_ofs.y * block_width + b_ofs.x]));
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__m128i v_b = load_14_pixels(&c_data[b_ofs.y * block_width + b_ofs.x]);
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__m256i v_cat = _mm256_cvtepu8_epi32(sao_calc_eo_cat_avx2(&v_a, &v_b, &v_c));
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temp_cat = sao_calc_eo_cat_avx2_256(&v_a, &v_b, &v_c);
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__m256i cat_lower = _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(_mm_extract_epi64(temp_cat, 0)));
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__m256i cat_upper = _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(_mm_extract_epi64(temp_cat, 1)));
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__m256i v_diff = _mm256_cvtepu8_epi32(_mm_loadl_epi64((__m128i* __restrict)&(orig_data[y * block_width + x])));
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v_diff = _mm256_sub_epi32(v_diff, _mm256_cvtepu8_epi32(v_c));
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//Accumulate differences and occurrences for each category
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT0, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT1, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT2, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT3, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT4, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT0, cat_lower);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT1, cat_lower);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT2, cat_lower);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT3, cat_lower);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT4, cat_lower);
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x += 8;
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//Handle last 6 pixels separately to prevent reading over boundary
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c_data = &rec_data[y * block_width + x];
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v_c_data = load_6_pixels(c_data);
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const kvz_pixel* a_ptr = &c_data[a_ofs.y * block_width + a_ofs.x];
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const kvz_pixel* b_ptr = &c_data[b_ofs.y * block_width + b_ofs.x];
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v_a = load_6_pixels(a_ptr);
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v_c = v_c_data;
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v_b = load_6_pixels(b_ptr);
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v_cat = _mm256_cvtepu8_epi32(sao_calc_eo_cat_avx2(&v_a, &v_b, &v_c));
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//Set the last two elements to a non-existing category to cause
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//the accumulate-count macro to discard those values.
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__m256i v_mask = _mm256_setr_epi32(0, 0, 0, 0, 0, 0, -1, -1);
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v_cat = _mm256_or_si256(v_cat, v_mask);
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const kvz_pixel* orig_ptr = &(orig_data[y * block_width + x]);
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v_diff = _mm256_cvtepu8_epi32(load_6_pixels(orig_ptr));
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v_diff = _mm256_sub_epi32(v_diff, _mm256_cvtepu8_epi32(v_c));
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v_diff = _mm256_cvtepu8_epi32(_mm_loadl_epi64((__m128i* __restrict)&(orig_data[y * block_width + x + 8])));
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int64_t*c_pointer = (int64_t*)&v_c;
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v_diff = _mm256_sub_epi32(v_diff, _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(c_pointer[1])));
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//Accumulate differences and occurrences for each category
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT0, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT1, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT2, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT3, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT4, v_cat);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT0, cat_upper);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT1, cat_upper);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT2, cat_upper);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT3, cat_upper);
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ACCUM_COUNT_EO_CAT_AVX2(SAO_EO_CAT4, cat_upper);
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}
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for (int eo_cat = 0; eo_cat < NUM_SAO_EDGE_CATEGORIES; ++eo_cat) {
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@ -402,6 +386,65 @@ static void calc_sao_edge_dir_avx2(const kvz_pixel *orig_data,
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}
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static int sao_calc_eo_cat(kvz_pixel a, kvz_pixel b, kvz_pixel c)
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{
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// Mapping relationships between a, b and c to eo_idx.
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static const int sao_eo_idx_to_eo_category[] = { 1, 2, 0, 3, 4 };
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int eo_idx = 2 + SIGN3((int)c - (int)a) + SIGN3((int)c - (int)b);
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return sao_eo_idx_to_eo_category[eo_idx];
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}
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static void sao_reconstruct_color_avx(const encoder_control_t * const encoder,
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const kvz_pixel *rec_data,
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kvz_pixel *new_rec_data,
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const sao_info_t *sao,
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int stride,
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int new_stride,
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int block_width,
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int block_height,
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color_t color_i)
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{
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// Arrays orig_data and rec_data are quarter size for chroma.
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int offset_v = color_i == COLOR_V ? 5 : 0;
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if (sao->type == SAO_TYPE_BAND) {
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int offsets[1 << KVZ_BIT_DEPTH];
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kvz_calc_sao_offset_array(encoder, sao, offsets, color_i);
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for (int y = 0; y < block_height; ++y) {
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for (int x = 0; x < block_width; ++x) {
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new_rec_data[y * new_stride + x] = offsets[rec_data[y * stride + x]];
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}
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}
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}
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else {
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// Don't sample the edge pixels because this function doesn't have access to
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// their neighbours.
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for (int y = 0; y < block_height; ++y) {
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for (int x = 0; x < block_width; ++x) {
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vector2d_t a_ofs = g_sao_edge_offsets[sao->eo_class][0];
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vector2d_t b_ofs = g_sao_edge_offsets[sao->eo_class][1];
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const kvz_pixel *c_data = &rec_data[y * stride + x];
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kvz_pixel *new_data = &new_rec_data[y * new_stride + x];
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kvz_pixel a = c_data[a_ofs.y * stride + a_ofs.x];
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kvz_pixel c = c_data[0];
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kvz_pixel b = c_data[b_ofs.y * stride + b_ofs.x];
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int eo_cat = sao_calc_eo_cat(a, b, c);
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printf("%d", eo_cat);
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new_data[0] = (kvz_pixel)CLIP(0, (1 << KVZ_BIT_DEPTH) - 1, c_data[0] + sao->offsets[eo_cat + offset_v]);
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}
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}
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}
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}
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/*
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Does't work
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*/
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static void sao_reconstruct_color_avx2(const encoder_control_t * const encoder,
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const kvz_pixel *rec_data, kvz_pixel *new_rec_data,
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const sao_info_t *sao,
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@ -423,34 +466,67 @@ static void sao_reconstruct_color_avx2(const encoder_control_t * const encoder,
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} else {
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// Don't sample the edge pixels because this function doesn't have access to
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// their neighbours.
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vector2d_t a_ofs = g_sao_edge_offsets[sao->eo_class][0];
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vector2d_t b_ofs = g_sao_edge_offsets[sao->eo_class][1];
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for (int y = 0; y < block_height; ++y) {
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for (int x = 0; x < block_width; x+=8) {
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vector2d_t a_ofs = g_sao_edge_offsets[sao->eo_class][0];
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vector2d_t b_ofs = g_sao_edge_offsets[sao->eo_class][1];
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for (int x = 0; x < block_width; x+=16) {
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const kvz_pixel *c_data = &rec_data[y * stride + x];
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kvz_pixel *new_data = &new_rec_data[y * new_stride + x];
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const kvz_pixel* a_ptr = &c_data[a_ofs.y * stride + a_ofs.x];
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const kvz_pixel* c_ptr = &c_data[0];
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const kvz_pixel* b_ptr = &c_data[b_ofs.y * stride + b_ofs.x];
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/*
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__m128i v_a = _mm_loadl_epi64((__m128i*)a_ptr);
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__m128i v_b = _mm_loadl_epi64((__m128i*)b_ptr);
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__m128i v_c = _mm_loadl_epi64((__m128i*)c_ptr);
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__m128i v_c = _mm_loadl_epi64((__m128i*)c_ptr);*/
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__m128i v_a = _mm_loadu_si128((__m128i*)a_ptr);
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__m128i v_b = _mm_loadu_si128((__m128i*)b_ptr);
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__m128i v_c = _mm_loadu_si128((__m128i*)c_ptr);
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__m256i v_cat = _mm256_cvtepu8_epi32(sao_calc_eo_cat_avx2(&v_a, &v_b, &v_c) );
|
||||
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||||
__m128i temp_cat = sao_calc_eo_cat_avx2_256(&v_a, &v_b, &v_c);
|
||||
|
||||
int8_t* test = (int8_t*)&temp_cat;
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for (int i = 0; i < 16; i++) {
|
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printf("%d", test[i]);
|
||||
}
|
||||
|
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__m256i cat_lower = _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(_mm_extract_epi64(temp_cat, 0)));
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||||
__m256i cat_upper = _mm256_cvtepu8_epi32(_mm_cvtsi64_si128(_mm_extract_epi64(temp_cat, 1)));
|
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|
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__m256i v_offset_v = load_5_offsets(sao->offsets + offset_v);
|
||||
__m256i v_new_data = _mm256_permutevar8x32_epi32(v_offset_v, v_cat);
|
||||
__m256i v_new_data = _mm256_permutevar8x32_epi32(v_offset_v, cat_lower);
|
||||
v_new_data = _mm256_add_epi32(v_new_data, _mm256_cvtepu8_epi32(v_c));
|
||||
|
||||
__m256i v_new_data_2 = _mm256_permutevar8x32_epi32(v_offset_v, cat_upper);
|
||||
v_new_data_2 = _mm256_permutevar8x32_epi32(v_offset_v, cat_upper);
|
||||
v_new_data_2 = _mm256_add_epi32(v_new_data, _mm256_cvtepu8_epi32(v_c));
|
||||
|
||||
__m256i v_new_data_256 = _mm256_packus_epi32(v_new_data, v_new_data_2);
|
||||
|
||||
v_new_data_256 = _mm256_packus_epi16(v_new_data_256, v_new_data_256);
|
||||
|
||||
__m128i v_new_data_128 = _mm256_castsi256_si128(v_new_data_256);
|
||||
v_new_data_128 = _mm_shuffle_epi32(v_new_data_128, _MM_SHUFFLE(3,1,2,0));
|
||||
|
||||
|
||||
/*
|
||||
__m128i v_new_data_128 = _mm_packus_epi32(_mm256_castsi256_si128(v_new_data), _mm256_extracti128_si256(v_new_data, 1));
|
||||
v_new_data_128 = _mm_packus_epi16(v_new_data_128, v_new_data_128);
|
||||
v_new_data_128 = _mm_packus_epi16(v_new_data_128, v_new_data_128);*/
|
||||
|
||||
if ((block_width - x) >= 8) {
|
||||
_mm_storel_epi64((__m128i*)new_data, v_new_data_128);
|
||||
_mm_storeu_si128((__m128i*)new_data, v_new_data_128);
|
||||
|
||||
} else {
|
||||
|
||||
kvz_pixel arr[8];
|
||||
_mm_storel_epi64((__m128i*)arr, v_new_data_128);
|
||||
_mm_storeu_si128((__m128i*)arr, v_new_data_128);
|
||||
for (int i = 0; i < block_width - x; ++i) new_data[i] = arr[i];
|
||||
}
|
||||
|
||||
|
|
Loading…
Reference in a new issue