f883b42cab
Cherry-Picked the following commits: 0defd8f Changed "WebM" to "AOMedia" & "webm" to "aomedia" 54e6676 Replace "VPx" by "AVx" 5082a36 Change "Vpx" to "Avx" 7df44f1 Replace "Vp9" w/ "Av1" 967f722 Remove kVp9CodecId 828f30c Change "Vp8" to "AOM" 030b5ff AUTHORS regenerated 2524cae Add ref-mv experimental flag 016762b Change copyright notice to AOMedia form 81e5526 Replace vp9 w/ av1 9b94565 Add missing files fa8ca9f Change "vp9" to "av1" ec838b7 Convert "vp8" to "aom" 80edfa0 Change "VP9" to "AV1" d1a11fb Change "vp8" to "aom" 7b58251 Point to WebM test data dd1a5c8 Replace "VP8" with "AOM" ff00fc0 Change "VPX" to "AOM" 01dee0b Change "vp10" to "av1" in source code cebe6f0 Convert "vpx" to "aom" 17b0567 rename vp10*.mk to av1_*.mk fe5f8a8 rename files vp10_* to av1_* Change-Id: I6fc3d18eb11fc171e46140c836ad5339cf6c9419
193 lines
7.0 KiB
C
193 lines
7.0 KiB
C
/*
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* Copyright (c) 2016 The WebM project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include <smmintrin.h>
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#include <stdint.h>
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#include "./av1_rtcd.h"
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#include "aom_dsp/aom_dsp_common.h"
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// Coefficient quantization phase 1
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// param[0-2] : rounding/quan/dequan constants
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static INLINE void quantize_coeff_phase1(__m128i *coeff, const __m128i *param,
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const int shift, const int scale,
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__m128i *qcoeff, __m128i *dquan,
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__m128i *sign) {
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const __m128i zero = _mm_setzero_si128();
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const __m128i one = _mm_set1_epi32(1);
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*sign = _mm_cmplt_epi32(*coeff, zero);
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*sign = _mm_or_si128(*sign, one);
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*coeff = _mm_abs_epi32(*coeff);
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qcoeff[0] = _mm_add_epi32(*coeff, param[0]);
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qcoeff[1] = _mm_unpackhi_epi32(qcoeff[0], zero);
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qcoeff[0] = _mm_unpacklo_epi32(qcoeff[0], zero);
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qcoeff[0] = _mm_mul_epi32(qcoeff[0], param[1]);
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qcoeff[0] = _mm_srli_epi64(qcoeff[0], shift);
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dquan[0] = _mm_mul_epi32(qcoeff[0], param[2]);
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dquan[0] = _mm_srli_epi64(dquan[0], scale);
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}
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// Coefficient quantization phase 2
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static INLINE void quantize_coeff_phase2(__m128i *qcoeff, __m128i *dquan,
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const __m128i *sign,
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const __m128i *param, const int shift,
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const int scale, tran_low_t *qAddr,
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tran_low_t *dqAddr) {
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__m128i mask0L = _mm_set_epi32(-1, -1, 0, 0);
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__m128i mask0H = _mm_set_epi32(0, 0, -1, -1);
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qcoeff[1] = _mm_mul_epi32(qcoeff[1], param[1]);
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qcoeff[1] = _mm_srli_epi64(qcoeff[1], shift);
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dquan[1] = _mm_mul_epi32(qcoeff[1], param[2]);
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dquan[1] = _mm_srli_epi64(dquan[1], scale);
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// combine L&H
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qcoeff[0] = _mm_shuffle_epi32(qcoeff[0], 0xd8);
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qcoeff[1] = _mm_shuffle_epi32(qcoeff[1], 0x8d);
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qcoeff[0] = _mm_and_si128(qcoeff[0], mask0H);
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qcoeff[1] = _mm_and_si128(qcoeff[1], mask0L);
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dquan[0] = _mm_shuffle_epi32(dquan[0], 0xd8);
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dquan[1] = _mm_shuffle_epi32(dquan[1], 0x8d);
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dquan[0] = _mm_and_si128(dquan[0], mask0H);
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dquan[1] = _mm_and_si128(dquan[1], mask0L);
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qcoeff[0] = _mm_or_si128(qcoeff[0], qcoeff[1]);
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dquan[0] = _mm_or_si128(dquan[0], dquan[1]);
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qcoeff[0] = _mm_sign_epi32(qcoeff[0], *sign);
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dquan[0] = _mm_sign_epi32(dquan[0], *sign);
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_mm_storeu_si128((__m128i *)qAddr, qcoeff[0]);
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_mm_storeu_si128((__m128i *)dqAddr, dquan[0]);
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}
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static INLINE void find_eob(tran_low_t *qcoeff_ptr, const int16_t *iscan,
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__m128i *eob) {
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const __m128i zero = _mm_setzero_si128();
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__m128i mask, iscanIdx;
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const __m128i q0 = _mm_loadu_si128((__m128i const *)qcoeff_ptr);
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const __m128i q1 = _mm_loadu_si128((__m128i const *)(qcoeff_ptr + 4));
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__m128i nz_flag0 = _mm_cmpeq_epi32(q0, zero);
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__m128i nz_flag1 = _mm_cmpeq_epi32(q1, zero);
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nz_flag0 = _mm_cmpeq_epi32(nz_flag0, zero);
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nz_flag1 = _mm_cmpeq_epi32(nz_flag1, zero);
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mask = _mm_packs_epi32(nz_flag0, nz_flag1);
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iscanIdx = _mm_loadu_si128((__m128i const *)iscan);
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iscanIdx = _mm_sub_epi16(iscanIdx, mask);
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iscanIdx = _mm_and_si128(iscanIdx, mask);
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*eob = _mm_max_epi16(*eob, iscanIdx);
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}
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static INLINE uint16_t get_accumulated_eob(__m128i *eob) {
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__m128i eob_shuffled;
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uint16_t eobValue;
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eob_shuffled = _mm_shuffle_epi32(*eob, 0xe);
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*eob = _mm_max_epi16(*eob, eob_shuffled);
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eob_shuffled = _mm_shufflelo_epi16(*eob, 0xe);
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*eob = _mm_max_epi16(*eob, eob_shuffled);
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eob_shuffled = _mm_shufflelo_epi16(*eob, 0x1);
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*eob = _mm_max_epi16(*eob, eob_shuffled);
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eobValue = _mm_extract_epi16(*eob, 0);
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return eobValue;
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}
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void av1_highbd_quantize_fp_sse4_1(
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const tran_low_t *coeff_ptr, intptr_t count, int skip_block,
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const int16_t *zbin_ptr, const int16_t *round_ptr, const int16_t *quant_ptr,
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const int16_t *quant_shift_ptr, tran_low_t *qcoeff_ptr,
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tran_low_t *dqcoeff_ptr, const int16_t *dequant_ptr, uint16_t *eob_ptr,
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const int16_t *scan, const int16_t *iscan, int log_scale) {
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__m128i coeff[2], qcoeff[2], dequant[2], qparam[3], coeff_sign;
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__m128i eob = _mm_setzero_si128();
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const tran_low_t *src = coeff_ptr;
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tran_low_t *quanAddr = qcoeff_ptr;
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tran_low_t *dquanAddr = dqcoeff_ptr;
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const int shift = 16 - log_scale;
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const int coeff_stride = 4;
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const int quan_stride = coeff_stride;
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(void)skip_block;
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(void)zbin_ptr;
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(void)quant_shift_ptr;
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(void)scan;
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memset(quanAddr, 0, count * sizeof(quanAddr[0]));
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memset(dquanAddr, 0, count * sizeof(dquanAddr[0]));
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if (!skip_block) {
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coeff[0] = _mm_loadu_si128((__m128i const *)src);
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qparam[0] =
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_mm_set_epi32(round_ptr[1], round_ptr[1], round_ptr[1], round_ptr[0]);
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qparam[1] = _mm_set_epi64x(quant_ptr[1], quant_ptr[0]);
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qparam[2] = _mm_set_epi64x(dequant_ptr[1], dequant_ptr[0]);
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// DC and first 3 AC
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quantize_coeff_phase1(&coeff[0], qparam, shift, log_scale, qcoeff, dequant,
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&coeff_sign);
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// update round/quan/dquan for AC
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qparam[0] = _mm_unpackhi_epi64(qparam[0], qparam[0]);
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qparam[1] = _mm_set_epi64x(quant_ptr[1], quant_ptr[1]);
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qparam[2] = _mm_set_epi64x(dequant_ptr[1], dequant_ptr[1]);
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quantize_coeff_phase2(qcoeff, dequant, &coeff_sign, qparam, shift,
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log_scale, quanAddr, dquanAddr);
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// next 4 AC
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coeff[1] = _mm_loadu_si128((__m128i const *)(src + coeff_stride));
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quantize_coeff_phase1(&coeff[1], qparam, shift, log_scale, qcoeff, dequant,
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&coeff_sign);
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quantize_coeff_phase2(qcoeff, dequant, &coeff_sign, qparam, shift,
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log_scale, quanAddr + quan_stride,
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dquanAddr + quan_stride);
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find_eob(quanAddr, iscan, &eob);
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count -= 8;
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// loop for the rest of AC
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while (count > 0) {
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src += coeff_stride << 1;
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quanAddr += quan_stride << 1;
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dquanAddr += quan_stride << 1;
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iscan += quan_stride << 1;
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coeff[0] = _mm_loadu_si128((__m128i const *)src);
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coeff[1] = _mm_loadu_si128((__m128i const *)(src + coeff_stride));
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quantize_coeff_phase1(&coeff[0], qparam, shift, log_scale, qcoeff,
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dequant, &coeff_sign);
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quantize_coeff_phase2(qcoeff, dequant, &coeff_sign, qparam, shift,
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log_scale, quanAddr, dquanAddr);
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quantize_coeff_phase1(&coeff[1], qparam, shift, log_scale, qcoeff,
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dequant, &coeff_sign);
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quantize_coeff_phase2(qcoeff, dequant, &coeff_sign, qparam, shift,
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log_scale, quanAddr + quan_stride,
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dquanAddr + quan_stride);
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find_eob(quanAddr, iscan, &eob);
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count -= 8;
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}
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*eob_ptr = get_accumulated_eob(&eob);
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} else {
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*eob_ptr = 0;
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}
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}
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