mirror of
https://github.com/mpv-player/mpv
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5f5e40c155
git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@14728 b3059339-0415-0410-9bf9-f77b7e298cf2
413 lines
16 KiB
C
413 lines
16 KiB
C
/*
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** FAAD2 - Freeware Advanced Audio (AAC) Decoder including SBR decoding
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** Copyright (C) 2002-2004 A. Kurpiers
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**
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** This program is free software; you can redistribute it and/or modify
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** it under the terms of the GNU General Public License as published by
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** the Free Software Foundation; either version 2 of the License, or
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** (at your option) any later version.
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**
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** This program is distributed in the hope that it will be useful,
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** but WITHOUT ANY WARRANTY; without even the implied warranty of
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** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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** GNU General Public License for more details.
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**
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** You should have received a copy of the GNU General Public License
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** along with this program; if not, write to the Free Software
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** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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**
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** Any non-GPL usage of this software or parts of this software is strictly
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** forbidden.
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**
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** Commercial non-GPL licensing of this software is possible.
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** For more info contact Ahead Software through Mpeg4AAClicense@nero.com.
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**
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** $Id: hcr.c,v 1.15 2004/03/02 20:09:58 menno Exp $
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**/
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#include "common.h"
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#include "structs.h"
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#include <stdlib.h>
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#include <string.h>
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#include "syntax.h"
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#include "specrec.h"
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#include "bits.h"
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#include "pulse.h"
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#include "analysis.h"
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#include "bits.h"
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#include "huffman.h"
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/* Implements the HCR11 tool as described in ISO/IEC 14496-3/Amd.1, 8.5.3.3 */
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#ifdef ERROR_RESILIENCE
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/* rewind len (max. 32) bits so that the MSB becomes LSB */
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static uint32_t rewind_word( uint32_t W, uint8_t len)
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{
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uint8_t i;
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uint32_t tmp_W=0;
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for ( i=0; i<len; i++ )
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{
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tmp_W<<=1;
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if (W & (1<<i)) tmp_W |= 1;
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}
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return tmp_W;
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}
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static void rewind_lword( uint32_t *highW, uint32_t *lowW, uint8_t len)
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{
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uint32_t tmp_lW=0;
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if (len > 32)
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{
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tmp_lW = rewind_word( (*highW << (64-len)) | (*lowW >> (len-32)), 32);
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*highW = rewind_word( *lowW << (64-len) , 32);
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*lowW = tmp_lW;
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} else {
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*highW = 0;
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*lowW = rewind_word( *lowW, len);
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}
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}
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/* Takes a codeword as stored in r, rewinds the remaining bits and stores it back */
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static void rewind_bits(bits_t * r)
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{
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uint32_t hw, lw;
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if (r->len == 0) return;
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if (r->len >32)
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{
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lw = r->bufa;
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hw = r->bufb & (0xFFFFFFFF >> (64 - r->len));
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rewind_lword( &hw, &lw, r->len );
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r->bufa = lw;
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r->bufb = hw;
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} else {
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lw = showbits_hcr(r, r->len );
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r->bufa = rewind_word( lw, r->len);
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r->bufb = 0;
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}
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}
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/* takes codewords from a and b, concatenate them and store them in b */
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static void concat_bits( bits_t * a, bits_t * b)
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{
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uint32_t hwa, lwa, hwb, lwb;
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if (a->len == 0) return;
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if (a->len >32)
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{
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lwa = a->bufa;
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hwa = a->bufb & (0xFFFFFFFF >> (64 - a->len));
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} else {
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lwa = showbits_hcr(a, a->len );
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hwa = 0;
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}
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if (b->len >=32) {
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lwb = b->bufa;
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hwb = (b->bufb & (0xFFFFFFFF >> (64 - b->len)) ) | ( lwa << (b->len - 32));
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} else {
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lwb = showbits_hcr(b, b->len ) | (lwa << (b->len));
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hwb = (lwa >> (32 - b->len)) | (hwa << (b->len));
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}
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b->bufa = lwb;
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b->bufb = hwb;
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b->len += a->len;
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}
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/* 8.5.3.3.1 */
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static const uint8_t PresortedCodebook_VCB11[] = { 11, 31, 30, 29, 28, 27, 26, 25, 24, 23, 22, 21, 20, 19, 18, 17, 16, 9, 7, 5, 3, 1};
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static const uint8_t PresortedCodebook[] = { 11, 9, 7, 5, 3, 1};
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static const uint8_t maxCwLen[32] = {0, 11, 9, 20, 16, 13, 11, 14, 12, 17, 14, 49,
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0, 0, 0, 0, 14, 17, 21, 21, 25, 25, 29, 29, 29, 29, 33, 33, 33, 37, 37, 41};
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typedef struct
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{
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bits_t bits;
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uint8_t decoded;
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uint16_t sp_offset;
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uint8_t cb;
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} codeword_state;
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#define segmentWidth( codebook ) min( maxCwLen[codebook], ics->length_of_longest_codeword )
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uint8_t reordered_spectral_data(NeAACDecHandle hDecoder, ic_stream *ics, bitfile *ld,
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int16_t *spectral_data)
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{
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uint16_t sp_offset[8];
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uint16_t g,i, presort;
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uint16_t NrCodeWords=0, numberOfSegments=0, BitsRead=0;
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uint8_t numberOfSets, set;
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codeword_state Codewords[ 1024 ]; // FIXME max length? PCWs are not stored, so index is Codewordnr - numberOfSegments!, maybe malloc()?
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bits_t Segment[ 512 ];
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uint8_t PCW_decoded=0;
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uint16_t nshort = hDecoder->frameLength/8;
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/*memset (spectral_data, 0, hDecoder->frameLength*sizeof(uint16_t));*/
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if (ics->length_of_reordered_spectral_data == 0)
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return 0; /* nothing to do */
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/* if we have a corrupted bitstream this can happen... */
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if ((ics->length_of_longest_codeword == 0) ||
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(ics->length_of_reordered_spectral_data <
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ics->length_of_longest_codeword) ||
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(ics->max_sfb == 0))
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{
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return 10; /* this is not good... */
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}
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/* store the offset into the spectral data for all the window groups because we can't do it later */
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sp_offset[0] = 0;
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for (g=1; g < ics->num_window_groups; g++)
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{
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sp_offset[g] = sp_offset[g-1] + nshort*ics->window_group_length[g-1];
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}
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/* All data is sorted according to the codebook used */
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for (presort = 0; presort < (hDecoder->aacSectionDataResilienceFlag ? 22 : 6); presort++)
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{
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uint8_t sfb;
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/* next codebook that has to be processed according to presorting */
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uint8_t nextCB = hDecoder->aacSectionDataResilienceFlag ? PresortedCodebook_VCB11[ presort ] : PresortedCodebook[ presort ];
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/* Data belonging to the same spectral unit and having the same codebook comes in consecutive codewords.
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This is done by scanning all sfbs for possible codewords. For sfbs with more than 4 elements this has to be
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repeated */
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for (sfb=0; sfb<ics->max_sfb; sfb ++)
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{
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uint8_t sect_cb, w;
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for (w=0; w< (ics->swb_offset[sfb+1] - ics->swb_offset[sfb]); w+=4)
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{
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for(g = 0; g < ics->num_window_groups; g++)
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{
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for (i = 0; i < ics->num_sec[g]; i++)
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{
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sect_cb = ics->sect_cb[g][i];
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if (
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/* process only sections that are due now */
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(( sect_cb == nextCB ) || (( nextCB < ESC_HCB ) && ( sect_cb == nextCB+1)) ) &&
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/* process only sfb's that are due now */
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((ics->sect_start[g][i] <= sfb) && (ics->sect_end[g][i] > sfb))
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)
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{
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if ((sect_cb != ZERO_HCB) &&
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(sect_cb != NOISE_HCB) &&
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(sect_cb != INTENSITY_HCB) &&
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(sect_cb != INTENSITY_HCB2))
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{
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uint8_t inc = (sect_cb < FIRST_PAIR_HCB) ? QUAD_LEN : PAIR_LEN;
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uint16_t k;
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uint32_t hw, lw;
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for (k=0; (k < (4/inc)*ics->window_group_length[g]) &&
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( (k+w*ics->window_group_length[g]/inc) < (ics->sect_sfb_offset[g][sfb+1] - ics->sect_sfb_offset[g][sfb])); k++)
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{
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uint16_t sp = sp_offset[g] + ics->sect_sfb_offset[g][sfb] + inc*(k+w*ics->window_group_length[g]/inc);
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if (!PCW_decoded)
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{
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/* if we haven't yet read until the end of the buffer, we can directly decode the so-called PCWs */
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if ((BitsRead + segmentWidth( sect_cb ))<= ics->length_of_reordered_spectral_data)
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{
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Segment[ numberOfSegments ].len = segmentWidth( sect_cb );
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if (segmentWidth( sect_cb ) > 32)
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{
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Segment[ numberOfSegments ].bufb = faad_showbits(ld, segmentWidth( sect_cb ) - 32);
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faad_flushbits(ld, segmentWidth( sect_cb) - 32);
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Segment[ numberOfSegments ].bufa = faad_showbits(ld, 32),
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faad_flushbits(ld, 32 );
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} else {
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Segment[ numberOfSegments ].bufa = faad_showbits(ld, segmentWidth( sect_cb ));
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Segment[ numberOfSegments ].bufb = 0;
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faad_flushbits(ld, segmentWidth( sect_cb) );
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}
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huffman_spectral_data_2(sect_cb, &Segment[ numberOfSegments ], &spectral_data[sp]);
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BitsRead += segmentWidth( sect_cb );
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/* skip to next segment, but store left bits in new buffer */
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rewind_bits( &Segment[ numberOfSegments ]);
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numberOfSegments++;
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} else {
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/* the last segment is extended until length_of_reordered_spectral_data */
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if (BitsRead < ics->length_of_reordered_spectral_data)
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{
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uint8_t additional_bits = (ics->length_of_reordered_spectral_data - BitsRead);
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if ( additional_bits > 32)
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{
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hw = faad_showbits(ld, additional_bits - 32);
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faad_flushbits(ld, additional_bits - 32);
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lw = faad_showbits(ld, 32);
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faad_flushbits(ld, 32 );
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} else {
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lw = faad_showbits(ld, additional_bits);
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hw = 0;
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faad_flushbits(ld, additional_bits );
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}
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rewind_lword( &hw, &lw, additional_bits + Segment[ numberOfSegments-1 ].len );
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if (Segment[ numberOfSegments-1 ].len > 32)
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{
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Segment[ numberOfSegments-1 ].bufb = hw +
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showbits_hcr(&Segment[ numberOfSegments-1 ], Segment[ numberOfSegments-1 ].len - 32);
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Segment[ numberOfSegments-1 ].bufa = lw +
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showbits_hcr(&Segment[ numberOfSegments-1 ], 32);
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} else {
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Segment[ numberOfSegments-1 ].bufa = lw +
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showbits_hcr(&Segment[ numberOfSegments-1 ], Segment[ numberOfSegments-1 ].len);
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Segment[ numberOfSegments-1 ].bufb = hw;
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}
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Segment[ numberOfSegments-1 ].len += additional_bits;
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}
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BitsRead = ics->length_of_reordered_spectral_data;
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PCW_decoded = 1;
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Codewords[ 0 ].sp_offset = sp;
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Codewords[ 0 ].cb = sect_cb;
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Codewords[ 0 ].decoded = 0;
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Codewords[ 0 ].bits.len = 0;
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}
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} else {
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Codewords[ NrCodeWords - numberOfSegments ].sp_offset = sp;
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Codewords[ NrCodeWords - numberOfSegments ].cb = sect_cb;
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Codewords[ NrCodeWords - numberOfSegments ].decoded = 0;
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Codewords[ NrCodeWords - numberOfSegments ].bits.len = 0;
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} /* PCW decoded */
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NrCodeWords++;
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} /* of k */
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}
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}
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} /* of i */
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} /* of g */
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} /* of w */
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} /* of sfb */
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} /* of presort */
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/* Avoid divide by zero */
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if (numberOfSegments == 0)
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return 10; /* this is not good... */
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numberOfSets = NrCodeWords / numberOfSegments;
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/* second step: decode nonPCWs */
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for (set = 1; set <= numberOfSets; set++)
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{
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uint16_t trial;
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for (trial = 0; trial < numberOfSegments; trial++)
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{
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uint16_t codewordBase;
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uint16_t set_decoded=numberOfSegments;
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if (set == numberOfSets)
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set_decoded = NrCodeWords - set*numberOfSegments; /* last set is shorter than the rest */
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for (codewordBase = 0; codewordBase < numberOfSegments; codewordBase++)
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{
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uint16_t segment_index = (trial + codewordBase) % numberOfSegments;
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uint16_t codeword_index = codewordBase + set*numberOfSegments - numberOfSegments;
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if ((codeword_index + numberOfSegments) >= NrCodeWords)
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break;
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if (!Codewords[ codeword_index ].decoded)
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{
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if ( Segment[ segment_index ].len > 0)
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{
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uint8_t tmplen;
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if (Codewords[ codeword_index ].bits.len != 0)
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{
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/* on the first trial the data is only stored in Segment[], not in Codewords[].
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On next trials first collect the data stored for this codeword and
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concatenate the new data from Segment[] */
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concat_bits( &Codewords[ codeword_index ].bits, &Segment[ segment_index ]);
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/* Now everthing is stored in Segment[] */
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}
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tmplen = Segment[ segment_index ].len;
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if ( huffman_spectral_data_2(Codewords[ codeword_index ].cb, &Segment[ segment_index ],
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&spectral_data[ Codewords[ codeword_index ].sp_offset ]) >=0)
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{
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/* CW did fit into segment */
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Codewords[ codeword_index ].decoded = 1;
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set_decoded--;
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} else {
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/* CW did not fit, so store for later use */
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Codewords[ codeword_index ].bits.len = tmplen;
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Codewords[ codeword_index ].bits.bufa = Segment[ segment_index ].bufa;
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Codewords[ codeword_index ].bits.bufb = Segment[ segment_index ].bufb;
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}
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}
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}
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} /* of codewordBase */
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if (set_decoded == 0) break; /* no undecoded codewords left in this set */
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} /* of trial */
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/* rewind all bits in remaining segments with len>0 */
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for (i=0; i < numberOfSegments; i++)
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rewind_bits( &Segment[ i ] );
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}
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#if 0
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{
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int i, r=0, c=0;
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for (i=0; i< numberOfSegments; i++)
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r += Segment[ i ].len;
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if (r != 0)
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{
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printf("reordered_spectral_data: %d bits remaining!\n", r);
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}
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for (i=0; i< NrCodeWords - numberOfSegments; i++)
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{
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if (Codewords[ i ].decoded == 0)
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{
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c++;
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}
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}
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if (c != 0)
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{
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printf("reordered_spectral_data: %d Undecoded Codewords remaining!\n",c );
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}
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if ((r !=0) || (c!=0)) return 10;
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}
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#endif
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return 0;
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}
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#endif
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