mirror of
https://github.com/mpv-player/mpv
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1b667f61ba
git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@7181 b3059339-0415-0410-9bf9-f77b7e298cf2
373 lines
10 KiB
C
373 lines
10 KiB
C
/*
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IMA ADPCM Decoder for MPlayer
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by Mike Melanson
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This file is in charge of decoding all of the various IMA ADPCM data
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formats that various entities have created. Details about the data
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formats can be found here:
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http://www.pcisys.net/~melanson/codecs/
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So far, this file handles these formats:
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'ima4': IMA ADPCM found in QT files
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0x11: IMA ADPCM found in MS AVI/ASF/WAV files
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0x61: DK4 ADPCM found in certain AVI files on Sega Saturn CD-ROMs;
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note that this is a 'rogue' format number in that it was
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never officially registered with Microsoft
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <unistd.h>
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#include "config.h"
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#include "bswap.h"
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#include "ad_internal.h"
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#define MS_IMA_ADPCM_PREAMBLE_SIZE 4
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#define QT_IMA_ADPCM_PREAMBLE_SIZE 2
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#define QT_IMA_ADPCM_BLOCK_SIZE 0x22
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#define QT_IMA_ADPCM_SAMPLES_PER_BLOCK 64
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#define BE_16(x) (be2me_16(*(unsigned short *)(x)))
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#define BE_32(x) (be2me_32(*(unsigned int *)(x)))
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#define LE_16(x) (le2me_16(*(unsigned short *)(x)))
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#define LE_32(x) (le2me_32(*(unsigned int *)(x)))
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// pertinent tables for IMA ADPCM
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static int adpcm_step[89] =
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{
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7, 8, 9, 10, 11, 12, 13, 14, 16, 17,
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19, 21, 23, 25, 28, 31, 34, 37, 41, 45,
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50, 55, 60, 66, 73, 80, 88, 97, 107, 118,
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130, 143, 157, 173, 190, 209, 230, 253, 279, 307,
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337, 371, 408, 449, 494, 544, 598, 658, 724, 796,
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876, 963, 1060, 1166, 1282, 1411, 1552, 1707, 1878, 2066,
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2272, 2499, 2749, 3024, 3327, 3660, 4026, 4428, 4871, 5358,
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5894, 6484, 7132, 7845, 8630, 9493, 10442, 11487, 12635, 13899,
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15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794, 32767
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};
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static int adpcm_index[16] =
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{
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-1, -1, -1, -1, 2, 4, 6, 8,
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-1, -1, -1, -1, 2, 4, 6, 8
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};
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// useful macros
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// clamp a number between 0 and 88
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#define CLAMP_0_TO_88(x) if (x < 0) x = 0; else if (x > 88) x = 88;
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// clamp a number within a signed 16-bit range
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#define CLAMP_S16(x) if (x < -32768) x = -32768; \
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else if (x > 32767) x = 32767;
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// clamp a number above 16
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#define CLAMP_ABOVE_16(x) if (x < 16) x = 16;
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// sign extend a 16-bit value
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#define SE_16BIT(x) if (x & 0x8000) x -= 0x10000;
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// sign extend a 4-bit value
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#define SE_4BIT(x) if (x & 0x8) x -= 0x10;
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static ad_info_t info =
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{
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"IMA ADPCM audio decoder",
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"imaadpcm",
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"Nick Kurshev",
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"Mike Melanson",
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""
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};
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LIBAD_EXTERN(imaadpcm)
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static int preinit(sh_audio_t *sh_audio)
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{
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// not exactly sure what this field is for
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sh_audio->audio_out_minsize = 8192;
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// if format is "ima4", assume the audio is coming from a QT file which
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// indicates constant block size, whereas an AVI/ASF/WAV file will fill
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// in this field with 0x11
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if ((sh_audio->format == 0x11) || (sh_audio->format == 0x61))
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{
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sh_audio->ds->ss_div = (sh_audio->wf->nBlockAlign -
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(MS_IMA_ADPCM_PREAMBLE_SIZE * sh_audio->wf->nChannels)) * 2;
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sh_audio->ds->ss_mul = sh_audio->wf->nBlockAlign;
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}
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else
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{
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sh_audio->ds->ss_div = QT_IMA_ADPCM_SAMPLES_PER_BLOCK;
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sh_audio->ds->ss_mul = QT_IMA_ADPCM_BLOCK_SIZE * sh_audio->wf->nChannels;
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}
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sh_audio->audio_in_minsize=sh_audio->ds->ss_mul;
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return 1;
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}
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static int init(sh_audio_t *sh_audio)
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{
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/* IMA-ADPCM 4:1 audio codec:*/
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sh_audio->channels=sh_audio->wf->nChannels;
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sh_audio->samplerate=sh_audio->wf->nSamplesPerSec;
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/* decodes 34 byte -> 64 short*/
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sh_audio->i_bps =
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(sh_audio->ds->ss_mul * sh_audio->samplerate) / sh_audio->ds->ss_div;
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return 1;
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}
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static void uninit(sh_audio_t *sh_audio)
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{
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}
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static int control(sh_audio_t *sh_audio,int cmd,void* arg, ...)
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{
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if(cmd==ADCTRL_SKIP_FRAME){
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demux_read_data(sh_audio->ds, sh_audio->a_in_buffer,sh_audio->ds->ss_mul);
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return CONTROL_TRUE;
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}
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return CONTROL_UNKNOWN;
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}
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static void decode_nibbles(unsigned short *output,
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int output_size, int channels,
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int predictor_l, int index_l,
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int predictor_r, int index_r)
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{
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int step[2];
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int predictor[2];
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int index[2];
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int diff;
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int i;
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int sign;
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int delta;
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int channel_number = 0;
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step[0] = adpcm_step[index_l];
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step[1] = adpcm_step[index_r];
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predictor[0] = predictor_l;
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predictor[1] = predictor_r;
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index[0] = index_l;
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index[1] = index_r;
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for (i = 0; i < output_size; i++)
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{
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delta = output[i];
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index[channel_number] += adpcm_index[delta];
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CLAMP_0_TO_88(index[channel_number]);
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sign = delta & 8;
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delta = delta & 7;
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diff = step[channel_number] >> 3;
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if (delta & 4) diff += step[channel_number];
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if (delta & 2) diff += step[channel_number] >> 1;
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if (delta & 1) diff += step[channel_number] >> 2;
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if (sign)
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predictor[channel_number] -= diff;
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else
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predictor[channel_number] += diff;
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CLAMP_S16(predictor[channel_number]);
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output[i] = predictor[channel_number];
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step[channel_number] = adpcm_step[index[channel_number]];
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// toggle channel
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channel_number ^= channels - 1;
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}
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}
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static int qt_ima_adpcm_decode_block(unsigned short *output,
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unsigned char *input, int channels)
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{
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int initial_predictor_l = 0;
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int initial_predictor_r = 0;
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int initial_index_l = 0;
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int initial_index_r = 0;
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int i;
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initial_predictor_l = BE_16(&input[0]);
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initial_index_l = initial_predictor_l;
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// mask, sign-extend, and clamp the predictor portion
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initial_predictor_l &= 0xFF80;
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SE_16BIT(initial_predictor_l);
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CLAMP_S16(initial_predictor_l);
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// mask and clamp the index portion
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initial_index_l &= 0x7F;
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CLAMP_0_TO_88(initial_index_l);
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// handle stereo
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if (channels > 1)
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{
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initial_predictor_r = BE_16(&input[QT_IMA_ADPCM_BLOCK_SIZE]);
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initial_index_r = initial_predictor_r;
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// mask, sign-extend, and clamp the predictor portion
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initial_predictor_r &= 0xFF80;
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SE_16BIT(initial_predictor_r);
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CLAMP_S16(initial_predictor_r);
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// mask and clamp the index portion
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initial_index_r &= 0x7F;
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CLAMP_0_TO_88(initial_index_r);
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}
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// break apart all of the nibbles in the block
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if (channels == 1)
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for (i = 0; i < QT_IMA_ADPCM_SAMPLES_PER_BLOCK / 2; i++)
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{
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output[i * 2 + 0] = input[2 + i] & 0x0F;
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output[i * 2 + 1] = input[2 + i] >> 4;
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}
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else
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for (i = 0; i < QT_IMA_ADPCM_SAMPLES_PER_BLOCK / 2 * 2; i++)
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{
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output[i * 4 + 0] = input[2 + i] & 0x0F;
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output[i * 4 + 1] = input[2 + QT_IMA_ADPCM_BLOCK_SIZE + i] & 0x0F;
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output[i * 4 + 2] = input[2 + i] >> 4;
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output[i * 4 + 3] = input[2 + QT_IMA_ADPCM_BLOCK_SIZE + i] >> 4;
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}
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decode_nibbles(output,
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QT_IMA_ADPCM_SAMPLES_PER_BLOCK * channels, channels,
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initial_predictor_l, initial_index_l,
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initial_predictor_r, initial_index_r);
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return QT_IMA_ADPCM_SAMPLES_PER_BLOCK * channels;
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}
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static int ms_ima_adpcm_decode_block(unsigned short *output,
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unsigned char *input, int channels, int block_size)
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{
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int predictor_l = 0;
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int predictor_r = 0;
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int index_l = 0;
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int index_r = 0;
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int i;
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int channel_counter;
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int channel_index;
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int channel_index_l;
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int channel_index_r;
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predictor_l = LE_16(&input[0]);
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SE_16BIT(predictor_l);
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index_l = input[2];
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if (channels == 2)
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{
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predictor_r = LE_16(&input[4]);
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SE_16BIT(predictor_r);
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index_r = input[6];
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}
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if (channels == 1)
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for (i = 0;
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i < (block_size - MS_IMA_ADPCM_PREAMBLE_SIZE * channels) / 2; i++)
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{
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output[i * 2 + 0] = input[MS_IMA_ADPCM_PREAMBLE_SIZE + i] & 0x0F;
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output[i * 2 + 1] = input[MS_IMA_ADPCM_PREAMBLE_SIZE + i] >> 4;
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}
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else
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{
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// encoded as 8 nibbles (4 bytes) per channel; switch channel every
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// 4th byte
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channel_counter = 0;
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channel_index_l = 0;
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channel_index_r = 1;
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channel_index = channel_index_l;
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for (i = 0;
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i < (block_size - MS_IMA_ADPCM_PREAMBLE_SIZE * channels); i++)
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{
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output[channel_index + 0] =
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input[MS_IMA_ADPCM_PREAMBLE_SIZE * 2 + i] & 0x0F;
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output[channel_index + 2] =
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input[MS_IMA_ADPCM_PREAMBLE_SIZE * 2 + i] >> 4;
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channel_index += 4;
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channel_counter++;
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if (channel_counter == 4)
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{
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channel_index_l = channel_index;
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channel_index = channel_index_r;
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}
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else if (channel_counter == 8)
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{
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channel_index_r = channel_index;
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channel_index = channel_index_l;
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channel_counter = 0;
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}
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}
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}
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decode_nibbles(output,
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(block_size - MS_IMA_ADPCM_PREAMBLE_SIZE * channels) * 2,
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channels,
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predictor_l, index_l,
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predictor_r, index_r);
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return (block_size - MS_IMA_ADPCM_PREAMBLE_SIZE * channels) * 2;
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}
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static int dk4_ima_adpcm_decode_block(unsigned short *output,
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unsigned char *input, int channels, int block_size)
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{
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int i;
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int output_ptr;
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int predictor_l = 0;
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int predictor_r = 0;
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int index_l = 0;
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int index_r = 0;
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// the first predictor value goes straight to the output
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predictor_l = output[0] = LE_16(&input[0]);
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SE_16BIT(predictor_l);
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index_l = input[2];
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if (channels == 2)
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{
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predictor_r = output[1] = LE_16(&input[4]);
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SE_16BIT(predictor_r);
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index_r = input[6];
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}
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output_ptr = channels;
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for (i = MS_IMA_ADPCM_PREAMBLE_SIZE * channels; i < block_size; i++)
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{
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output[output_ptr++] = input[i] >> 4;
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output[output_ptr++] = input[i] & 0x0F;
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}
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decode_nibbles(&output[channels],
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(block_size - MS_IMA_ADPCM_PREAMBLE_SIZE * channels) * 2 - channels,
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channels,
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predictor_l, index_l,
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predictor_r, index_r);
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return (block_size - MS_IMA_ADPCM_PREAMBLE_SIZE * channels) * 2 - channels;
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}
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static int decode_audio(sh_audio_t *sh_audio,unsigned char *buf,int minlen,int maxlen)
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{
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if (demux_read_data(sh_audio->ds, sh_audio->a_in_buffer,
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sh_audio->ds->ss_mul) !=
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sh_audio->ds->ss_mul)
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return -1;
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if (sh_audio->format == 0x11)
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{
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return 2 * ms_ima_adpcm_decode_block(
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(unsigned short*)buf, sh_audio->a_in_buffer, sh_audio->wf->nChannels,
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sh_audio->ds->ss_mul);
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}
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else if (sh_audio->format == 0x61)
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{
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return 2 * dk4_ima_adpcm_decode_block(
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(unsigned short*)buf, sh_audio->a_in_buffer, sh_audio->wf->nChannels,
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sh_audio->ds->ss_mul);
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}
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else
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{
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return 2 * qt_ima_adpcm_decode_block(
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(unsigned short*)buf, sh_audio->a_in_buffer, sh_audio->wf->nChannels);
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}
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}
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