/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2005 Dave Chapman * Copyright (C) 2009 Yoshihisa Uchida * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "codeclib.h" #include "ima_adpcm_common.h" #include "support_formats.h" /* * Intel DVI ADPCM (IMA ADPCM) * * References * [1] The IMA Digital Audio Focus and Technical Working Groups, * Recommended Practices for Enhancing Digital Audio Compatibility * in Multimedia Systems Revision 3.00, 1992 * [2] Microsoft Corporation, New Multimedia Data Types and Data Techniques, * Revision:3.0, 1994 * [3] ffmpeg source code, libavcodec/adpcm.c */ static struct pcm_format *fmt; static bool set_format(struct pcm_format *format) { fmt = format; if (fmt->bitspersample < 2 || fmt->bitspersample > 5) { DEBUGF("CODEC_ERROR: dvi adpcm must be 2, 3, 4 or 5 bitspersample: %d\n", fmt->bitspersample); return false; } fmt->chunksize = fmt->blockalign; init_ima_adpcm_decoder(fmt->bitspersample, NULL); return true; } static struct pcm_pos *get_seek_pos(uint32_t seek_val, int seek_mode, uint8_t *(*read_buffer)(size_t *realsize)) { static struct pcm_pos newpos; uint32_t newblock = (seek_mode == PCM_SEEK_TIME) ? ((uint64_t)seek_val * ci->id3->frequency / 1000LL) / fmt->samplesperblock : seek_val / fmt->blockalign; (void)read_buffer; newpos.pos = newblock * fmt->blockalign; newpos.samples = newblock * fmt->samplesperblock; return &newpos; } static inline void decode_2bit(const uint8_t **inbuf, size_t inbufsize, int32_t **outbuf, int *outbufcount) { int ch; int i; int32_t *pcmbuf; int samples; samples = inbufsize / (4 * fmt->channels) - 1; *outbufcount += (samples << 4); while (samples-- > 0) { for (ch = 0; ch < fmt->channels; ch++) { pcmbuf = *outbuf + ch; for (i = 0; i < 4; i++) { *pcmbuf = create_pcmdata(ch, **inbuf ) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; *pcmbuf = create_pcmdata(ch, **inbuf >> 2) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; *pcmbuf = create_pcmdata(ch, **inbuf >> 4) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; *pcmbuf = create_pcmdata(ch, **inbuf >> 6) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; (*inbuf)++; } } *outbuf += 16 * fmt->channels; } } static inline void decode_3bit(const uint8_t **inbuf, size_t inbufsize, int32_t **outbuf, int *outbufcount) { const uint8_t *adpcmbuf; uint32_t adpcms; int ch; int i; int32_t *pcmbuf; int samples; samples = (inbufsize - 4 * fmt->channels) / (12 * fmt->channels); *outbufcount += (samples << 5); while (samples--) { for (ch = 0; ch < fmt->channels; ch++) { adpcmbuf = *inbuf + ch * 4; pcmbuf = *outbuf + ch; adpcms = *adpcmbuf++; adpcms |= (*adpcmbuf++) << 8; adpcms |= (*adpcmbuf++) << 16; for (i = 0; i < 8; i++) { *pcmbuf = create_pcmdata(ch, adpcms >> (3 * i)) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; } adpcms = *adpcmbuf++; adpcmbuf += (fmt->channels - 1) * 4; adpcms |= (*adpcmbuf++) << 8; adpcms |= (*adpcmbuf++) << 16; for (i = 0; i < 8; i++) { *pcmbuf = create_pcmdata(ch, adpcms >> (3 * i)) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; } adpcms = *adpcmbuf++; adpcms |= (*adpcmbuf++) << 8; adpcmbuf += (fmt->channels - 1) * 4; adpcms |= (*adpcmbuf++) << 16; for (i = 0; i < 8; i++) { *pcmbuf = create_pcmdata(ch, adpcms >> (3 * i)) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; } adpcms = *adpcmbuf++; adpcms |= (*adpcmbuf++) << 8; adpcms |= (*adpcmbuf++) << 16; for (i = 0; i < 8; i++) { *pcmbuf = create_pcmdata(ch, adpcms >> (3 * i)) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; } } *outbuf += 32 * fmt->channels; *inbuf += 12 * fmt->channels; } } static inline void decode_4bit(const uint8_t **inbuf, size_t inbufsize, int32_t **outbuf, int *outbufcount) { int ch; int i; int32_t *pcmbuf; int samples; samples = inbufsize / (4 * fmt->channels) - 1; *outbufcount += (samples << 3); while (samples-- > 0) { for (ch = 0; ch < fmt->channels; ch++) { pcmbuf = *outbuf + ch; for (i = 0; i < 4; i++) { *pcmbuf = create_pcmdata_size4(ch, **inbuf ) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; *pcmbuf = create_pcmdata_size4(ch, **inbuf >> 4) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; (*inbuf)++; } } *outbuf += 8 * fmt->channels; } } static inline void decode_5bit(const uint8_t **inbuf, size_t inbufsize, int32_t **outbuf, int *outbufcount) { const uint8_t *adpcmbuf; uint64_t adpcms; int ch; int i; int32_t *pcmbuf; int samples; samples = (inbufsize - 4 * fmt->channels) / (20 * fmt->channels); *outbufcount += (samples << 5); while (samples--) { for (ch = 0; ch < fmt->channels; ch++) { adpcmbuf = *inbuf + ch * 4; pcmbuf = *outbuf + ch; adpcms = *adpcmbuf++; adpcms |= (*adpcmbuf++) << 8; adpcms |= (*adpcmbuf++) << 16; adpcms |= (uint64_t)(*adpcmbuf++) << 24; adpcmbuf += (fmt->channels - 1) * 4; adpcms |= (uint64_t)(*adpcmbuf++) << 32; for (i = 0; i < 8; i++) { *pcmbuf = create_pcmdata(ch, adpcms >> (5 * i)) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; } adpcms = *adpcmbuf++; adpcms |= (*adpcmbuf++) << 8; adpcms |= (*adpcmbuf++) << 16; adpcmbuf += (fmt->channels - 1) * 4; adpcms |= (uint64_t)(*adpcmbuf++) << 24; adpcms |= (uint64_t)(*adpcmbuf++) << 32; for (i = 0; i < 8; i++) { *pcmbuf = create_pcmdata(ch, adpcms >> (5 * i)) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; } adpcms = *adpcmbuf++; adpcms |= (*adpcmbuf++) << 8; adpcmbuf += (fmt->channels - 1) * 4; adpcms |= (*adpcmbuf++) << 16; adpcms |= (uint64_t)(*adpcmbuf++) << 24; adpcms |= (uint64_t)(*adpcmbuf++) << 32; for (i = 0; i < 8; i++) { *pcmbuf = create_pcmdata(ch, adpcms >> (5 * i)) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; } adpcms = *adpcmbuf++; adpcmbuf += (fmt->channels - 1) * 4; adpcms |= (*adpcmbuf++) << 8; adpcms |= (*adpcmbuf++) << 16; adpcms |= (uint64_t)(*adpcmbuf++) << 24; adpcms |= (uint64_t)(*adpcmbuf++) << 32; for (i = 0; i < 8; i++) { *pcmbuf = create_pcmdata(ch, adpcms >> (5 * i)) << IMA_ADPCM_INC_DEPTH; pcmbuf += fmt->channels; } } *outbuf += 32 * fmt->channels; *inbuf += 20 * fmt->channels; } } static int decode(const uint8_t *inbuf, size_t inbufsize, int32_t *outbuf, int *outbufcount) { int ch; int32_t init_pcmdata[2]; int8_t init_index[2]; *outbufcount = 0; for (ch = 0; ch < fmt->channels; ch++) { init_pcmdata[ch] = inbuf[0] | (inbuf[1] << 8); if (init_pcmdata[ch] > 32767) init_pcmdata[ch] -= 65536; init_index[ch] = inbuf[2]; if (init_index[ch] > 88 || init_index[ch] < 0) { DEBUGF("CODEC_ERROR: dvi adpcm illegal step index=%d > 88\n", init_index[ch]); return CODEC_ERROR; } inbuf += 4; *outbuf++ = init_pcmdata[ch] << IMA_ADPCM_INC_DEPTH; } *outbufcount += 1; set_decode_parameters(fmt->channels, init_pcmdata, init_index); if (fmt->bitspersample == 4) decode_4bit(&inbuf, inbufsize, &outbuf, outbufcount); else if (fmt->bitspersample == 3) decode_3bit(&inbuf, inbufsize, &outbuf, outbufcount); else if (fmt->bitspersample == 5) decode_5bit(&inbuf, inbufsize, &outbuf, outbufcount); else /* fmt->bitspersample == 2 */ decode_2bit(&inbuf, inbufsize, &outbuf, outbufcount); return CODEC_OK; } static const struct pcm_codec codec = { set_format, get_seek_pos, decode, }; const struct pcm_codec *get_dvi_adpcm_codec(void) { return &codec; }