ref: 2dabff3c93c430a7e5578327227e8b6789c31ccd
dir: /src/audio/audio.c/
/*************************************************************************/ /* */ /* Language Technologies Institute */ /* Carnegie Mellon University */ /* Copyright (c) 2000 */ /* All Rights Reserved. */ /* */ /* Permission is hereby granted, free of charge, to use and distribute */ /* this software and its documentation without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of this work, and to */ /* permit persons to whom this work is furnished to do so, subject to */ /* the following conditions: */ /* 1. The code must retain the above copyright notice, this list of */ /* conditions and the following disclaimer. */ /* 2. Any modifications must be clearly marked as such. */ /* 3. Original authors' names are not deleted. */ /* 4. The authors' names are not used to endorse or promote products */ /* derived from this software without specific prior written */ /* permission. */ /* */ /* CARNEGIE MELLON UNIVERSITY AND THE CONTRIBUTORS TO THIS WORK */ /* DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING */ /* ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT */ /* SHALL CARNEGIE MELLON UNIVERSITY NOR THE CONTRIBUTORS BE LIABLE */ /* FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES */ /* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN */ /* AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, */ /* ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF */ /* THIS SOFTWARE. */ /* */ /*************************************************************************/ /* Author: Alan W Black (awb@cs.cmu.edu) */ /* Date: October 2000 */ /*************************************************************************/ /* */ /* Access to audio devices , */ /* */ /*************************************************************************/ #include "cst_string.h" #include "cst_wave.h" #include "cst_audio.h" #include "native_audio.h" int audio_bps(cst_audiofmt fmt) { switch (fmt) { case CST_AUDIO_LINEAR16: return 2; case CST_AUDIO_LINEAR8: case CST_AUDIO_MULAW: return 1; } return 0; } cst_audiodev *audio_open(int sps, int channels, cst_audiofmt fmt) { cst_audiodev *ad; int up, down; ad = AUDIO_OPEN_NATIVE(sps, channels, fmt); if (ad == NULL) return NULL; down = sps / 1000; up = ad->real_sps / 1000; if (up != down) ad->rateconv = new_rateconv(up, down, channels); return ad; } int audio_close(cst_audiodev *ad) { if (ad->rateconv) delete_rateconv(ad->rateconv); return AUDIO_CLOSE_NATIVE(ad); } int audio_write(cst_audiodev *ad,void *buff,int num_bytes) { void *abuf = buff, *nbuf = NULL; int rv, i, real_num_bytes = num_bytes; if (ad->rateconv) { short *in, *out; int insize, outsize, n; insize = real_num_bytes / 2; in = (short *)buff; outsize = ad->rateconv->outsize; nbuf = out = cst_alloc(short, outsize); real_num_bytes = outsize * 2; while ((n = cst_rateconv_in(ad->rateconv, in, insize)) > 0) { in += n; insize -= n; while ((n = cst_rateconv_out(ad->rateconv, out, outsize)) > 0) { out += n; outsize -= n; } } real_num_bytes -= outsize * 2; if (abuf != buff) cst_free(abuf); abuf = nbuf; } if (ad->real_channels != ad->channels) { /* Yeah, we only do mono->stereo for now */ if (ad->real_channels != 2 || ad->channels != 1) { cst_errmsg("audio_write: unsupported channel mapping requested (%d => %d).\n", ad->channels, ad->real_channels); } nbuf = cst_alloc(char, real_num_bytes * ad->real_channels / ad->channels); if (audio_bps(ad->fmt) == 2) { for (i = 0; i < real_num_bytes / 2; ++i) { ((short *)nbuf)[i*2] = ((short *)abuf)[i]; ((short *)nbuf)[i*2+1] = ((short *)abuf)[i]; } } else if (audio_bps(ad->fmt) == 1) { for (i = 0; i < real_num_bytes / 2; ++i) { ((unsigned char *)nbuf)[i*2] = ((unsigned char *)abuf)[i]; ((unsigned char *)nbuf)[i*2+1] = ((unsigned char *)abuf)[i]; } } else { cst_errmsg("audio_write: unknown format %d\n", ad->fmt); cst_free(nbuf); if (abuf != buff) cst_free(abuf); cst_error(); } if (abuf != buff) cst_free(abuf); abuf = nbuf; real_num_bytes = real_num_bytes * ad->real_channels / ad->channels; } if (ad->real_fmt != ad->fmt) { if (ad->real_fmt == CST_AUDIO_LINEAR16 && ad->fmt == CST_AUDIO_MULAW) { nbuf = cst_alloc(char, real_num_bytes * 2); for (i = 0; i < real_num_bytes; ++i) ((short *)nbuf)[i] = cst_ulaw_to_short(((unsigned char *)abuf)[i]); real_num_bytes *= 2; } else if (ad->real_fmt == CST_AUDIO_MULAW && ad->fmt == CST_AUDIO_LINEAR16) { nbuf = cst_alloc(char, real_num_bytes / 2); for (i = 0; i < real_num_bytes / 2; ++i) ((unsigned char *)nbuf)[i] = cst_short_to_ulaw(((short *)abuf)[i]); real_num_bytes /= 2; } else if (ad->real_fmt == CST_AUDIO_LINEAR8 && ad->fmt == CST_AUDIO_LINEAR16) { nbuf = cst_alloc(char, real_num_bytes / 2); for (i = 0; i < real_num_bytes / 2; ++i) ((unsigned char *)nbuf)[i] = (((short *)abuf)[i] >> 8) + 128; real_num_bytes /= 2; } else { cst_errmsg("audio_write: unknown format conversion (%d => %d) requested.\n", ad->fmt, ad->real_fmt); cst_free(nbuf); if (abuf != buff) cst_free(abuf); cst_error(); } if (abuf != buff) cst_free(abuf); abuf = nbuf; } if (ad->byteswap && audio_bps(ad->real_fmt) == 2) swap_bytes_short((short *)abuf, real_num_bytes/2); if (real_num_bytes) rv = AUDIO_WRITE_NATIVE(ad,abuf,real_num_bytes); else rv = 0; if (abuf != buff) cst_free(abuf); /* Callers expect to get the same num_bytes back as they passed in. Funny, that ... */ return (rv == real_num_bytes) ? num_bytes : 0; } int audio_drain(cst_audiodev *ad) { return AUDIO_DRAIN_NATIVE(ad); } int audio_flush(cst_audiodev *ad) { return AUDIO_FLUSH_NATIVE(ad); } int play_wave(cst_wave *w) { cst_audiodev *ad; int i,n,r; int num_shorts; if (!w) return CST_ERROR_FORMAT; if ((ad = audio_open(w->sample_rate, w->num_channels, /* FIXME: should be able to determine this somehow */ CST_AUDIO_LINEAR16)) == NULL) return CST_ERROR_FORMAT; num_shorts = w->num_samples*w->num_channels; for (i=0; i < num_shorts; i += r/2) { if (num_shorts > i+CST_AUDIOBUFFSIZE) n = CST_AUDIOBUFFSIZE; else n = num_shorts-i; r = audio_write(ad,&w->samples[i],n*2); if (r <= 0) { cst_errmsg("failed to write %d samples\n",n); break; } } audio_flush(ad); audio_close(ad); return CST_OK_FORMAT; } int play_wave_sync(cst_wave *w, cst_relation *rel, int (*call_back)(cst_item *)) { int q,i,n,r; cst_audiodev *ad; float r_pos; cst_item *item; if (!w) return CST_ERROR_FORMAT; if ((ad = audio_open(w->sample_rate,w->num_channels, CST_AUDIO_LINEAR16)) == NULL) return CST_ERROR_FORMAT; q=0; item = relation_head(rel); r_pos = w->sample_rate * 0; for (i=0; i < w->num_samples; i += r/2) { if (i >= r_pos) { audio_flush(ad); if ((*call_back)(item) != CST_OK_FORMAT) break; item = item_next(item); if (item) r_pos = w->sample_rate * val_float(ffeature(item,"p.end")); else r_pos = w->num_samples; } if (w->num_samples > i+CST_AUDIOBUFFSIZE) n = CST_AUDIOBUFFSIZE; else n = w->num_samples-i; r = audio_write(ad,&w->samples[i],n*2); q +=r; if (r <= 0) cst_errmsg("failed to write %d samples\n",n); } audio_close(ad); return CST_OK_FORMAT; }