ref: 6f22ed5c3c6b6d87c6f034b6f2f70e98b2211735
dir: /examples/jackio.c/
/* Copyright (C) 2003-2013 Paul Brossier <piem@aubio.org> This file is part of aubio. aubio 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 3 of the License, or (at your option) any later version. aubio is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with aubio. If not, see <http://www.gnu.org/licenses/>. */ #include <aubio.h> #include "config.h" #ifdef HAVE_JACK #include "utils.h" // for aubio_process_func_t #include "jackio.h" #include "aubio_priv.h" typedef jack_default_audio_sample_t jack_sample_t; #if HAVE_AUBIO_DOUBLE #define AUBIO_JACK_MAX_FRAMES 4096 #define AUBIO_JACK_NEEDS_CONVERSION #endif #define RINGBUFFER_SIZE 1024*sizeof(jack_midi_event_t) /** * jack device structure */ struct _aubio_jack_t { /** jack client */ jack_client_t *client; /** jack output ports */ jack_port_t **oports; /** jack input ports */ jack_port_t **iports; /** jack input buffer */ jack_sample_t **ibufs; /** jack output buffer */ jack_sample_t **obufs; #ifdef AUBIO_JACK_NEEDS_CONVERSION /** converted jack input buffer */ smpl_t **sibufs; /** converted jack output buffer */ smpl_t **sobufs; #endif /** jack input audio channels */ uint_t ichan; /** jack output audio channels */ uint_t ochan; /** jack input midi channels */ uint_t imidichan; /** jack output midi channels */ uint_t omidichan; /** midi output ringbuffer */ jack_ringbuffer_t *midi_out_ring; /** jack samplerate (Hz) */ uint_t samplerate; /** jack processing function */ aubio_process_func_t callback; /** internal fvec */ fvec_t *ibuf; fvec_t *obuf; uint_t hop_size; int pos; }; /* static memory management */ static aubio_jack_t *aubio_jack_alloc (uint_t ichan, uint_t ochan, uint_t imidichan, uint_t omidichan); /* jack callback functions */ static int aubio_jack_process (jack_nframes_t nframes, void *arg); static void aubio_jack_shutdown (void *arg); aubio_jack_t * new_aubio_jack (uint_t hop_size, uint_t ichan, uint_t ochan, uint_t imidichan, uint_t omidichan) { aubio_jack_t *jack_setup = aubio_jack_alloc (ichan, ochan, imidichan, omidichan); uint_t i; char *client_name = "aubio"; char *jack_port_type; char name[64]; /* initial jack client setup */ jack_options_t options = JackNullOption; jack_status_t *status = NULL; if ((jack_setup->client = jack_client_open (client_name, options, status)) == 0) { AUBIO_ERR ("jack server not running?\n"); AUBIO_QUIT (AUBIO_FAIL); } if (jack_setup->omidichan) { jack_setup->midi_out_ring = jack_ringbuffer_create (RINGBUFFER_SIZE); if (jack_setup->midi_out_ring == NULL) { AUBIO_ERR ("Failed creating jack midi output ringbuffer."); AUBIO_QUIT (AUBIO_FAIL); } jack_ringbuffer_mlock (jack_setup->midi_out_ring); } /* set callbacks */ jack_set_process_callback (jack_setup->client, aubio_jack_process, (void *) jack_setup); jack_on_shutdown (jack_setup->client, aubio_jack_shutdown, (void *) jack_setup); /* register jack output audio and midi ports */ for (i = 0; i < ochan + omidichan; i++) { if (i < ochan) { jack_port_type = JACK_DEFAULT_AUDIO_TYPE; AUBIO_SPRINTF (name, "out_%d", i + 1); } else { jack_port_type = JACK_DEFAULT_MIDI_TYPE; AUBIO_SPRINTF (name, "midi_out_%d", i - ochan + 1); } if ((jack_setup->oports[i] = jack_port_register (jack_setup->client, name, jack_port_type, JackPortIsOutput, 0)) == 0) { goto beach; } AUBIO_DBG ("%s:%s\n", client_name, name); } /* register jack input audio ports */ for (i = 0; i < ichan + imidichan; i++) { if (i < ichan) { jack_port_type = JACK_DEFAULT_AUDIO_TYPE; AUBIO_SPRINTF (name, "in_%d", i + 1); } else { jack_port_type = JACK_DEFAULT_MIDI_TYPE; AUBIO_SPRINTF (name, "midi_in_%d", i - ichan + 1); } if ((jack_setup->iports[i] = jack_port_register (jack_setup->client, name, jack_port_type, JackPortIsInput, 0)) == 0) { goto beach; } AUBIO_DBG ("%s:%s\n", client_name, name); } /* get sample rate */ jack_setup->samplerate = jack_get_sample_rate (jack_setup->client); jack_setup->hop_size = hop_size; jack_setup->ibuf = new_fvec(hop_size); jack_setup->obuf = new_fvec(hop_size); jack_setup->pos = 0; return jack_setup; beach: AUBIO_ERR ("failed registering port \"%s:%s\"!\n", client_name, name); jack_client_close (jack_setup->client); AUBIO_QUIT (AUBIO_FAIL); } uint_t aubio_jack_get_samplerate (aubio_jack_t * jack_setup) { return jack_setup->samplerate; } uint_t aubio_jack_activate (aubio_jack_t * jack_setup, aubio_process_func_t callback) { /* set processing callback */ jack_setup->callback = callback; /* actual jack process activation */ if (jack_activate (jack_setup->client)) { AUBIO_ERR ("jack client activation failed"); return 1; } return 0; } void aubio_jack_close (aubio_jack_t * jack_setup) { /* bug : should disconnect all ports first */ jack_client_close (jack_setup->client); } /* memory management */ static aubio_jack_t * aubio_jack_alloc (uint_t ichan, uint_t ochan, uint_t imidichan, uint_t omidichan) { aubio_jack_t *jack_setup = AUBIO_NEW (aubio_jack_t); jack_setup->ichan = ichan; jack_setup->ochan = ochan; jack_setup->imidichan = imidichan; jack_setup->omidichan = omidichan; jack_setup->oports = AUBIO_ARRAY (jack_port_t *, ichan + imidichan); jack_setup->iports = AUBIO_ARRAY (jack_port_t *, ochan + omidichan); jack_setup->ibufs = AUBIO_ARRAY (jack_sample_t *, ichan); jack_setup->obufs = AUBIO_ARRAY (jack_sample_t *, ochan); #ifdef AUBIO_JACK_NEEDS_CONVERSION /* allocate arrays for data conversion */ jack_setup->sibufs = AUBIO_ARRAY (smpl_t *, ichan); uint_t i; for (i = 0; i < ichan; i++) { jack_setup->sibufs[i] = AUBIO_ARRAY (smpl_t, AUBIO_JACK_MAX_FRAMES); } jack_setup->sobufs = AUBIO_ARRAY (smpl_t *, ochan); for (i = 0; i < ochan; i++) { jack_setup->sobufs[i] = AUBIO_ARRAY (smpl_t, AUBIO_JACK_MAX_FRAMES); } #endif return jack_setup; } void del_aubio_jack (aubio_jack_t * jack_setup) { if (jack_setup->omidichan && jack_setup->midi_out_ring) { jack_ringbuffer_free (jack_setup->midi_out_ring); } del_fvec (jack_setup->ibuf); del_fvec (jack_setup->obuf); AUBIO_FREE (jack_setup->oports); AUBIO_FREE (jack_setup->iports); AUBIO_FREE (jack_setup->ibufs); AUBIO_FREE (jack_setup->obufs); AUBIO_FREE (jack_setup); } /* jack callback functions */ static void aubio_jack_shutdown (void *arg UNUSED) { AUBIO_ERR ("jack shutdown\n"); AUBIO_QUIT (AUBIO_OK); } static void process_midi_output (aubio_jack_t * dev, jack_nframes_t nframes); static int block_process(aubio_jack_t *dev, smpl_t **input, smpl_t **output, int nframes) { unsigned int j; /*frames*/ for (j=0;j<(unsigned)nframes;j++) { /* put synthnew in output */ output[0][j] = fvec_get_sample(dev->obuf, dev->pos); /* write input to datanew */ fvec_set_sample(dev->ibuf, input[0][j], dev->pos); /*time for fft*/ if (dev->pos == (int)(dev->hop_size) - 1) { /* block loop */ dev->callback(dev->ibuf, dev->obuf); /* end of block loop */ dev->pos = -1; /* so it will be zero next j loop */ } dev->pos++; } return 1; } static int aubio_jack_process (jack_nframes_t nframes, void *arg) { aubio_jack_t *dev = (aubio_jack_t *) arg; uint_t i; for (i = 0; i < dev->ichan; i++) { /* get readable input */ dev->ibufs[i] = (jack_sample_t *) jack_port_get_buffer (dev->iports[i], nframes); } for (i = 0; i < dev->ochan; i++) { /* get writable output */ dev->obufs[i] = (jack_sample_t *) jack_port_get_buffer (dev->oports[i], nframes); } #ifndef AUBIO_JACK_NEEDS_CONVERSION block_process(dev, dev->ibufs, dev->obufs, nframes); #else uint_t j; for (j = 0; j < MIN (nframes, AUBIO_JACK_MAX_FRAMES); j++) { for (i = 0; i < dev->ichan; i++) { dev->sibufs[i][j] = (smpl_t) dev->ibufs[i][j]; } } block_process(dev, dev->sibufs, dev->sobufs, nframes); for (j = 0; j < MIN (nframes, AUBIO_JACK_MAX_FRAMES); j++) { for (i = 0; i < dev->ochan; i++) { dev->obufs[i][j] = (jack_sample_t) dev->sobufs[i][j]; } } #endif /* now process midi stuff */ if (dev->omidichan) { process_midi_output (dev, nframes); } return 0; } void aubio_jack_midi_event_write (aubio_jack_t * dev, jack_midi_event_t * event) { int written; if (jack_ringbuffer_write_space (dev->midi_out_ring) < sizeof (*event)) { AUBIO_ERR ("Not enough space to write midi output, midi event lost!\n"); return; } written = jack_ringbuffer_write (dev->midi_out_ring, (char *) event, sizeof (*event)); if (written != sizeof (*event)) { AUBIO_WRN ("Call to jack_ringbuffer_write failed, midi event lost! \n"); } } static void process_midi_output (aubio_jack_t * dev, jack_nframes_t nframes) { int read, sendtime; jack_midi_event_t ev; unsigned char *buffer; jack_nframes_t last_frame_time = jack_last_frame_time (dev->client); // TODO for each omidichan void *port_buffer = jack_port_get_buffer (dev->oports[dev->ochan], nframes); if (port_buffer == NULL) { AUBIO_WRN ("Failed to get jack midi output port, will not send anything\n"); return; } jack_midi_clear_buffer (port_buffer); // TODO add rate_limit while (jack_ringbuffer_read_space (dev->midi_out_ring)) { read = jack_ringbuffer_peek (dev->midi_out_ring, (char *) &ev, sizeof (ev)); if (read != sizeof (ev)) { AUBIO_WRN ("Short read from the ringbuffer, possible note loss.\n"); jack_ringbuffer_read_advance (dev->midi_out_ring, read); continue; } sendtime = ev.time + nframes - last_frame_time; /* send time is after current period, will do this one later */ if (sendtime >= (int) nframes) { break; } if (sendtime < 0) { sendtime = 0; } jack_ringbuffer_read_advance (dev->midi_out_ring, sizeof (ev)); buffer = jack_midi_event_reserve (port_buffer, sendtime, ev.size); if (buffer == NULL) { AUBIO_WRN ("Call to jack_midi_event_reserve failed, note lost.\n"); break; } AUBIO_MEMCPY (buffer, ev.buffer, ev.size); } } #endif /* HAVE_JACK */