/* -*- c++ -*- */

/*

 * Copyright 2005,2006,2010 Free Software Foundation, Inc.

 * 

 * This file is part of GNU Radio

 * 

 * GNU Radio 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, or (at your option)

 * any later version.

 * 

 * GNU Radio 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 GNU Radio; see the file COPYING.  If not, write to

 * the Free Software Foundation, Inc., 51 Franklin Street,

 * Boston, MA 02110-1301, USA.

 */

#ifdef HAVE_CONFIG_H

#include "config.h"

#endif

#include <audio_jack_sink.h>

#include <gr_io_signature.h>

#include <gr_prefs.h>

#include <stdio.h>

#include <iostream>

#include <stdexcept>

#include <gri_jack.h>

#ifndef NO_PTHREAD

#include <pthread.h>

#endif

typedef jack_default_audio_sample_t sample_t;

// Number of jack buffers in the ringbuffer

// TODO: make it to match at least the quantity of items passed by work()

static const unsigned int N_BUFFERS = 16;

static std::string 

default_device_name ()

{

  return gr_prefs::singleton()->get_string("audio_jack", "default_output_device", "gr_sink");

}

int

jack_sink_process (jack_nframes_t nframes, void *arg)

{

  audio_jack_sink *self = (audio_jack_sink *)arg;

  unsigned int read_size = nframes*sizeof(sample_t);

  if (jack_ringbuffer_read_space (self->d_ringbuffer) < read_size) {

    self->d_nunderuns++;

    // FIXME: move this fputs out, we shouldn't use blocking calls in process()

    fputs ("jU", stderr);

    return 0;

  }

  char *buffer = (char *) jack_port_get_buffer (self->d_jack_output_port, nframes);

  jack_ringbuffer_read (self->d_ringbuffer, buffer, read_size);

#ifndef NO_PTHREAD

  // Tell the sink thread there is room in the ringbuffer.

  // If it is already running, the lock will not be available.

  // We can't wait here in the process() thread, but we don't

  // need to signal in that case, because the sink thread will 

  // check for room availability.

  if (pthread_mutex_trylock (&self->d_jack_process_lock) == 0) {

    pthread_cond_signal (&self->d_ringbuffer_ready);

    pthread_mutex_unlock (&self->d_jack_process_lock);

  }

#endif

  return 0;

}

// ----------------------------------------------------------------

audio_jack_sink_sptr

audio_jack_make_sink(int sampling_rate, const std::string dev, bool ok_to_block)

{

  return gnuradio::get_initial_sptr(new audio_jack_sink (sampling_rate, dev,

                                                    ok_to_block));

}

audio_jack_sink::audio_jack_sink (int sampling_rate,

                                  const std::string device_name,

                                  bool ok_to_block)

  : gr_sync_block ("audio_jack_sink",

                   gr_make_io_signature (0, 0, 0),

                   gr_make_io_signature (0, 0, 0)),

    d_sampling_rate (sampling_rate),

    d_device_name (device_name.empty() ? default_device_name() : device_name),

    d_ok_to_block (ok_to_block),

    d_jack_client (0),

    d_ringbuffer (0),

    d_nunderuns (0)

{

#ifndef NO_PTHREAD

    pthread_cond_init(&d_ringbuffer_ready, NULL);;

    pthread_mutex_init(&d_jack_process_lock, NULL);

#endif

  // try to become a client of the JACK server

  if ((d_jack_client = jack_client_new (d_device_name.c_str ())) == 0) {

    fprintf (stderr, "audio_jack_sink[%s]: jack server not running?\n",

             d_device_name.c_str());

    throw std::runtime_error ("audio_jack_sink");

  }

  // tell the JACK server to call `jack_sink_process()' whenever

  // there is work to be done.

  jack_set_process_callback (d_jack_client, &jack_sink_process, (void*)this);

  // tell the JACK server to call `jack_shutdown()' if

  // it ever shuts down, either entirely, or if it

  // just decides to stop calling us.

  //jack_on_shutdown (d_jack_client, &jack_shutdown, (void*)this);

  d_jack_output_port = 

    jack_port_register (d_jack_client, "out", 

                        JACK_DEFAULT_AUDIO_TYPE, JackPortIsOutput, 0);

  d_jack_buffer_size = jack_get_buffer_size (d_jack_client);

  set_output_multiple (d_jack_buffer_size);

  d_ringbuffer =

    jack_ringbuffer_create (N_BUFFERS*d_jack_buffer_size*sizeof(sample_t));

  if (d_ringbuffer == NULL)

    bail ("jack_ringbuffer_create failed", 0);

  assert(sizeof(float)==sizeof(sample_t));

  set_input_signature (gr_make_io_signature (1, 1, sizeof (sample_t)));

  jack_nframes_t sample_rate = jack_get_sample_rate (d_jack_client);

  if ((jack_nframes_t)sampling_rate != sample_rate){

    fprintf (stderr, "audio_jack_sink[%s]: unable to support sampling rate %d\n",

             d_device_name.c_str (), sampling_rate);

    fprintf (stderr, "  card requested %d instead.\n", sample_rate);

  }

}

bool

audio_jack_sink::check_topology (int ninputs, int noutputs)

{

  if (ninputs != 1)

    return false;

  // tell the JACK server that we are ready to roll 

  if (jack_activate (d_jack_client))

    throw std::runtime_error ("audio_jack_sink");

  return true;

}

audio_jack_sink::~audio_jack_sink ()

{

  jack_client_close (d_jack_client);

  jack_ringbuffer_free (d_ringbuffer);

}

int

audio_jack_sink::work (int noutput_items,

                       gr_vector_const_void_star &input_items,

                       gr_vector_void_star &output_items)

{

  // write_size and work_size are in bytes

  int work_size = noutput_items*sizeof(sample_t);

  unsigned int write_size;

  while (work_size > 0) {

    unsigned int write_space;        // bytes

#ifdef NO_PTHREAD

    while ((write_space=jack_ringbuffer_write_space (d_ringbuffer)) < 

           d_jack_buffer_size*sizeof(sample_t)) {

      usleep(1000000*((d_jack_buffer_size-write_space/sizeof(sample_t))/d_sampling_rate));

    }

#else

    // JACK actually requires POSIX

    pthread_mutex_lock (&d_jack_process_lock);

    while ((write_space=jack_ringbuffer_write_space (d_ringbuffer)) < 

           d_jack_buffer_size*sizeof(sample_t)) {

      // wait until jack_sink_process() signals more room

      pthread_cond_wait (&d_ringbuffer_ready, &d_jack_process_lock);

    }

    pthread_mutex_unlock (&d_jack_process_lock);

#endif

    write_space -= write_space%(d_jack_buffer_size*sizeof(sample_t));

    write_size = std::min(write_space, (unsigned int)work_size);

    if (jack_ringbuffer_write (d_ringbuffer, (char *) input_items[0],

                               write_size) < write_size) {

      bail ("jack_ringbuffer_write failed", 0);

    }

    work_size -= write_size;

  }

  return noutput_items;

}

void

audio_jack_sink::output_error_msg (const char *msg, int err)

{

  fprintf (stderr, "audio_jack_sink[%s]: %s: %d\n",

           d_device_name.c_str (), msg,  err);

}

void

audio_jack_sink::bail (const char *msg, int err) throw (std::runtime_error)

{

  output_error_msg (msg, err);

  throw std::runtime_error ("audio_jack_sink");

}