Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
-#include <fstream>
#include <cstdio>
#include <unistd.h>
#include <cmath>
#include <fcntl.h>
#include <cstdlib>
#include <ctime>
-#include <sys/stat.h>
-#include <sys/mman.h>
+#include "pbd/gstdio_compat.h"
#include "pbd/error.h"
-#include <glibmm/thread.h>
#include "pbd/xml++.h"
#include "pbd/memento_command.h"
#include "pbd/enumwriter.h"
#include "pbd/stateful_diff_command.h"
#include "ardour/analyser.h"
-#include "ardour/ardour.h"
#include "ardour/audio_buffer.h"
#include "ardour/audio_diskstream.h"
#include "ardour/audio_port.h"
#include "ardour/audioengine.h"
#include "ardour/audiofilesource.h"
-
#include "ardour/audioplaylist.h"
#include "ardour/audioregion.h"
#include "ardour/butler.h"
-#include "ardour/configuration.h"
-#include "ardour/cycle_timer.h"
#include "ardour/debug.h"
#include "ardour/io.h"
#include "ardour/playlist_factory.h"
+#include "ardour/profile.h"
#include "ardour/region_factory.h"
-#include "ardour/send.h"
#include "ardour/session.h"
+#include "ardour/session_playlists.h"
+#include "ardour/sndfile_helpers.h"
#include "ardour/source_factory.h"
+#include "ardour/track.h"
+#include "ardour/types.h"
#include "ardour/utils.h"
-#include "ardour/session_playlists.h"
-#include "ardour/route.h"
-#include "i18n.h"
+#include "pbd/i18n.h"
#include <locale.h>
using namespace std;
using namespace ARDOUR;
using namespace PBD;
-size_t AudioDiskstream::_working_buffers_size = 0;
Sample* AudioDiskstream::_mixdown_buffer = 0;
gain_t* AudioDiskstream::_gain_buffer = 0;
in_set_state = true;
use_new_playlist ();
in_set_state = false;
+
+ if (flag & Destructive) {
+ use_destructive_playlist ();
+ }
}
AudioDiskstream::AudioDiskstream (Session& sess, const XMLNode& node)
void
AudioDiskstream::allocate_working_buffers()
{
- assert(disk_io_frames() > 0);
-
- _working_buffers_size = disk_io_frames();
- _mixdown_buffer = new Sample[_working_buffers_size];
- _gain_buffer = new gain_t[_working_buffers_size];
+ /* with varifill buffer refilling, we compute the read size in bytes (to optimize
+ for disk i/o bandwidth) and then convert back into samples. These buffers
+ need to reflect the maximum size we could use, which is 4MB reads, or 2M samples
+ using 16 bit samples.
+ */
+ _mixdown_buffer = new Sample[2*1048576];
+ _gain_buffer = new gain_t[2*1048576];
}
void
{
delete [] _mixdown_buffer;
delete [] _gain_buffer;
- _working_buffers_size = 0;
_mixdown_buffer = 0;
_gain_buffer = 0;
}
void
AudioDiskstream::non_realtime_input_change ()
{
+ bool need_write_sources = false;
+
{
- Glib::Mutex::Lock lm (state_lock);
+ Glib::Threads::Mutex::Lock lm (state_lock);
if (input_change_pending.type == IOChange::NoChange) {
return;
}
- {
+ boost::shared_ptr<ChannelList> cr = channels.reader();
+ if (!cr->empty() && !cr->front()->write_source) {
+ need_write_sources = true;
+ }
+
+ if (input_change_pending.type & IOChange::ConfigurationChanged) {
RCUWriter<ChannelList> writer (channels);
boost::shared_ptr<ChannelList> c = writer.get_copy();
} else if (_io->n_ports().n_audio() < _n_channels.n_audio()) {
remove_channel_from (c, _n_channels.n_audio() - _io->n_ports().n_audio());
}
+
+ need_write_sources = true;
}
-
- get_input_sources ();
- set_capture_offset ();
- set_align_style_from_io ();
-
+
+ if (input_change_pending.type & IOChange::ConnectionsChanged) {
+ get_input_sources ();
+ set_capture_offset ();
+ set_align_style_from_io ();
+ }
+
input_change_pending = IOChange::NoChange;
/* implicit unlock */
}
- /* reset capture files */
-
- reset_write_sources (false);
+ if (need_write_sources) {
+ reset_write_sources (false);
+ }
/* now refill channel buffers */
/* now refill channel buffers */
if (speed() != 1.0f || speed() != -1.0f) {
- seek ((framepos_t) (location * (double) speed()));
+ seek ((framepos_t) (location * (double) speed()), true);
} else {
- seek (location);
+ seek (location, true);
}
}
connections.clear ();
- cerr << "Getting Nth connection from io " << n << " = " << _io->nth(n) << endl;
-
- if (_io->nth (n)->get_connections (connections) == 0) {
-
- cerr << "\tThere were NO connections, apparently ...\n";
- if ((*chan)->source) {
+ if ((_io->nth (n).get()) && (_io->nth (n)->get_connections (connections) == 0)) {
+ if (!(*chan)->source.name.empty()) {
// _source->disable_metering ();
}
-
- (*chan)->source = 0;
-
+ (*chan)->source.name = string();
} else {
- cerr << "\tThere were some connections, apparently ... to " << connections[0] << endl;
- (*chan)->source = dynamic_cast<AudioPort*>(_session.engine().get_port_by_name (connections[0]) );
+ (*chan)->source.name = connections[0];
}
}
}
if ((playlist = boost::dynamic_pointer_cast<AudioPlaylist> (PlaylistFactory::create (DataType::AUDIO, _session, newname, hidden()))) != 0) {
- playlist->set_orig_diskstream_id (id());
return use_playlist (playlist);
} else {
newname = Playlist::bump_name (_playlist->name(), _session);
if ((playlist = boost::dynamic_pointer_cast<AudioPlaylist>(PlaylistFactory::create (audio_playlist(), newname))) != 0) {
- playlist->set_orig_diskstream_id (id());
return use_playlist (playlist);
} else {
return -1;
PropertyList plist;
plist.add (Properties::name, _name.val());
plist.add (Properties::start, 0);
- plist.add (Properties::length, max_framepos - (max_framepos - srcs.front()->natural_position()));
+ plist.add (Properties::length, max_framepos - srcs.front()->natural_position());
boost::shared_ptr<Region> region (RegionFactory::create (srcs, plist));
_playlist->add_region (region, srcs.front()->natural_position());
+
+ /* apply region properties and update write sources */
+ use_destructive_playlist();
}
void
with the (presumed single, full-extent) region.
*/
- boost::shared_ptr<Region> rp = _playlist->find_next_region (_session.current_start_frame(), Start, 1);
+ boost::shared_ptr<Region> rp;
+ {
+ const RegionList& rl (_playlist->region_list_property().rlist());
+ if (rl.size() > 0) {
+ assert((rl.size() == 1));
+ rp = rl.front();
+ }
+ }
if (!rp) {
reset_write_sources (false, true);
throw failed_constructor();
}
- /* be sure to stretch the region out to the maximum length */
+ /* be sure to stretch the region out to the maximum length (non-musical)*/
- region->set_length (max_framepos - region->position(), this);
+ region->set_length (max_framepos - region->position(), 0);
uint32_t n;
ChannelList::iterator chan;
}
}
+
+/** Do some record stuff [not described in this comment!]
+ *
+ * Also:
+ * - Setup playback_distance with the nframes, or nframes adjusted
+ * for current varispeed, if appropriate.
+ * - Setup current_playback_buffer in each ChannelInfo to point to data
+ * that someone can read playback_distance worth of data from.
+ */
int
-AudioDiskstream::process (framepos_t transport_frame, pframes_t nframes, bool can_record, bool rec_monitors_input, bool& need_butler)
+AudioDiskstream::process (BufferSet& bufs, framepos_t transport_frame, pframes_t nframes, framecnt_t& playback_distance, bool need_disk_signal)
{
uint32_t n;
boost::shared_ptr<ChannelList> c = channels.reader();
ChannelList::iterator chan;
- int ret = -1;
framecnt_t rec_offset = 0;
framecnt_t rec_nframes = 0;
bool collect_playback = false;
+ bool can_record = _session.actively_recording ();
- playback_distance = 0;
+ playback_distance = 0;
if (!_io || !_io->active()) {
return 0;
return 0;
}
- Glib::Mutex::Lock sm (state_lock, Glib::TRY_LOCK);
+ Glib::Threads::Mutex::Lock sm (state_lock, Glib::Threads::TRY_LOCK);
- if (!sm.locked()) {
+ if (!sm.locked()) {
return 1;
}
(*chan)->current_playback_buffer = 0;
}
- /* two conditions to test for here:
-
- A: this track is rec-enabled, and the session has confirmed that we can record
- B: this track is rec-enabled, has been recording, and we are set up for auto-punch-in
+ // Safeguard against situations where process() goes haywire when autopunching
+ // and last_recordable_frame < first_recordable_frame
- The second test is necessary to capture the extra material that arrives AFTER the transport
- frame has left the punch range (which will cause the "can_record" argument to be false).
- */
+ if (last_recordable_frame < first_recordable_frame) {
+ last_recordable_frame = max_framepos;
+ }
+ if (record_enabled()) {
- // Safeguard against situations where process() goes haywire when autopunching
- // and last_recordable_frame < first_recordable_frame
+ Evoral::OverlapType ot = Evoral::coverage (first_recordable_frame, last_recordable_frame, transport_frame, transport_frame + nframes);
+ // XXX should this be transport_frame + nframes - 1 ? coverage() expects its parameter ranges to include their end points
+ // XXX also, first_recordable_frame & last_recordable_frame may both be == max_framepos: coverage() will return OverlapNone in that case. Is thak OK?
+ calculate_record_range (ot, transport_frame, nframes, rec_nframes, rec_offset);
- if (last_recordable_frame < first_recordable_frame) {
- last_recordable_frame = max_framepos;
- }
-
- OverlapType ot = coverage (first_recordable_frame, last_recordable_frame, transport_frame, transport_frame + nframes);
+ DEBUG_TRACE (DEBUG::CaptureAlignment, string_compose ("%1: this time record %2 of %3 frames, offset %4\n", _name, rec_nframes, nframes, rec_offset));
- calculate_record_range (ot, transport_frame, nframes, rec_nframes, rec_offset);
-
- if (rec_nframes && !was_recording) {
- capture_captured = 0;
- was_recording = true;
- }
+ if (rec_nframes && !was_recording) {
+ capture_captured = 0;
+ was_recording = true;
+ }
+ }
if (can_record && !_last_capture_sources.empty()) {
_last_capture_sources.clear ();
for recording, and use rec_offset
*/
- AudioPort* const ap = _io->audio (n);
+ boost::shared_ptr<AudioPort> const ap = _io->audio (n);
assert(ap);
assert(rec_nframes <= (framecnt_t) ap->get_audio_buffer(nframes).capacity());
- memcpy (chaninfo->current_capture_buffer, ap->get_audio_buffer (nframes).data(rec_offset), sizeof (Sample) * rec_nframes);
+ Sample *buf = bufs.get_audio (n).data(rec_offset);
+ memcpy (chaninfo->current_capture_buffer, buf, sizeof (Sample) * rec_nframes);
} else {
framecnt_t total = chaninfo->capture_vector.len[0] + chaninfo->capture_vector.len[1];
if (rec_nframes > total) {
+ DEBUG_TRACE (DEBUG::Butler, string_compose ("%1 overrun in %2, rec_nframes = %3 total space = %4\n",
+ DEBUG_THREAD_SELF, name(), rec_nframes, total));
DiskOverrun ();
- goto out;
+ return -1;
}
- AudioPort* const ap = _io->audio (n);
+ boost::shared_ptr<AudioPort> const ap = _io->audio (n);
assert(ap);
- Sample* buf = ap->get_audio_buffer(nframes).data();
+ Sample *buf = bufs.get_audio (n).data(rec_offset);
framecnt_t first = chaninfo->capture_vector.len[0];
memcpy (chaninfo->capture_wrap_buffer, buf, sizeof (Sample) * first);
} else {
if (was_recording) {
- finish_capture (rec_monitors_input, c);
+ finish_capture (c);
}
}
collect_playback = true;
}
- if (collect_playback) {
+ if ((_track->monitoring_state () & MonitoringDisk) || collect_playback) {
/* we're doing playback */
/* no varispeed playback if we're recording, because the output .... TBD */
- if (rec_nframes == 0 && _actual_speed != 1.0f) {
- necessary_samples = (framecnt_t) floor ((nframes * fabs (_actual_speed))) + 1;
+ if (rec_nframes == 0 && _actual_speed != 1.0) {
+ necessary_samples = (framecnt_t) ceil ((nframes * fabs (_actual_speed))) + 2;
} else {
necessary_samples = nframes;
}
n = 0;
+ /* Setup current_playback_buffer in each ChannelInfo to point to data that someone
+ can read necessary_samples (== nframes at a transport speed of 1) worth of data
+ from right now.
+ */
+
for (chan = c->begin(); chan != c->end(); ++chan, ++n) {
ChannelInfo* chaninfo (*chan);
if (necessary_samples <= (framecnt_t) chaninfo->playback_vector.len[0]) {
-
+ /* There are enough samples in the first part of the ringbuffer */
chaninfo->current_playback_buffer = chaninfo->playback_vector.buf[0];
} else {
if (necessary_samples > total) {
cerr << _name << " Need " << necessary_samples << " total = " << total << endl;
cerr << "underrun for " << _name << endl;
+ DEBUG_TRACE (DEBUG::Butler, string_compose ("%1 underrun in %2, rec_nframes = %3 total space = %4\n",
+ DEBUG_THREAD_SELF, name(), rec_nframes, total));
DiskUnderrun ();
- goto out;
+ return -1;
} else {
+ /* We have enough samples, but not in one lump. Coalesce the two parts
+ into one in playback_wrap_buffer in our ChannelInfo, and specify that
+ as our current_playback_buffer.
+ */
+
+ assert(wrap_buffer_size >= necessary_samples);
+
+ /* Copy buf[0] from playback_buf */
memcpy ((char *) chaninfo->playback_wrap_buffer,
chaninfo->playback_vector.buf[0],
chaninfo->playback_vector.len[0] * sizeof (Sample));
+
+ /* Copy buf[1] from playback_buf */
memcpy (chaninfo->playback_wrap_buffer + chaninfo->playback_vector.len[0],
chaninfo->playback_vector.buf[1],
(necessary_samples - chaninfo->playback_vector.len[0])
}
if (rec_nframes == 0 && _actual_speed != 1.0f && _actual_speed != -1.0f) {
- process_varispeed_playback(nframes, c);
+
+ interpolation.set_speed (_target_speed);
+
+ int channel = 0;
+ for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan, ++channel) {
+ ChannelInfo* chaninfo (*chan);
+
+ playback_distance = interpolation.interpolate (
+ channel, nframes, chaninfo->current_playback_buffer, chaninfo->speed_buffer);
+
+ chaninfo->current_playback_buffer = chaninfo->speed_buffer;
+ }
+
} else {
playback_distance = nframes;
}
_speed = _target_speed;
+ }
- }
+ if (need_disk_signal) {
- ret = 0;
+ /* copy data over to buffer set */
- if (commit (nframes)) {
- need_butler = true;
- }
+ size_t n_buffers = bufs.count().n_audio();
+ size_t n_chans = c->size();
+ gain_t scaling = 1.0f;
- out:
- return ret;
-}
+ if (n_chans > n_buffers) {
+ scaling = ((float) n_buffers)/n_chans;
+ }
-void
-AudioDiskstream::process_varispeed_playback (pframes_t nframes, boost::shared_ptr<ChannelList> c)
-{
- ChannelList::iterator chan;
+ for (n = 0, chan = c->begin(); chan != c->end(); ++chan, ++n) {
- interpolation.set_speed (_target_speed);
+ AudioBuffer& buf (bufs.get_audio (n%n_buffers));
+ ChannelInfo* chaninfo (*chan);
- int channel = 0;
- for (chan = c->begin(); chan != c->end(); ++chan, ++channel) {
- ChannelInfo* chaninfo (*chan);
+ if (n < n_chans) {
+ if (scaling != 1.0f) {
+ buf.read_from_with_gain (chaninfo->current_playback_buffer, nframes, scaling);
+ } else {
+ buf.read_from (chaninfo->current_playback_buffer, nframes);
+ }
+ } else {
+ if (scaling != 1.0f) {
+ buf.accumulate_with_gain_from (chaninfo->current_playback_buffer, nframes, scaling);
+ } else {
+ buf.accumulate_from (chaninfo->current_playback_buffer, nframes);
+ }
+ }
+ }
- playback_distance = interpolation.interpolate (
- channel, nframes, chaninfo->current_playback_buffer, chaninfo->speed_buffer);
+ /* leave the MIDI count alone */
+ ChanCount cnt (DataType::AUDIO, n_chans);
+ cnt.set (DataType::MIDI, bufs.count().n_midi());
+ bufs.set_count (cnt);
- chaninfo->current_playback_buffer = chaninfo->speed_buffer;
+ /* extra buffers will already be silent, so leave them alone */
}
+
+ return 0;
}
+frameoffset_t
+AudioDiskstream::calculate_playback_distance (pframes_t nframes)
+{
+ frameoffset_t playback_distance = nframes;
+
+ if (record_enabled()) {
+ playback_distance = nframes;
+ } else if (_actual_speed != 1.0f && _actual_speed != -1.0f) {
+ interpolation.set_speed (_target_speed);
+ boost::shared_ptr<ChannelList> c = channels.reader();
+ int channel = 0;
+ for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan, ++channel) {
+ playback_distance = interpolation.interpolate (channel, nframes, NULL, NULL);
+ }
+ } else {
+ playback_distance = nframes;
+ }
+
+ if (_actual_speed < 0.0) {
+ return -playback_distance;
+ } else {
+ return playback_distance;
+ }
+}
+
+/** Update various things including playback_sample, read pointer on each channel's playback_buf
+ * and write pointer on each channel's capture_buf. Also wout whether the butler is needed.
+ * @return true if the butler is required.
+ */
bool
-AudioDiskstream::commit (framecnt_t /* nframes */)
+AudioDiskstream::commit (framecnt_t playback_distance)
{
bool need_butler = false;
if (adjust_capture_position != 0) {
capture_captured += adjust_capture_position;
+ DEBUG_TRACE (DEBUG::CaptureAlignment, string_compose ("%1 now captured %2 (by %3)\n", name(), capture_captured, adjust_capture_position));
adjust_capture_position = 0;
}
-
+
if (c->empty()) {
return false;
}
-
+
if (_slaved) {
if (_io && _io->active()) {
need_butler = c->front()->playback_buf->write_space() >= c->front()->playback_buf->bufsize() / 2;
}
} else {
if (_io && _io->active()) {
- need_butler = ((framecnt_t) c->front()->playback_buf->write_space() >= disk_io_chunk_frames)
- || ((framecnt_t) c->front()->capture_buf->read_space() >= disk_io_chunk_frames);
+ need_butler = ((framecnt_t) c->front()->playback_buf->write_space() >= disk_read_chunk_frames)
+ || ((framecnt_t) c->front()->capture_buf->read_space() >= disk_write_chunk_frames);
} else {
- need_butler = ((framecnt_t) c->front()->capture_buf->read_space() >= disk_io_chunk_frames);
+ need_butler = ((framecnt_t) c->front()->capture_buf->read_space() >= disk_write_chunk_frames);
}
}
_pending_overwrite = false;
return 0;
}
-
+
Sample* mixdown_buffer;
float* gain_buffer;
int ret = -1;
mixdown_buffer = new Sample[size];
gain_buffer = new float[size];
- /* reduce size so that we can fill the buffer correctly. */
+ /* reduce size so that we can fill the buffer correctly (ringbuffers
+ can only handle size-1, otherwise they appear to be empty)
+ */
size--;
uint32_t n=0;
framecnt_t to_read = size - overwrite_offset;
- if (read ((*chan)->playback_buf->buffer() + overwrite_offset, mixdown_buffer, gain_buffer, start, to_read, *chan, n, reversed)) {
+ if (read ((*chan)->playback_buf->buffer() + overwrite_offset, mixdown_buffer, gain_buffer, start, to_read, n, reversed)) {
error << string_compose(_("AudioDiskstream %1: when refilling, cannot read %2 from playlist at frame %3"),
- _id, size, playback_sample) << endmsg;
+ id(), size, playback_sample) << endmsg;
goto out;
}
cnt -= to_read;
- if (read ((*chan)->playback_buf->buffer(), mixdown_buffer, gain_buffer,
- start, cnt, *chan, n, reversed)) {
+ if (read ((*chan)->playback_buf->buffer(), mixdown_buffer, gain_buffer, start, cnt, n, reversed)) {
error << string_compose(_("AudioDiskstream %1: when refilling, cannot read %2 from playlist at frame %3"),
- _id, size, playback_sample) << endmsg;
+ id(), size, playback_sample) << endmsg;
goto out;
}
}
ChannelList::iterator chan;
boost::shared_ptr<ChannelList> c = channels.reader();
- Glib::Mutex::Lock lm (state_lock);
+ Glib::Threads::Mutex::Lock lm (state_lock);
for (n = 0, chan = c->begin(); chan != c->end(); ++chan, ++n) {
(*chan)->playback_buf->reset ();
file_frame = frame;
if (complete_refill) {
- while ((ret = do_refill_with_alloc ()) > 0) ;
+ /* call _do_refill() to refill the entire buffer, using
+ the largest reads possible.
+ */
+ while ((ret = do_refill_with_alloc (false)) > 0) ;
} else {
- ret = do_refill_with_alloc ();
+ /* call _do_refill() to refill just one chunk, and then
+ return.
+ */
+ ret = do_refill_with_alloc (true);
}
return ret;
boost::shared_ptr<ChannelList> c = channels.reader();
for (chan = c->begin(); chan != c->end(); ++chan) {
- (*chan)->playback_buf->increment_read_ptr (distance);
+ (*chan)->playback_buf->increment_read_ptr (::llabs(distance));
}
if (first_recordable_frame < max_framepos) {
return 0;
}
+/** Read some data for 1 channel from our playlist into a buffer.
+ * @param buf Buffer to write to.
+ * @param start Session frame to start reading from; updated to where we end up
+ * after the read.
+ * @param cnt Count of samples to read.
+ * @param reversed true if we are running backwards, otherwise false.
+ */
int
-AudioDiskstream::read (Sample* buf, Sample* mixdown_buffer, float* gain_buffer,
+AudioDiskstream::read (Sample* buf, Sample* mixdown_buffer, float* gain_buffer,
framepos_t& start, framecnt_t cnt,
- ChannelInfo* /*channel_info*/, int channel, bool reversed)
+ int channel, bool reversed)
{
framecnt_t this_read = 0;
bool reloop = false;
*/
if (loc && start >= loop_end) {
- //cerr << "start adjusted from " << start;
start = loop_start + ((start - loop_start) % loop_length);
- //cerr << "to " << start << endl;
}
- //cerr << "start is " << start << " loopstart: " << loop_start << " loopend: " << loop_end << endl;
}
if (reversed) {
start -= cnt;
}
-
+
+ /* We need this while loop in case we hit a loop boundary, in which case our read from
+ the playlist must be split into more than one section.
+ */
+
while (cnt) {
/* take any loop into account. we can't read past the end of the loop. */
if (loc && (loop_end - start < cnt)) {
this_read = loop_end - start;
- //cerr << "reloop true: thisread: " << this_read << " cnt: " << cnt << endl;
reloop = true;
} else {
reloop = false;
this_read = min(cnt,this_read);
if (audio_playlist()->read (buf+offset, mixdown_buffer, gain_buffer, start, this_read, channel) != this_read) {
- error << string_compose(_("AudioDiskstream %1: cannot read %2 from playlist at frame %3"), _id, this_read,
+ error << string_compose(_("AudioDiskstream %1: cannot read %2 from playlist at frame %3"), id(), this_read,
start) << endmsg;
return -1;
}
- _read_data_count = _playlist->read_data_count();
-
if (reversed) {
swap_by_ptr (buf, buf + this_read - 1);
}
int
-AudioDiskstream::do_refill_with_alloc ()
+AudioDiskstream::_do_refill_with_alloc (bool partial_fill)
{
- Sample* mix_buf = new Sample[disk_io_chunk_frames];
- float* gain_buf = new float[disk_io_chunk_frames];
+ /* We limit disk reads to at most 4MB chunks, which with floating point
+ samples would be 1M samples. But we might use 16 or 14 bit samples,
+ in which case 4MB is more samples than that. Therefore size this for
+ the smallest sample value .. 4MB = 2M samples (16 bit).
+ */
- int ret = _do_refill(mix_buf, gain_buf);
+ Sample* mix_buf = new Sample[2*1048576];
+ float* gain_buf = new float[2*1048576];
+
+ int ret = _do_refill (mix_buf, gain_buf, (partial_fill ? disk_read_chunk_frames : 0));
delete [] mix_buf;
delete [] gain_buf;
return ret;
}
+/** Get some more data from disk and put it in our channels' playback_bufs,
+ * if there is suitable space in them.
+ *
+ * If fill_level is non-zero, then we will refill the buffer so that there is
+ * still at least fill_level samples of space left to be filled. This is used
+ * after locates so that we do not need to wait to fill the entire buffer.
+ *
+ */
+
int
-AudioDiskstream::_do_refill (Sample* mixdown_buffer, float* gain_buffer)
+AudioDiskstream::_do_refill (Sample* mixdown_buffer, float* gain_buffer, framecnt_t fill_level)
{
int32_t ret = 0;
framecnt_t to_read;
RingBufferNPT<Sample>::rw_vector vector;
- bool reversed = (_visible_speed * _session.transport_speed()) < 0.0f;
+ bool const reversed = (_visible_speed * _session.transport_speed()) < 0.0f;
framecnt_t total_space;
framecnt_t zero_fill;
uint32_t chan_n;
boost::shared_ptr<ChannelList> c = channels.reader();
framecnt_t ts;
+ /* do not read from disk while session is marked as Loading, to avoid
+ useless redundant I/O.
+ */
+
+ if (_session.state_of_the_state() & Session::Loading) {
+ return 0;
+ }
+
if (c->empty()) {
return 0;
}
c->front()->playback_buf->get_write_vector (&vector);
if ((total_space = vector.len[0] + vector.len[1]) == 0) {
+ /* nowhere to write to */
return 0;
}
- /* if there are 2+ chunks of disk i/o possible for
- this track, let the caller know so that it can arrange
- for us to be called again, ASAP.
- */
-
- if (total_space >= (_slaved?3:2) * disk_io_chunk_frames) {
- ret = 1;
+ if (fill_level) {
+ if (fill_level < total_space) {
+ total_space -= fill_level;
+ } else {
+ /* we can't do anything with it */
+ fill_level = 0;
+ }
}
/* if we're running close to normal speed and there isn't enough
- space to do disk_io_chunk_frames of I/O, then don't bother.
+ space to do disk_read_chunk_frames of I/O, then don't bother.
at higher speeds, just do it because the sync between butler
and audio thread may not be good enough.
+
+ Note: it is a design assumption that disk_read_chunk_frames is smaller
+ than the playback buffer size, so this check should never trip when
+ the playback buffer is empty.
*/
- if ((total_space < disk_io_chunk_frames) && fabs (_actual_speed) < 2.0f) {
+ if ((total_space < disk_read_chunk_frames) && fabs (_actual_speed) < 2.0f) {
return 0;
}
return 0;
}
- /* never do more than disk_io_chunk_frames worth of disk input per call (limit doesn't apply for memset) */
-
- total_space = min (disk_io_chunk_frames, total_space);
-
if (reversed) {
if (file_frame == 0) {
framepos_t file_frame_tmp = 0;
+ /* total_space is in samples. We want to optimize read sizes in various sizes using bytes */
+
+ const size_t bits_per_sample = format_data_width (_session.config.get_native_file_data_format());
+ size_t total_bytes = total_space * bits_per_sample / 8;
+
+ /* chunk size range is 256kB to 4MB. Bigger is faster in terms of MB/sec, but bigger chunk size always takes longer
+ */
+ size_t byte_size_for_read = max ((size_t) (256 * 1024), min ((size_t) (4 * 1048576), total_bytes));
+
+ /* find nearest (lower) multiple of 16384 */
+
+ byte_size_for_read = (byte_size_for_read / 16384) * 16384;
+
+ /* now back to samples */
+
+ framecnt_t samples_to_read = byte_size_for_read / (bits_per_sample / 8);
+
+ //cerr << name() << " will read " << byte_size_for_read << " out of total bytes " << total_bytes << " in buffer of "
+ // << c->front()->playback_buf->bufsize() * bits_per_sample / 8 << " bps = " << bits_per_sample << endl;
+ // cerr << name () << " read samples = " << samples_to_read << " out of total space " << total_space << " in buffer of " << c->front()->playback_buf->bufsize() << " samples\n";
+
+ // uint64_t before = g_get_monotonic_time ();
+ // uint64_t elapsed;
+
for (chan_n = 0, i = c->begin(); i != c->end(); ++i, ++chan_n) {
ChannelInfo* chan (*i);
chan->playback_buf->get_write_vector (&vector);
- if ((framecnt_t) vector.len[0] > disk_io_chunk_frames) {
+ if ((framecnt_t) vector.len[0] > samples_to_read) {
/* we're not going to fill the first chunk, so certainly do not bother with the
other part. it won't be connected with the part we do fill, as in:
.... => writable space
++++ => readable space
- ^^^^ => 1 x disk_io_chunk_frames that would be filled
+ ^^^^ => 1 x disk_read_chunk_frames that would be filled
|......|+++++++++++++|...............................|
buf1 buf0
len2 = vector.len[1];
to_read = min (ts, len1);
- to_read = min (to_read, disk_io_chunk_frames);
+ to_read = min (to_read, (framecnt_t) samples_to_read);
assert (to_read >= 0);
if (to_read) {
- if (read (buf1, mixdown_buffer, gain_buffer, file_frame_tmp, to_read, chan, chan_n, reversed)) {
+ if (read (buf1, mixdown_buffer, gain_buffer, file_frame_tmp, to_read, chan_n, reversed)) {
ret = -1;
goto out;
}
if (to_read) {
- /* we read all of vector.len[0], but it wasn't an entire disk_io_chunk_frames of data,
- so read some or all of vector.len[1] as well.
+ /* we read all of vector.len[0], but it wasn't the
+ entire samples_to_read of data, so read some or
+ all of vector.len[1] as well.
*/
- if (read (buf2, mixdown_buffer, gain_buffer, file_frame_tmp, to_read, chan, chan_n, reversed)) {
+ if (read (buf2, mixdown_buffer, gain_buffer, file_frame_tmp, to_read, chan_n, reversed)) {
ret = -1;
goto out;
}
}
if (zero_fill) {
- /* do something */
+ /* XXX: do something */
}
}
+ // elapsed = g_get_monotonic_time () - before;
+ // cerr << "\tbandwidth = " << (byte_size_for_read / 1048576.0) / (elapsed/1000000.0) << "MB/sec\n";
+
file_frame = file_frame_tmp;
assert (file_frame >= 0);
-
- out:
+ ret = ((total_space - samples_to_read) > disk_read_chunk_frames);
+
+ c->front()->playback_buf->get_write_vector (&vector);
+
+ out:
return ret;
}
/** Flush pending data to disk.
*
- * Important note: this function will write *AT MOST* disk_io_chunk_frames
+ * Important note: this function will write *AT MOST* disk_write_chunk_frames
* of data to disk. it will never write more than that. If it writes that
* much and there is more than that waiting to be written, it will return 1,
* otherwise 0 on success or -1 on failure.
*
- * If there is less than disk_io_chunk_frames to be written, no data will be
+ * If there is less than disk_write_chunk_frames to be written, no data will be
* written at all unless @a force_flush is true.
*/
int
RingBufferNPT<CaptureTransition>::rw_vector transvec;
framecnt_t total;
- _write_data_count = 0;
-
transvec.buf[0] = 0;
transvec.buf[1] = 0;
vector.buf[0] = 0;
total = vector.len[0] + vector.len[1];
- if (total == 0 || (total < disk_io_chunk_frames && !force_flush && was_recording)) {
+ if (total == 0 || (total < disk_write_chunk_frames && !force_flush && was_recording)) {
goto out;
}
let the caller know too.
*/
- if (total >= 2 * disk_io_chunk_frames || ((force_flush || !was_recording) && total > disk_io_chunk_frames)) {
+ if (total >= 2 * disk_write_chunk_frames || ((force_flush || !was_recording) && total > disk_write_chunk_frames)) {
ret = 1;
}
- to_write = min (disk_io_chunk_frames, (framecnt_t) vector.len[0]);
+ to_write = min (disk_write_chunk_frames, (framecnt_t) vector.len[0]);
// check the transition buffer when recording destructive
// important that we get this after the capture buf
if (destructive()) {
(*chan)->capture_transition_buf->get_read_vector(&transvec);
size_t transcount = transvec.len[0] + transvec.len[1];
- bool have_start = false;
size_t ti;
for (ti=0; ti < transcount; ++ti) {
(*chan)->write_source->mark_capture_start (captrans.capture_val);
(*chan)->curr_capture_cnt = 0;
- have_start = true;
- }
- else if (captrans.type == CaptureEnd) {
+ } else if (captrans.type == CaptureEnd) {
// capture end, the capture_val represents total frames in capture
}
if ((!(*chan)->write_source) || (*chan)->write_source->write (vector.buf[0], to_write) != to_write) {
- error << string_compose(_("AudioDiskstream %1: cannot write to disk"), _id) << endmsg;
+ error << string_compose(_("AudioDiskstream %1: cannot write to disk"), id()) << endmsg;
return -1;
}
(*chan)->capture_buf->increment_read_ptr (to_write);
(*chan)->curr_capture_cnt += to_write;
- if ((to_write == vector.len[0]) && (total > to_write) && (to_write < disk_io_chunk_frames) && !destructive()) {
+ if ((to_write == vector.len[0]) && (total > to_write) && (to_write < disk_write_chunk_frames) && !destructive()) {
/* we wrote all of vector.len[0] but it wasn't an entire
- disk_io_chunk_frames of data, so arrange for some part
+ disk_write_chunk_frames of data, so arrange for some part
of vector.len[1] to be flushed to disk as well.
*/
- to_write = min ((framecnt_t)(disk_io_chunk_frames - to_write), (framecnt_t) vector.len[1]);
+ to_write = min ((framecnt_t)(disk_write_chunk_frames - to_write), (framecnt_t) vector.len[1]);
+
+ DEBUG_TRACE (DEBUG::Butler, string_compose ("%1 additional write of %2\n", name(), to_write));
if ((*chan)->write_source->write (vector.buf[1], to_write) != to_write) {
- error << string_compose(_("AudioDiskstream %1: cannot write to disk"), _id) << endmsg;
+ error << string_compose(_("AudioDiskstream %1: cannot write to disk"), id()) << endmsg;
return -1;
}
- _write_data_count += (*chan)->write_source->write_data_count();
-
(*chan)->capture_buf->increment_read_ptr (to_write);
(*chan)->curr_capture_cnt += to_write;
}
uint32_t n = 0;
bool mark_write_completed = false;
- finish_capture (true, c);
+ finish_capture (c);
/* butler is already stopped, but there may be work to do
to flush remaining data to disk.
}
/* XXX is there anything we can do if err != 0 ? */
- Glib::Mutex::Lock lm (capture_info_lock);
+ Glib::Threads::Mutex::Lock lm (capture_info_lock);
if (capture_info.empty()) {
return;
if (Config->get_auto_analyse_audio()) {
Analyser::queue_source_for_analysis (s, true);
}
+
+ DEBUG_TRACE (DEBUG::CaptureAlignment, string_compose ("newly captured source %1 length %2\n", s->path(), s->length (0)));
}
}
_last_capture_sources.insert (_last_capture_sources.end(), srcs.begin(), srcs.end());
- // cerr << _name << ": there are " << capture_info.size() << " capture_info records\n";
-
- _playlist->clear_changes ();
+ _playlist->clear_changes ();
+ _playlist->set_capture_insertion_in_progress (true);
_playlist->freeze ();
for (buffer_position = c->front()->write_source->last_capture_start_frame(), ci = capture_info.begin(); ci != capture_info.end(); ++ci) {
RegionFactory::region_name (region_name, whole_file_region_name, false);
- // cerr << _name << ": based on ci of " << (*ci)->start << " for " << (*ci)->frames << " add region " << region_name << endl;
+ DEBUG_TRACE (DEBUG::CaptureAlignment, string_compose ("%1 capture bufpos %5 start @ %2 length %3 add new region %4\n",
+ _name, (*ci)->start, (*ci)->frames, region_name, buffer_position));
try {
PropertyList plist;
-
+
plist.add (Properties::start, buffer_position);
plist.add (Properties::length, (*ci)->frames);
plist.add (Properties::name, region_name);
-
+
boost::shared_ptr<Region> rx (RegionFactory::create (srcs, plist));
region = boost::dynamic_pointer_cast<AudioRegion> (rx);
}
i_am_the_modifier++;
- if (_playlist->explicit_relayering()) {
- /* We are in `explicit relayering' mode, so we must specify which layer this new region
- should end up on. Put it at the top.
- */
- region->set_layer (_playlist->top_layer() + 1);
- region->set_pending_explicit_relayer (true);
- }
-
_playlist->add_region (region, (*ci)->start, 1, non_layered());
+ _playlist->set_layer (region, DBL_MAX);
i_am_the_modifier--;
buffer_position += (*ci)->frames;
}
_playlist->thaw ();
+ _playlist->set_capture_insertion_in_progress (false);
_session.add_command (new StatefulDiffCommand (_playlist));
}
// all we need to do is finish this capture, with modified capture length
boost::shared_ptr<ChannelList> c = channels.reader();
- // adjust the capture length knowing that the data will be recorded to disk
- // only necessary after the first loop where we're recording
- if (capture_info.size() == 0) {
- capture_captured += _capture_offset;
-
- if (_alignment_style == ExistingMaterial) {
- capture_captured += _session.worst_output_latency();
- } else {
- capture_captured += _roll_delay;
- }
- }
-
- finish_capture (true, c);
+ finish_capture (c);
// the next region will start recording via the normal mechanism
// we'll set the start position to the current transport pos
}
void
-AudioDiskstream::finish_capture (bool /*rec_monitors_input*/, boost::shared_ptr<ChannelList> c)
+AudioDiskstream::finish_capture (boost::shared_ptr<ChannelList> c)
{
was_recording = false;
- first_recordable_frame = max_framepos;
- last_recordable_frame = max_framepos;
+ first_recordable_frame = max_framepos;
+ last_recordable_frame = max_framepos;
if (capture_captured == 0) {
return;
accessors, so that invalidation will not occur (both non-realtime).
*/
- // cerr << "Finish capture, add new CI, " << ci->start << '+' << ci->frames << endl;
+ DEBUG_TRACE (DEBUG::CaptureAlignment, string_compose ("Finish capture, add new CI, %1 + %2\n", ci->start, ci->frames));
capture_info.push_back (ci);
capture_captured = 0;
void
AudioDiskstream::set_record_enabled (bool yn)
{
- if (!recordable() || !_session.record_enabling_legal() || _io->n_ports().n_audio() == 0) {
+ if (!recordable() || !_session.record_enabling_legal() || _io->n_ports().n_audio() == 0 || record_safe ()) {
return;
}
} else {
disengage_record_enable ();
}
+
+ RecordEnableChanged (); /* EMIT SIGNAL */
}
}
void
-AudioDiskstream::engage_record_enable ()
+AudioDiskstream::set_record_safe (bool yn)
{
+ if (!recordable() || !_session.record_enabling_legal() || _io->n_ports().n_audio() == 0) {
+ return;
+ }
+
+ /* can't rec-safe in destructive mode if transport is before start ????
+ REQUIRES REVIEW */
+
+ if (destructive() && yn && _session.transport_frame() < _session.current_start_frame()) {
+ return;
+ }
+
+ /* yes, i know that this not proof against race conditions, but its
+ good enough. i think.
+ */
+
+ if (record_safe () != yn) {
+ if (yn) {
+ engage_record_safe ();
+ } else {
+ disengage_record_safe ();
+ }
+
+ RecordSafeChanged (); /* EMIT SIGNAL */
+ }
+}
+
+bool
+AudioDiskstream::prep_record_enable ()
+{
+ if (!recordable() || !_session.record_enabling_legal() || _io->n_ports().n_audio() == 0 || record_safe ()) { // REQUIRES REVIEW "|| record_safe ()"
+ return false;
+ }
+
+ /* can't rec-enable in destructive mode if transport is before start */
+
+ if (destructive() && _session.transport_frame() < _session.current_start_frame()) {
+ return false;
+ }
+
bool rolling = _session.transport_speed() != 0.0f;
boost::shared_ptr<ChannelList> c = channels.reader();
- g_atomic_int_set (&_record_enabled, 1);
capturing_sources.clear ();
if (Config->get_monitoring_model() == HardwareMonitoring) {
for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan) {
- if ((*chan)->source) {
- (*chan)->source->ensure_monitor_input (!(_session.config.get_auto_input() && rolling));
- }
+ (*chan)->source.request_input_monitoring (!(_session.config.get_auto_input() && rolling));
capturing_sources.push_back ((*chan)->write_source);
- (*chan)->write_source->mark_streaming_write_started ();
+ Source::Lock lock((*chan)->write_source->mutex());
+ (*chan)->write_source->mark_streaming_write_started (lock);
}
} else {
for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan) {
capturing_sources.push_back ((*chan)->write_source);
- (*chan)->write_source->mark_streaming_write_started ();
+ Source::Lock lock((*chan)->write_source->mutex());
+ (*chan)->write_source->mark_streaming_write_started (lock);
}
}
- RecordEnableChanged (); /* EMIT SIGNAL */
+ return true;
}
-void
-AudioDiskstream::disengage_record_enable ()
+bool
+AudioDiskstream::prep_record_disable ()
{
- g_atomic_int_set (&_record_enabled, 0);
boost::shared_ptr<ChannelList> c = channels.reader();
if (Config->get_monitoring_model() == HardwareMonitoring) {
for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan) {
- if ((*chan)->source) {
- (*chan)->source->ensure_monitor_input (false);
- }
+ (*chan)->source.request_input_monitoring (false);
}
}
capturing_sources.clear ();
- RecordEnableChanged (); /* EMIT SIGNAL */
+
+ return true;
}
XMLNode&
{
XMLNode& node (Diskstream::get_state());
char buf[64] = "";
- LocaleGuard lg (X_("POSIX"));
+ LocaleGuard lg;
boost::shared_ptr<ChannelList> c = channels.reader();
- snprintf (buf, sizeof(buf), "%zd", c->size());
+ snprintf (buf, sizeof(buf), "%u", (unsigned int) c->size());
node.add_property ("channels", buf);
-
+
if (!capturing_sources.empty() && _session.get_record_enabled()) {
XMLNode* cs_child = new XMLNode (X_("CapturingSources"));
int
AudioDiskstream::set_state (const XMLNode& node, int version)
{
- const XMLProperty* prop;
+ XMLProperty const * prop;
XMLNodeList nlist = node.children();
XMLNodeIterator niter;
uint32_t nchans = 1;
XMLNode* capture_pending_node = 0;
- LocaleGuard lg (X_("POSIX"));
+ LocaleGuard lg;
/* prevent write sources from being created */
}
}
- if (Diskstream::set_state (node, version)) {
- return -1;
- }
+ if (Diskstream::set_state (node, version)) {
+ return -1;
+ }
if ((prop = node.property ("channels")) != 0) {
nchans = atoi (prop->value().c_str());
}
-
- if (!destructive() && capture_pending_node) {
- /* destructive streams have one and only one source per channel,
- and so they never end up in pending capture in any useful
- sense.
- */
- use_pending_capture_data (*capture_pending_node);
- }
+
+ if (!destructive() && capture_pending_node) {
+ /* destructive streams have one and only one source per channel,
+ and so they never end up in pending capture in any useful
+ sense.
+ */
+ use_pending_capture_data (*capture_pending_node);
+ }
in_set_state = false;
ChannelInfo* chan = (*c)[n];
try {
- if ((chan->write_source = _session.create_audio_source_for_session (n_channels().n_audio(),
- name(), n, destructive())) == 0) {
+ if ((chan->write_source = _session.create_audio_source_for_session (
+ n_channels().n_audio(), write_source_name(), n, destructive())) == 0) {
throw failed_constructor();
}
}
/* do not remove destructive files even if they are empty */
chan->write_source->set_allow_remove_if_empty (!destructive());
-
- return 0;
-}
-list<boost::shared_ptr<Source> >
-AudioDiskstream::steal_write_sources()
-{
- /* not possible to steal audio write sources */
- list<boost::shared_ptr<Source> > ret;
- return ret;
+ return 0;
}
void
if ((*chan)->write_source) {
if (mark_write_complete) {
- (*chan)->write_source->mark_streaming_write_completed ();
+ Source::Lock lock((*chan)->write_source->mutex());
+ (*chan)->write_source->mark_streaming_write_completed (lock);
(*chan)->write_source->done_with_peakfile_writes ();
}
- if ((*chan)->write_source->removable()) {
- (*chan)->write_source->mark_for_remove ();
- (*chan)->write_source->drop_references ();
- }
-
- (*chan)->write_source.reset ();
- }
+ if ((*chan)->write_source->removable()) {
+ (*chan)->write_source->mark_for_remove ();
+ (*chan)->write_source->drop_references ();
+ }
+
+ (*chan)->write_source.reset ();
+ }
use_new_write_source (n);
}
}
-int
-AudioDiskstream::rename_write_sources ()
-{
- ChannelList::iterator chan;
- boost::shared_ptr<ChannelList> c = channels.reader();
- uint32_t n;
-
- for (chan = c->begin(), n = 0; chan != c->end(); ++chan, ++n) {
- if ((*chan)->write_source != 0) {
- (*chan)->write_source->set_source_name (_name.val(), destructive());
- /* XXX what to do if one of them fails ? */
- }
- }
-
- return 0;
-}
-
void
AudioDiskstream::set_block_size (pframes_t /*nframes*/)
{
when slaving to MTC, Timecode etc.
*/
- double const sp = max (fabsf (_actual_speed), 1.2f);
- framecnt_t required_wrap_size = (framecnt_t) floor (_session.get_block_size() * sp) + 1;
+ double const sp = max (fabs (_actual_speed), 1.2);
+ framecnt_t required_wrap_size = (framecnt_t) ceil (_session.get_block_size() * sp) + 2;
if (required_wrap_size > wrap_buffer_size) {
boost::shared_ptr<ChannelList> c = channels.reader();
for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan) {
- if ((*chan)->playback_wrap_buffer)
+ if ((*chan)->playback_wrap_buffer) {
delete [] (*chan)->playback_wrap_buffer;
+ }
(*chan)->playback_wrap_buffer = new Sample[required_wrap_size];
- if ((*chan)->capture_wrap_buffer)
+ if ((*chan)->capture_wrap_buffer) {
delete [] (*chan)->capture_wrap_buffer;
+ }
(*chan)->capture_wrap_buffer = new Sample[required_wrap_size];
}
}
void
-AudioDiskstream::monitor_input (bool yn)
+AudioDiskstream::request_input_monitoring (bool yn)
{
boost::shared_ptr<ChannelList> c = channels.reader();
for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan) {
-
- if ((*chan)->source) {
- (*chan)->source->ensure_monitor_input (yn);
- }
+ (*chan)->source.request_input_monitoring (yn);
}
}
{
bool have_physical = false;
- if (_alignment_choice != Automatic) {
- return;
- }
+ if (_alignment_choice != Automatic) {
+ return;
+ }
if (_io == 0) {
return;
boost::shared_ptr<ChannelList> c = channels.reader();
- cerr << "Checking " << c->size() << " for physical connections\n";
-
for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan) {
- cerr << "Channel connected via " << (*chan)->source << endl;
- if ((*chan)->source && (*chan)->source->flags() & JackPortIsPhysical) {
- cerr << "\tchannel has physical connection to " << (*chan)->source->name() << endl;
+ if ((*chan)->source.is_physical ()) {
have_physical = true;
break;
}
}
- cerr << "\tphysical? " << have_physical << endl;
if (have_physical) {
set_align_style (ExistingMaterial);
AudioDiskstream::add_channel_to (boost::shared_ptr<ChannelList> c, uint32_t how_many)
{
while (how_many--) {
- c->push_back (new ChannelInfo(_session.butler()->audio_diskstream_playback_buffer_size(),
- _session.butler()->audio_diskstream_capture_buffer_size(),
- speed_buffer_size, wrap_buffer_size));
- interpolation.add_channel_to (_session.butler()->audio_diskstream_playback_buffer_size(), speed_buffer_size);
+ c->push_back (new ChannelInfo(
+ _session.butler()->audio_diskstream_playback_buffer_size(),
+ _session.butler()->audio_diskstream_capture_buffer_size(),
+ speed_buffer_size, wrap_buffer_size));
+ interpolation.add_channel_to (
+ _session.butler()->audio_diskstream_playback_buffer_size(),
+ speed_buffer_size);
}
_n_channels.set(DataType::AUDIO, c->size());
boost::shared_ptr<ChannelList> c = channels.reader();
if (c->empty ()) {
- return 0;
+ return 1.0;
}
return (float) ((double) c->front()->playback_buf->read_space()/
- (double) c->front()->playback_buf->bufsize());
+ (double) c->front()->playback_buf->bufsize());
}
float
boost::shared_ptr<ChannelList> c = channels.reader();
if (c->empty ()) {
- return 0;
+ return 1.0;
}
-
+
return (float) ((double) c->front()->capture_buf->write_space()/
(double) c->front()->capture_buf->bufsize());
}
int
AudioDiskstream::use_pending_capture_data (XMLNode& node)
{
- const XMLProperty* prop;
+ XMLProperty const * prop;
XMLNodeList nlist = node.children();
XMLNodeIterator niter;
boost::shared_ptr<AudioFileSource> fs;
}
// This protects sessions from errant CapturingSources in stored sessions
- struct stat sbuf;
- if (stat (prop->value().c_str(), &sbuf)) {
+ GStatBuf sbuf;
+ if (g_stat (prop->value().c_str(), &sbuf)) {
continue;
}
+ /* XXX as of June 2014, we always record to mono
+ files. Since this Source is being created as part of
+ crash recovery, we know that we need the first
+ channel (the final argument to the SourceFactory
+ call below). If we ever support non-mono files for
+ capture, this will need rethinking.
+ */
+
try {
- fs = boost::dynamic_pointer_cast<AudioFileSource> (
- SourceFactory::createWritable (DataType::AUDIO, _session,
- prop->value(), string(), false, _session.frame_rate()));
+ fs = boost::dynamic_pointer_cast<AudioFileSource> (SourceFactory::createForRecovery (DataType::AUDIO, _session, prop->value(), 0));
}
catch (failed_constructor& err) {
return -1;
}
- boost::shared_ptr<AudioRegion> region;
-
try {
-
+
+ boost::shared_ptr<AudioRegion> wf_region;
+ boost::shared_ptr<AudioRegion> region;
+
+ /* First create the whole file region */
+
PropertyList plist;
-
+
plist.add (Properties::start, 0);
plist.add (Properties::length, first_fs->length (first_fs->timeline_position()));
plist.add (Properties::name, region_name_from_path (first_fs->name(), true));
+ wf_region = boost::dynamic_pointer_cast<AudioRegion> (RegionFactory::create (pending_sources, plist));
+
+ wf_region->set_automatic (true);
+ wf_region->set_whole_file (true);
+ wf_region->special_set_position (position);
+
+ /* Now create a region that isn't the whole file for adding to
+ * the playlist */
+
region = boost::dynamic_pointer_cast<AudioRegion> (RegionFactory::create (pending_sources, plist));
- region->set_automatic (true);
- region->set_whole_file (true);
- region->special_set_position (0);
+ _playlist->add_region (region, position);
}
catch (failed_constructor& err) {
return -1;
}
- _playlist->add_region (region, position);
return 0;
}
bool
AudioDiskstream::can_become_destructive (bool& requires_bounce) const
{
+ if (Profile->get_trx()) {
+ return false;
+ }
+
if (!_playlist) {
requires_bounce = false;
return false;
}
+ /* if no regions are present: easy */
+
+ if (_playlist->n_regions() == 0) {
+ requires_bounce = false;
+ return true;
+ }
+
/* is there only one region ? */
if (_playlist->n_regions() != 1) {
return false;
}
- boost::shared_ptr<Region> first = _playlist->find_next_region (_session.current_start_frame(), Start, 1);
+ boost::shared_ptr<Region> first;
+ {
+ const RegionList& rl (_playlist->region_list_property().rlist());
+ assert((rl.size() == 1));
+ first = rl.front();
+
+ }
+
if (!first) {
requires_bounce = false;
return true;
/* do the source(s) for the region cover the session start position ? */
if (first->position() != _session.current_start_frame()) {
+ // what is the idea here? why start() ??
if (first->start() > _session.current_start_frame()) {
requires_bounce = true;
return false;
}
}
+ /* currently RouteTimeAxisView::set_track_mode does not
+ * implement bounce. Existing regions cannot be converted.
+ *
+ * so let's make sure this region is already set up
+ * as tape-track (spanning the complete range)
+ */
+ if (first->length() != max_framepos - first->position()) {
+ requires_bounce = true;
+ return false;
+ }
+
/* is the source used by only 1 playlist ? */
boost::shared_ptr<AudioRegion> afirst = boost::dynamic_pointer_cast<AudioRegion> (first);
return true;
}
-void
+void
AudioDiskstream::adjust_playback_buffering ()
{
boost::shared_ptr<ChannelList> c = channels.reader();
for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan) {
- (*chan)->resize_playback (_session.butler()->audio_diskstream_playback_buffer_size());
- }
+ (*chan)->resize_playback (_session.butler()->audio_diskstream_playback_buffer_size());
+ }
}
-void
+void
AudioDiskstream::adjust_capture_buffering ()
{
boost::shared_ptr<ChannelList> c = channels.reader();
for (ChannelList::iterator chan = c->begin(); chan != c->end(); ++chan) {
- (*chan)->resize_capture (_session.butler()->audio_diskstream_capture_buffer_size());
- }
+ (*chan)->resize_capture (_session.butler()->audio_diskstream_capture_buffer_size());
+ }
+}
+
+bool
+AudioDiskstream::ChannelSource::is_physical () const
+{
+ if (name.empty()) {
+ return false;
+ }
+
+ return AudioEngine::instance()->port_is_physical (name);
+}
+
+void
+AudioDiskstream::ChannelSource::request_input_monitoring (bool yn) const
+{
+ if (name.empty()) {
+ return;
+ }
+
+ return AudioEngine::instance()->request_input_monitoring (name, yn);
}
AudioDiskstream::ChannelInfo::ChannelInfo (framecnt_t playback_bufsize, framecnt_t capture_bufsize, framecnt_t speed_size, framecnt_t wrap_size)
{
- peak_power = 0.0f;
- source = 0;
current_capture_buffer = 0;
current_playback_buffer = 0;
curr_capture_cnt = 0;
void
AudioDiskstream::ChannelInfo::resize_playback (framecnt_t playback_bufsize)
{
- delete playback_buf;
+ delete playback_buf;
playback_buf = new RingBufferNPT<Sample> (playback_bufsize);
memset (playback_buf->buffer(), 0, sizeof (Sample) * playback_buf->bufsize());
}
void
AudioDiskstream::ChannelInfo::resize_capture (framecnt_t capture_bufsize)
{
- delete capture_buf;
+ delete capture_buf;
capture_buf = new RingBufferNPT<Sample> (capture_bufsize);
memset (capture_buf->buffer(), 0, sizeof (Sample) * capture_buf->bufsize());
AudioDiskstream::ChannelInfo::~ChannelInfo ()
{
- write_source.reset ();
+ if (write_source) {
+ if (write_source->removable()) {
+ /* this is a "stub" write source which exists in the
+ Session source list, but is removable. We must emit
+ a drop references call because it should not
+ continue to exist. If we do not do this, then the
+ Session retains a reference to it, it is not
+ deleted, and later attempts to create a new source
+ file will use wierd naming because it already
+ exists.
+
+ XXX longer term TO-DO: do not add to session source
+ list until we write to the source.
+ */
+ write_source->drop_references ();
+ }
+ }
+
+ write_source.reset ();
delete [] speed_buffer;
speed_buffer = 0;
capture_transition_buf = 0;
}
+
+bool
+AudioDiskstream::set_name (string const & name)
+{
+ if (_name == name) {
+ return true;
+ }
+ Diskstream::set_name (name);
+
+ /* get a new write source so that its name reflects the new diskstream name */
+
+ boost::shared_ptr<ChannelList> c = channels.reader();
+ ChannelList::iterator i;
+ int n = 0;
+
+ for (n = 0, i = c->begin(); i != c->end(); ++i, ++n) {
+ use_new_write_source (n);
+ }
+
+ return true;
+}
+
+bool
+AudioDiskstream::set_write_source_name (const std::string& str) {
+ if (_write_source_name == str) {
+ return true;
+ }
+
+ Diskstream::set_write_source_name (str);
+
+ if (_write_source_name == name()) {
+ return true;
+ }
+ boost::shared_ptr<ChannelList> c = channels.reader();
+ ChannelList::iterator i;
+ int n = 0;
+
+ for (n = 0, i = c->begin(); i != c->end(); ++i, ++n) {
+ use_new_write_source (n);
+ }
+ return true;
+}