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livetrax/libs/ardour/export_channel.cc
Robin Gareus 74c4ca3e52
Reduce reliance on boost - the hard part
the rest from `tools/convert_boost.sh`.

* replace boost::function, boost::bind with std::function and std::bind.

This required some manual fixes, notably std::placeholders,
some static_casts<>, and boost::function::clear -> = {}.
2024-10-19 03:47:21 +02:00

470 lines
13 KiB
C++

/*
* Copyright (C) 2008-2011 Carl Hetherington <carl@carlh.net>
* Copyright (C) 2008-2011 Sakari Bergen <sakari.bergen@beatwaves.net>
* Copyright (C) 2009-2011 David Robillard <d@drobilla.net>
* Copyright (C) 2009-2017 Paul Davis <paul@linuxaudiosystems.com>
* Copyright (C) 2014-2022 Robin Gareus <robin@gareus.org>
*
* 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 program 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 this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "pbd/types_convert.h"
#include "ardour/audio_buffer.h"
#include "ardour/audio_port.h"
#include "ardour/audio_track.h"
#include "ardour/audioengine.h"
#include "ardour/audioregion.h"
#include "ardour/capturing_processor.h"
#include "ardour/export_channel.h"
#include "ardour/export_failed.h"
#include "ardour/midi_port.h"
#include "ardour/session.h"
#include "pbd/error.h"
#include "pbd/i18n.h"
using namespace ARDOUR;
PortExportChannel::PortExportChannel ()
: _buffer_size (0)
, _buf (0)
{
}
PortExportChannel::~PortExportChannel ()
{
_delaylines.clear ();
}
samplecnt_t
PortExportChannel::common_port_playback_latency () const
{
samplecnt_t l = 0;
bool first = true;
for (PortSet::const_iterator it = ports.begin (); it != ports.end (); ++it) {
std::shared_ptr<AudioPort> p = it->lock ();
if (!p) {
continue;
}
samplecnt_t latency = p->private_latency_range (true).max;
if (first) {
first = false;
l = p->private_latency_range (true).max;
continue;
}
l = std::min (l, latency);
}
return l;
}
void
PortExportChannel::prepare_export (samplecnt_t max_samples, sampleoffset_t common_latency)
{
_buffer_size = max_samples;
_buffer.reset (new Sample[max_samples]);
_delaylines.clear ();
for (PortSet::const_iterator it = ports.begin (); it != ports.end (); ++it) {
std::shared_ptr<AudioPort> p = it->lock ();
if (!p) {
continue;
}
samplecnt_t latency = p->private_latency_range (true).max - common_latency;
PBD::RingBuffer<Sample>* rb = new PBD::RingBuffer<Sample> (latency + 1 + _buffer_size);
for (samplepos_t i = 0; i < latency; ++i) {
Sample zero = 0;
rb->write (&zero, 1);
}
_delaylines.push_back (std::shared_ptr<PBD::RingBuffer<Sample>> (rb));
}
}
bool
PortExportChannel::operator< (ExportChannel const& other) const
{
PortExportChannel const* pec;
if (!(pec = dynamic_cast<PortExportChannel const*> (&other))) {
return this < &other;
}
std::owner_less<std::weak_ptr<AudioPort>> cmp;
return std::lexicographical_compare (ports.begin (), ports.end (), pec->ports.begin (), pec->ports.end (), cmp);
}
void
PortExportChannel::read (Buffer const*& buf, samplecnt_t samples) const
{
assert (_buffer);
assert (samples <= _buffer_size);
if (ports.size () == 1 && _delaylines.size () == 1 && !ports.begin ()->expired () && (samplecnt_t) _delaylines.front ()->bufsize () == _buffer_size + 1) {
std::shared_ptr<AudioPort> p = ports.begin ()->lock ();
AudioBuffer& ab (p->get_audio_buffer (samples)); // unsets AudioBuffer::_written
ab.set_written (true);
buf = &ab;
return;
}
memset (_buffer.get (), 0, samples * sizeof (Sample));
std::list<std::shared_ptr<PBD::RingBuffer<Sample>>>::const_iterator di = _delaylines.begin ();
for (PortSet::const_iterator it = ports.begin (); it != ports.end (); ++it) {
std::shared_ptr<AudioPort> p = it->lock ();
if (!p) {
continue;
}
AudioBuffer& ab (p->get_audio_buffer (samples)); // unsets AudioBuffer::_written
Sample* port_buffer = ab.data ();
ab.set_written (true);
(*di)->write (port_buffer, samples);
PBD::RingBuffer<Sample>::rw_vector vec;
(*di)->get_read_vector (&vec);
assert ((samplecnt_t) (vec.len[0] + vec.len[1]) >= samples);
samplecnt_t to_write = std::min (samples, (samplecnt_t)vec.len[0]);
mix_buffers_no_gain (&_buffer[0], vec.buf[0], to_write);
to_write = std::min (samples - to_write, (samplecnt_t)vec.len[1]);
if (to_write > 0) {
mix_buffers_no_gain (&_buffer[vec.len[0]], vec.buf[1], to_write);
}
(*di)->increment_read_idx (samples);
++di;
}
_buf.set_data (_buffer.get (), samples);
buf = &_buf;
}
void
PortExportChannel::get_state (XMLNode* node) const
{
XMLNode* port_node;
for (PortSet::const_iterator it = ports.begin (); it != ports.end (); ++it) {
std::shared_ptr<Port> p = it->lock ();
if (p && (port_node = node->add_child ("Port"))) {
port_node->set_property ("name", p->name ());
}
}
}
void
PortExportChannel::set_state (XMLNode* node, Session& session)
{
XMLNodeList xml_ports = node->children ("Port");
for (XMLNodeList::iterator it = xml_ports.begin (); it != xml_ports.end (); ++it) {
std::string name;
if ((*it)->get_property ("name", name)) {
std::shared_ptr<AudioPort> port = std::dynamic_pointer_cast<AudioPort> (session.engine ().get_port_by_name (name));
if (port) {
ports.insert (port);
} else {
PBD::warning << string_compose (_("Could not get port for export channel \"%1\", dropping the channel"), name) << endmsg;
}
}
}
}
PortExportMIDI::PortExportMIDI ()
: _buf (8192)
{
}
PortExportMIDI::~PortExportMIDI ()
{
}
samplecnt_t
PortExportMIDI::common_port_playback_latency () const
{
std::shared_ptr<MidiPort> p = _port.lock ();
if (!p) {
return 0;
}
return p->private_latency_range (true).max;
}
void
PortExportMIDI::prepare_export (samplecnt_t max_samples, sampleoffset_t common_latency)
{
std::shared_ptr<MidiPort> p = _port.lock ();
if (!p) {
return;
}
samplecnt_t latency = p->private_latency_range (true).max - common_latency;
_delayline.set (ChanCount (DataType::MIDI, 1), latency);
}
bool
PortExportMIDI::operator< (ExportChannel const& other) const
{
PortExportMIDI const* pem;
if (!(pem = dynamic_cast<PortExportMIDI const*> (&other))) {
return this < &other;
}
return _port.owner_before (pem->_port);
}
void
PortExportMIDI::read (Buffer const*& buf, samplecnt_t samples) const
{
std::shared_ptr<MidiPort> p = _port.lock ();
if (!p) {
_buf.clear ();
buf = &_buf;
}
MidiBuffer& mb (p->get_midi_buffer (samples));
if (_delayline.delay () == 0) {
buf = &mb;
} else {
_delayline.delay (DataType::MIDI, 0, _buf, mb, samples);
buf = &_buf;
}
}
void
PortExportMIDI::get_state (XMLNode* node) const
{
XMLNode* port_node;
std::shared_ptr<MidiPort> p = _port.lock ();
if (p && (port_node = node->add_child ("MIDIPort"))) {
port_node->set_property ("name", p->name ());
}
}
void
PortExportMIDI::set_state (XMLNode* node, Session& session)
{
XMLNode* xml_port = node->child ("MIDIPort");
if (!xml_port) {
return;
}
std::string name;
if (xml_port->get_property ("name", name)) {
std::shared_ptr<MidiPort> port = std::dynamic_pointer_cast<MidiPort> (session.engine ().get_port_by_name (name));
if (port) {
_port = port;
} else {
PBD::warning << string_compose (_("Could not get port for export channel \"%1\", dropping the channel"), name) << endmsg;
}
}
}
RegionExportChannelFactory::RegionExportChannelFactory (Session* session, AudioRegion const& region, AudioTrack&, Type type)
: region (region)
, type (type)
, samples_per_cycle (session->engine ().samples_per_cycle ())
, buffers_up_to_date (false)
, region_start (region.position_sample ())
, position (region_start)
{
switch (type) {
case Raw:
n_channels = region.n_channels ();
break;
case Fades:
n_channels = region.n_channels ();
mixdown_buffer.reset (new Sample[samples_per_cycle]);
gain_buffer.reset (new Sample[samples_per_cycle]);
std::fill_n (gain_buffer.get (), samples_per_cycle, Sample (1.0));
break;
default:
throw ExportFailed ("Unhandled type in ExportChannelFactory constructor");
}
session->ProcessExport.connect_same_thread (export_connection, std::bind (&RegionExportChannelFactory::new_cycle_started, this, _1));
buffers.ensure_buffers (DataType::AUDIO, n_channels, samples_per_cycle);
buffers.set_count (ChanCount (DataType::AUDIO, n_channels));
}
RegionExportChannelFactory::~RegionExportChannelFactory ()
{
}
ExportChannelPtr
RegionExportChannelFactory::create (uint32_t channel)
{
assert (channel < n_channels);
return ExportChannelPtr (new RegionExportChannel (*this, channel));
}
void
RegionExportChannelFactory::read (uint32_t channel, Buffer const*& buf, samplecnt_t samples_to_read)
{
assert (channel < n_channels);
assert (samples_to_read <= samples_per_cycle);
if (!buffers_up_to_date) {
update_buffers (samples_to_read);
buffers_up_to_date = true;
}
buf = &buffers.get_audio (channel);
}
void
RegionExportChannelFactory::update_buffers (samplecnt_t samples)
{
assert (samples <= samples_per_cycle);
switch (type) {
case Raw:
for (size_t channel = 0; channel < n_channels; ++channel) {
region.read (buffers.get_audio (channel).data (), position - region_start, samples, channel);
}
break;
case Fades:
assert (mixdown_buffer && gain_buffer);
for (size_t channel = 0; channel < n_channels; ++channel) {
memset (mixdown_buffer.get (), 0, sizeof (Sample) * samples);
buffers.get_audio (channel).silence (samples);
region.read_at (buffers.get_audio (channel).data (), mixdown_buffer.get (), gain_buffer.get (), position, samples, channel);
}
break;
default:
throw ExportFailed ("Unhandled type in ExportChannelFactory::update_buffers");
}
position += samples;
}
RouteExportChannel::RouteExportChannel (std::shared_ptr<CapturingProcessor> processor,
DataType type,
size_t channel,
std::shared_ptr<ProcessorRemover> remover)
: _processor (processor)
, _type (type)
, _channel (channel)
, _remover (remover)
{
}
RouteExportChannel::~RouteExportChannel ()
{
}
void
RouteExportChannel::create_from_route (std::list<ExportChannelPtr>& result, std::shared_ptr<Route> route)
{
std::shared_ptr<CapturingProcessor> processor = route->add_export_point ();
uint32_t n_audio = processor->input_streams ().n_audio ();
uint32_t n_midi = processor->input_streams ().n_midi ();
assert (n_audio + n_midi > 0);
std::shared_ptr<ProcessorRemover> remover (new ProcessorRemover (route, processor));
result.clear ();
for (uint32_t i = 0; i < n_audio; ++i) {
result.push_back (ExportChannelPtr (new RouteExportChannel (processor, DataType::AUDIO, i, remover)));
}
for (uint32_t i = 0; i < n_midi; ++i) {
result.push_back (ExportChannelPtr (new RouteExportChannel (processor, DataType::MIDI, i, remover)));
}
}
void
RouteExportChannel::create_from_state (std::list<ExportChannelPtr>& result, Session& s, XMLNode* node)
{
uint32_t chn;
if (node->get_property ("number", chn) && chn > 1) {
/* create_from_route adds ExportChannel for all channels of a given Route */
return;
}
XMLNode* xml_route = node->child ("Route");
if (!xml_route) {
return;
}
PBD::ID rid;
if (!xml_route->get_property ("id", rid)) {
return;
}
std::shared_ptr<Route> rt = s.route_by_id (rid);
if (rt) {
create_from_route (result, rt);
}
}
bool
RouteExportChannel::audio () const
{
return _processor->input_streams ().n_audio () > 0;
}
bool
RouteExportChannel::midi () const
{
return _processor->input_streams ().n_midi () > 0;
}
void
RouteExportChannel::prepare_export (samplecnt_t max_samples, sampleoffset_t)
{
if (_processor) {
_processor->set_block_size (max_samples);
}
}
void
RouteExportChannel::read (Buffer const*& buf, samplecnt_t samples) const
{
assert (_processor);
Buffer const& buffer = _processor->get_capture_buffers ().get_available (_type, _channel);
buf = &buffer;
}
void
RouteExportChannel::get_state (XMLNode* node) const
{
XMLNode* n = node->add_child ("Route");
n->set_property ("id", route()->id ().to_s ());
}
void
RouteExportChannel::set_state (XMLNode*, Session&)
{
/* unused, see create_from_state() */
}
bool
RouteExportChannel::operator< (ExportChannel const& other) const
{
RouteExportChannel const* rec;
if ((rec = dynamic_cast<RouteExportChannel const*> (&other)) == 0) {
return this < &other;
}
if (_processor.get () == rec->_processor.get ()) {
if (_type == rec->_type) {
return _channel < rec->_channel;
} else {
return _type < rec->_type;
}
}
return _processor.get () < rec->_processor.get ();
}
RouteExportChannel::ProcessorRemover::~ProcessorRemover ()
{
_route->remove_processor (_processor);
}