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livetrax/libs/ardour/internal_send.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

547 lines
14 KiB
C++

/*
* Copyright (C) 2009-2012 Carl Hetherington <carl@carlh.net>
* Copyright (C) 2009-2012 David Robillard <d@drobilla.net>
* Copyright (C) 2009-2017 Paul Davis <paul@linuxaudiosystems.com>
* Copyright (C) 2013-2017 Robin Gareus <robin@gareus.org>
* Copyright (C) 2018 Len Ovens <len@ovenwerks.net>
*
* 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/error.h"
#include "pbd/failed_constructor.h"
#include "pbd/types_convert.h"
#include "ardour/amp.h"
#include "ardour/audio_buffer.h"
#include "ardour/audioengine.h"
#include "ardour/delayline.h"
#include "ardour/internal_return.h"
#include "ardour/internal_send.h"
#include "ardour/meter.h"
#include "ardour/panner_shell.h"
#include "ardour/route.h"
#include "ardour/session.h"
#include "ardour/solo_isolate_control.h"
#include "pbd/i18n.h"
namespace ARDOUR {
class MuteMaster;
class Pannable;
}
using namespace PBD;
using namespace ARDOUR;
using namespace std;
PBD::Signal<void(pframes_t)> InternalSend::CycleStart;
InternalSend::InternalSend (Session& s,
std::shared_ptr<Pannable> p,
std::shared_ptr<MuteMaster> mm,
std::shared_ptr<Route> sendfrom,
std::shared_ptr<Route> sendto,
Delivery::Role role,
bool ignore_bitslot)
: Send (s, p, mm, role, ignore_bitslot)
, _send_from (sendfrom)
, _allow_feedback (false)
{
if (sendto) {
if (use_target (sendto)) {
throw failed_constructor ();
}
}
init_gain ();
_send_from->DropReferences.connect_same_thread (source_connection, std::bind (&InternalSend::send_from_going_away, this));
CycleStart.connect_same_thread (*this, std::bind (&InternalSend::cycle_start, this, _1));
}
InternalSend::~InternalSend ()
{
propagate_solo ();
if (_send_to) {
_send_to->remove_send_from_internal_return (this);
}
}
void
InternalSend::propagate_solo ()
{
if (_session.inital_connect_or_deletion_in_progress ()) {
return;
}
if (!_send_to || !_send_from) {
return;
}
/* cache state before modification */
bool from_soloed = _send_from->soloed();
bool to_soloed = _send_to->soloed();
bool from_soloed_downstream = _send_from->solo_control()->soloed_by_others_downstream();
bool to_soloed_upstream = _send_to->solo_control()->soloed_by_others_upstream();
bool to_isolated_upstream = _send_to->solo_isolate_control()->solo_isolated_by_upstream();
if (from_soloed && (to_soloed_upstream | to_isolated_upstream)) {
if (to_soloed_upstream) {
_send_to->solo_control()->mod_solo_by_others_upstream (-1);
}
if (to_isolated_upstream) {
_send_to->solo_isolate_control()->mod_solo_isolated_by_upstream (-1);
}
/* propagate further downstream alike Route::input_change_handler() */
std::shared_ptr<RouteList const> routes = _session.get_routes ();
for (auto const& i : *routes) {
if (i == _send_to || i->is_singleton () || i->is_auditioner()) {
continue;
}
bool does_feed = _send_to->feeds (i);
if (does_feed && to_soloed_upstream) {
i->solo_control()->mod_solo_by_others_upstream (-1);
}
if (does_feed && to_isolated_upstream) {
i->solo_isolate_control()->mod_solo_isolated_by_upstream (-1);
}
}
}
if (to_soloed && from_soloed_downstream) {
_send_from->solo_control()->mod_solo_by_others_downstream (-1);
/* propagate further upstream alike Route::output_change_handler() */
std::shared_ptr<RouteList const> routes = _session.get_routes ();
for (auto const& i : *routes) {
if (i == _send_from || !i->can_solo()) {
continue;
}
if (i->feeds (_send_from)) {
i->solo_control()->mod_solo_by_others_downstream (-1);
}
}
}
}
void
InternalSend::init_gain ()
{
if (_role == Listen) {
/* send to monitor bus is always at unity */
gain_control ()->set_value (GAIN_COEFF_UNITY, PBD::Controllable::NoGroup);
} else {
/* aux sends start at -inf dB */
gain_control ()->set_value (GAIN_COEFF_ZERO, PBD::Controllable::NoGroup);
}
}
int
InternalSend::use_target (std::shared_ptr<Route> sendto, bool update_name)
{
if (_send_to) {
propagate_solo ();
_send_to->remove_send_from_internal_return (this);
}
_send_to = sendto;
_send_to->add_send_to_internal_return (this);
ensure_mixbufs ();
mixbufs.set_count (_send_to->internal_return ()->input_streams ());
_meter->configure_io (_send_to->internal_return ()->input_streams (), _send_to->internal_return ()->input_streams ());
_send_delay->configure_io (_send_to->internal_return ()->input_streams (), _send_to->internal_return ()->input_streams ());
reset_panner ();
if (update_name) {
set_name (sendto->name ());
}
_send_to_id = _send_to->id ();
target_connections.drop_connections ();
_send_to->DropReferences.connect_same_thread (target_connections, std::bind (&InternalSend::send_to_going_away, this));
_send_to->PropertyChanged.connect_same_thread (target_connections, std::bind (&InternalSend::send_to_property_changed, this, _1));
_send_to->io_changed.connect_same_thread (target_connections, std::bind (&InternalSend::target_io_changed, this));
return 0;
}
void
InternalSend::target_io_changed ()
{
assert (_send_to);
ensure_mixbufs ();
mixbufs.set_count (_send_to->internal_return ()->input_streams ());
reset_panner ();
}
void
InternalSend::send_from_going_away ()
{
/* notify route while source-route is still available,
* signal emission in the d'tor is too late */
propagate_solo ();
_send_from.reset ();
}
void
InternalSend::send_to_going_away ()
{
target_connections.drop_connections ();
_send_to.reset ();
_send_to_id = "0";
}
void
InternalSend::run (BufferSet& bufs, samplepos_t start_sample, samplepos_t end_sample, double speed, pframes_t nframes, bool)
{
automation_run (start_sample, nframes);
if (!check_active() || !_send_to) {
_meter->reset ();
return;
}
samplecnt_t latency = _thru_delay->delay ();
/* we have to copy the input, because we may alter the buffers with the amp
* in-place, which a send must never do.
*/
if (_panshell && !_panshell->bypassed () && role () != Listen) {
if (mixbufs.count ().n_audio () > 0) {
_panshell->run (bufs, mixbufs, start_sample + latency, end_sample + latency, nframes);
}
/* non-audio data will not have been copied by the panner, do it now
* if there are more buffers available than send buffers, ignore them,
* if there are less, copy the last as IO::copy_to_output does. */
for (DataType::iterator t = DataType::begin (); t != DataType::end (); ++t) {
if (*t != DataType::AUDIO) {
BufferSet::iterator o = mixbufs.begin (*t);
BufferSet::iterator i = bufs.begin (*t);
while (i != bufs.end (*t) && o != mixbufs.end (*t)) {
o->read_from (*i, nframes);
++i;
++o;
}
while (o != mixbufs.end (*t)) {
o->silence (nframes, 0);
++o;
}
}
}
} else if (role () == Listen) {
/* We're going to the monitor bus, so discard MIDI data */
uint32_t const bufs_audio = bufs.count ().get (DataType::AUDIO);
uint32_t const mixbufs_audio = mixbufs.count ().get (DataType::AUDIO);
/* monitor-section has same number of channels as master-bus (on creation).
*
* There is no clear answer what should happen when trying to PFL or AFL
* a track that has more channels (bufs_audio from source-track is
* larger than mixbufs).
*
* There are two options:
* 1: discard additional channels (current)
* OR
* 2: require the monitor-section to have at least as many channels
* as the largest count of any route
*/
//assert (mixbufs.available().get (DataType::AUDIO) >= bufs_audio);
/* Copy bufs into mixbufs, going round bufs more than once if necessary
* to ensure that every mixbuf gets some data.
*/
uint32_t j = 0;
uint32_t i = 0;
for (i = 0; i < mixbufs_audio && j < bufs_audio; ++i) {
mixbufs.get_audio (i).read_from (bufs.get_audio (j), nframes);
++j;
if (j == bufs_audio) {
j = 0;
}
}
/* in case or MIDI track with 0 audio channels */
for (; i < mixbufs_audio; ++i) {
mixbufs.get_audio (i).silence (nframes);
}
} else {
/* no panner or panner is bypassed */
assert (mixbufs.available () >= bufs.count ());
/* BufferSet::read_from() changes the channel-conut,
* so we manually copy bufs -> mixbufs
*/
for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) {
/* iterate over outputs */
BufferSet::iterator i = bufs.begin (*t);
for (BufferSet::iterator o = mixbufs.begin (*t); o != mixbufs.end (*t); ++o) {
if (i == bufs.end (*t)) {
o->silence (nframes, 0);
} else {
o->read_from (*i, nframes);
++i;
}
}
}
}
/* main gain control: * mute & bypass/enable */
gain_t tgain = target_gain ();
if (tgain != _current_gain) {
/* target gain has changed, fade in/out */
_current_gain = Amp::apply_gain (mixbufs, _session.nominal_sample_rate (), nframes, _current_gain, tgain);
} else if (tgain == GAIN_COEFF_ZERO) {
/* we were quiet last time, and we're still supposed to be quiet. */
_meter->reset ();
Amp::apply_simple_gain (mixbufs, nframes, GAIN_COEFF_ZERO);
return;
} else if (tgain != GAIN_COEFF_UNITY) {
/* target gain has not changed, but is not zero or unity */
Amp::apply_simple_gain (mixbufs, nframes, tgain);
}
/* apply fader gain automation */
_amp->set_gain_automation_buffer (_session.send_gain_automation_buffer ());
_amp->setup_gain_automation (start_sample + latency, end_sample + latency, nframes);
_amp->run (mixbufs, start_sample + latency, end_sample + latency, speed, nframes, true);
_send_delay->run (mixbufs, start_sample, end_sample, speed, nframes, true);
/* consider metering */
if (_metering) {
if (gain_control ()->get_value () == GAIN_COEFF_ZERO) {
_meter->reset ();
} else {
_meter->run (mixbufs, start_sample, end_sample, speed, nframes, true);
}
}
_thru_delay->run (bufs, start_sample, end_sample, speed, nframes, true);
/* target will pick up our output when it is ready */
}
void
InternalSend::ensure_mixbufs ()
{
for (DataType::iterator t = DataType::begin (); t != DataType::end (); ++t) {
size_t size = (*t == DataType::MIDI) ? _session.engine ().raw_buffer_size (*t) : _session.get_block_size ();
mixbufs.ensure_buffers (*t, _send_to->internal_return ()->input_streams ().get (*t), size);
}
}
int
InternalSend::set_block_size (pframes_t)
{
if (_send_to) {
ensure_mixbufs ();
}
return 0;
}
void
InternalSend::set_allow_feedback (bool yn)
{
if (is_foldback ()) {
return;
}
_allow_feedback = yn;
_send_from->processors_changed (RouteProcessorChange ()); /* EMIT SIGNAL */
}
bool
InternalSend::feeds (std::shared_ptr<Route> other) const
{
if (_role == Listen || !_allow_feedback) {
return _send_to == other;
}
return false;
}
XMLNode&
InternalSend::state () const
{
XMLNode& node (Send::state ());
/* this replaces any existing "type" property */
node.set_property ("type", "intsend");
if (_send_to) {
node.set_property ("target", _send_to->id ());
}
node.set_property ("allow-feedback", _allow_feedback);
return node;
}
int
InternalSend::set_state (const XMLNode& node, int version)
{
init_gain ();
/* Allow Delivery::set_state() to restore pannable state when
* copy/pasting Aux sends.
*
* At this point in time there is no target-bus. So when
* Delivery::set_state() calls reset_panner(), the pannable
* is dropped, before the panner state can be restored.
*/
defer_pan_reset ();
Send::set_state (node, version);
if (node.get_property ("target", _send_to_id)) {
/* if we're loading a session, the target route may not have been
* create yet. make sure we defer till we are sure that it should
* exist.
*/
if (_session.loading()) {
Session::AfterConnect.connect_same_thread (connect_c, std::bind (&InternalSend::after_connect, this));
} else {
after_connect ();
}
}
allow_pan_reset ();
if (!is_foldback ()) {
node.get_property (X_("allow-feedback"), _allow_feedback);
} else {
_allow_feedback = false;
}
return 0;
}
int
InternalSend::after_connect ()
{
connect_c.disconnect ();
if (_send_to_id == "0") {
/* it vanished before we could connect */
return 0;
}
std::shared_ptr<Route> sendto;
if ((sendto = _session.route_by_id (_send_to_id)) == 0) {
error << string_compose (_("%1 - cannot find any track/bus with the ID %2 to connect to"), display_name (), _send_to_id) << endmsg;
cerr << string_compose (_("%1 - cannot find any track/bus with the ID %2 to connect to"), display_name (), _send_to_id) << endl;
return -1;
}
return use_target (sendto, false);
}
bool
InternalSend::can_support_io_configuration (const ChanCount& in, ChanCount& out)
{
out = in;
return true;
}
uint32_t
InternalSend::pan_outs () const
{
/* the number of targets for our panner is determined by what we are
* sending to, if anything.
*/
if (_send_to) {
return _send_to->internal_return ()->input_streams ().n_audio ();
}
/* zero is more accurate, but 1 is probably safer as a way to
* say "don't pan"
*/
return 1;
}
bool
InternalSend::configure_io (ChanCount in, ChanCount out)
{
bool ret = Send::configure_io (in, out);
set_block_size (_session.engine ().samples_per_cycle ());
return ret;
}
bool
InternalSend::set_name (const string& str)
{
/* rules for external sends don't apply to us */
return Delivery::set_name (str);
}
string
InternalSend::display_name () const
{
if (_role == Aux) {
return string_compose (X_("%1"), _name);
} else {
return _name;
}
}
bool
InternalSend::visible () const
{
if (_role == Aux) {
return true;
}
return false;
}
void
InternalSend::send_to_property_changed (const PropertyChange& what_changed)
{
if (what_changed.contains (Properties::name)) {
set_name (_send_to->name ());
}
}
void
InternalSend::set_can_pan (bool yn)
{
if (_panshell) {
_panshell->set_bypassed (!yn);
}
}
void
InternalSend::cycle_start (pframes_t /*nframes*/)
{
for (BufferSet::audio_iterator b = mixbufs.audio_begin (); b != mixbufs.audio_end (); ++b) {
b->prepare ();
}
}