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ardour/libs/panners/vbap/vbap.cc

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/*
* Copyright (C) 2011-2017 Paul Davis <paul@linuxaudiosystems.com>
* Copyright (C) 2011 Carl Hetherington <carl@carlh.net>
* Copyright (C) 2013 John Emmas <john@creativepost.co.uk>
* Copyright (C) 2014 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 <cmath>
#include <cstdlib>
#include <cstdio>
#include <cstring>
#include <iostream>
#include <string>
#ifdef COMPILER_MSVC
#include <malloc.h>
#endif
#include "pbd/cartesian.h"
#include "pbd/compose.h"
#include "ardour/amp.h"
#include "ardour/audio_buffer.h"
#include "ardour/buffer_set.h"
#include "ardour/pan_controllable.h"
#include "ardour/pannable.h"
#include "ardour/speakers.h"
#include "vbap.h"
#include "vbap_speakers.h"
#include "pbd/i18n.h"
using namespace PBD;
using namespace ARDOUR;
using namespace std;
static PanPluginDescriptor _descriptor = {
"VBAP 2D panner",
"http://ardour.org/plugin/panner_vbap",
"http://ardour.org/plugin/panner_vbap#ui",
-1, -1,
1000,
VBAPanner::factory
};
extern "C" ARDOURPANNER_API PanPluginDescriptor* panner_descriptor () { return &_descriptor; }
VBAPanner::Signal::Signal (Session&, VBAPanner&, uint32_t, uint32_t n_speakers)
{
resize_gains (n_speakers);
desired_gains[0] = desired_gains[1] = desired_gains[2] = 0;
outputs[0] = outputs[1] = outputs[2] = -1;
desired_outputs[0] = desired_outputs[1] = desired_outputs[2] = -1;
}
void
VBAPanner::Signal::resize_gains (uint32_t n)
{
gains.assign (n, 0.0);
}
VBAPanner::VBAPanner (boost::shared_ptr<Pannable> p, boost::shared_ptr<Speakers> s)
: Panner (p)
, _speakers (new VBAPSpeakers (s))
{
_pannable->pan_azimuth_control->Changed.connect_same_thread (*this, boost::bind (&VBAPanner::update, this));
_pannable->pan_elevation_control->Changed.connect_same_thread (*this, boost::bind (&VBAPanner::update, this));
_pannable->pan_width_control->Changed.connect_same_thread (*this, boost::bind (&VBAPanner::update, this));
if (!_pannable->has_state()) {
reset();
}
update ();
}
VBAPanner::~VBAPanner ()
{
clear_signals ();
}
void
VBAPanner::clear_signals ()
{
for (vector<Signal*>::iterator i = _signals.begin(); i != _signals.end(); ++i) {
delete *i;
}
_signals.clear ();
}
void
VBAPanner::configure_io (ChanCount in, ChanCount /* ignored - we use Speakers */)
{
uint32_t n = in.n_audio();
clear_signals ();
for (uint32_t i = 0; i < n; ++i) {
Signal* s = new Signal (_pannable->session(), *this, i, _speakers->n_speakers());
_signals.push_back (s);
}
update ();
}
void
VBAPanner::update ()
{
/* recompute signal directions based on panner azimuth and, if relevant, width (diffusion) and elevation parameters */
double elevation = _pannable->pan_elevation_control->get_value() * 90.0;
if (_signals.size() > 1) {
double w = - (_pannable->pan_width_control->get_value());
double signal_direction = 1.0 - (_pannable->pan_azimuth_control->get_value() + (w/2));
double grd_step_per_signal = w / (_signals.size() - 1);
for (vector<Signal*>::iterator s = _signals.begin(); s != _signals.end(); ++s) {
Signal* signal = *s;
int over = signal_direction;
over -= (signal_direction >= 0) ? 0 : 1;
signal_direction -= (double)over;
signal->direction = AngularVector (signal_direction * 360.0, elevation);
compute_gains (signal->desired_gains, signal->desired_outputs, signal->direction.azi, signal->direction.ele);
signal_direction += grd_step_per_signal;
}
} else if (_signals.size() == 1) {
double center = (1.0 - _pannable->pan_azimuth_control->get_value()) * 360.0;
/* width has no role to play if there is only 1 signal: VBAP does not do "diffusion" of a single channel */
Signal* s = _signals.front();
s->direction = AngularVector (center, elevation);
compute_gains (s->desired_gains, s->desired_outputs, s->direction.azi, s->direction.ele);
}
SignalPositionChanged(); /* emit */
}
void
VBAPanner::compute_gains (double gains[3], int speaker_ids[3], int azi, int ele)
{
/* calculates gain factors using loudspeaker setup and given direction */
double cartdir[3];
double power;
int i,j,k;
double small_g;
double big_sm_g, gtmp[3];
const int dimension = _speakers->dimension();
assert(dimension == 2 || dimension == 3);
spherical_to_cartesian (azi, ele, 1.0, cartdir[0], cartdir[1], cartdir[2]);
big_sm_g = -100000.0;
gains[0] = gains[1] = gains[2] = 0;
speaker_ids[0] = speaker_ids[1] = speaker_ids[2] = 0;
for (i = 0; i < _speakers->n_tuples(); i++) {
small_g = 10000000.0;
for (j = 0; j < dimension; j++) {
gtmp[j] = 0.0;
for (k = 0; k < dimension; k++) {
gtmp[j] += cartdir[k] * _speakers->matrix(i)[j * dimension + k];
}
if (gtmp[j] < small_g) {
small_g = gtmp[j];
}
}
if (small_g > big_sm_g) {
big_sm_g = small_g;
gains[0] = gtmp[0];
gains[1] = gtmp[1];
speaker_ids[0] = _speakers->speaker_for_tuple (i, 0);
speaker_ids[1] = _speakers->speaker_for_tuple (i, 1);
if (_speakers->dimension() == 3) {
gains[2] = gtmp[2];
speaker_ids[2] = _speakers->speaker_for_tuple (i, 2);
} else {
gains[2] = 0.0;
speaker_ids[2] = -1;
}
}
}
power = sqrt (gains[0]*gains[0] + gains[1]*gains[1] + gains[2]*gains[2]);
if (power > 0) {
gains[0] /= power;
gains[1] /= power;
gains[2] /= power;
}
}
void
VBAPanner::distribute (BufferSet& inbufs, BufferSet& obufs, gain_t gain_coefficient, pframes_t nframes)
{
uint32_t n;
vector<Signal*>::iterator s;
assert (inbufs.count().n_audio() == _signals.size());
for (s = _signals.begin(), n = 0; s != _signals.end(); ++s, ++n) {
Signal* signal (*s);
distribute_one (inbufs.get_audio (n), obufs, gain_coefficient, nframes, n);
memcpy (signal->outputs, signal->desired_outputs, sizeof (signal->outputs));
}
}
void
VBAPanner::distribute_one (AudioBuffer& srcbuf, BufferSet& obufs, gain_t gain_coefficient, pframes_t nframes, uint32_t which)
{
Sample* const src = srcbuf.data();
Signal* signal (_signals[which]);
/* VBAP may distribute the signal across up to 3 speakers depending on
the configuration of the speakers.
But the set of speakers in use "this time" may be different from
the set of speakers "the last time". So we have up to 6 speakers
involved, and we have to interpolate so that those no longer
in use are rapidly faded to silence and those newly in use
are rapidly faded to their correct level. This prevents clicks
as we change the set of speakers used to put the signal in
a given position.
However, the speakers are represented by output buffers, and other
speakers may write to the same buffers, so we cannot use
anything here that will simply assign new (sample) values
to the output buffers - everything must be done via mixing
functions and not assignment/copying.
*/
vector<double>::size_type sz = signal->gains.size();
assert (sz == obufs.count().n_audio());
int8_t *outputs = (int8_t*)alloca(sz); // on the stack, no malloc
/* set initial state of each output "record"
*/
for (uint32_t o = 0; o < sz; ++o) {
outputs[o] = 0;
}
/* for all outputs used this time and last time,
change the output record to show what has
happened.
*/
for (int o = 0; o < 3; ++o) {
if (signal->outputs[o] != -1) {
/* used last time */
outputs[signal->outputs[o]] |= 1;
}
if (signal->desired_outputs[o] != -1) {
/* used this time */
outputs[signal->desired_outputs[o]] |= 1<<1;
}
}
/* at this point, we can test a speaker's status:
(*outputs[o] & 1) <= in use before
(*outputs[o] & 2) <= in use this time
(*outputs[o] & 3) == 3 <= in use both times
*outputs[o] == 0 <= not in use either time
*/
for (int o = 0; o < 3; ++o) {
pan_t pan;
int output = signal->desired_outputs[o];
if (output == -1) {
continue;
}
pan = gain_coefficient * signal->desired_gains[o];
if (pan == 0.0 && signal->gains[output] == 0.0) {
/* nothing deing delivered to this output */
signal->gains[output] = 0.0;
} else if (fabs (pan - signal->gains[output]) > 0.00001) {
/* signal to this output but the gain coefficient has changed, so
interpolate between them.
*/
AudioBuffer& buf (obufs.get_audio (output));
buf.accumulate_with_ramped_gain_from (srcbuf.data(), nframes, signal->gains[output], pan, 0);
signal->gains[output] = pan;
} else {
/* signal to this output, same gain as before so just copy with gain
*/
mix_buffers_with_gain (obufs.get_audio (output).data(),src,nframes,pan);
signal->gains[output] = pan;
}
}
/* clean up the outputs that were used last time but not this time
*/
for (uint32_t o = 0; o < sz; ++o) {
if (outputs[o] == 1) {
/* take signal and deliver with a rapid fade out
*/
AudioBuffer& buf (obufs.get_audio (o));
buf.accumulate_with_ramped_gain_from (srcbuf.data(), nframes, signal->gains[o], 0.0, 0);
signal->gains[o] = 0.0;
}
}
/* note that the output buffers were all silenced at some point
so anything we didn't write to with this signal (or any others)
is just as it should be.
*/
}
void
VBAPanner::distribute_one_automated (AudioBuffer& /*src*/, BufferSet& /*obufs*/,
samplepos_t /*start*/, samplepos_t /*end*/,
pframes_t /*nframes*/, pan_t** /*buffers*/, uint32_t /*which*/)
{
/* XXX to be implemented */
}
XMLNode&
VBAPanner::get_state ()
{
XMLNode& node (Panner::get_state());
node.set_property (X_("uri"), _descriptor.panner_uri);
/* this is needed to allow new sessions to load with old Ardour: */
node.set_property (X_("type"), _descriptor.name);
return node;
}
Panner*
VBAPanner::factory (boost::shared_ptr<Pannable> p, boost::shared_ptr<Speakers> s)
{
return new VBAPanner (p, s);
}
ChanCount
VBAPanner::in() const
{
return ChanCount (DataType::AUDIO, _signals.size());
}
ChanCount
VBAPanner::out() const
{
return ChanCount (DataType::AUDIO, _speakers->n_speakers());
}
std::set<Evoral::Parameter>
VBAPanner::what_can_be_automated() const
{
set<Evoral::Parameter> s;
s.insert (Evoral::Parameter (PanAzimuthAutomation));
if (_signals.size() > 1) {
s.insert (Evoral::Parameter (PanWidthAutomation));
}
if (_speakers->dimension() == 3) {
s.insert (Evoral::Parameter (PanElevationAutomation));
}
return s;
}
string
VBAPanner::describe_parameter (Evoral::Parameter p)
{
switch (p.type()) {
case PanAzimuthAutomation:
return _("Azimuth");
case PanWidthAutomation:
return _("Width");
case PanElevationAutomation:
return _("Elevation");
default:
return _pannable->describe_parameter (p);
}
}
string
VBAPanner::value_as_string (boost::shared_ptr<const AutomationControl> ac) const
{
/* DO NOT USE LocaleGuard HERE */
double val = ac->get_value();
switch (ac->parameter().type()) {
case PanAzimuthAutomation: /* direction */
return string_compose (_("%1\u00B0"), (int (rint (val * 360.0))+180)%360);
case PanWidthAutomation: /* diffusion */
return string_compose (_("%1%%"), (int) floor (100.0 * fabs(val)));
case PanElevationAutomation: /* elevation */
return string_compose (_("%1\u00B0"), (int) floor (90.0 * fabs(val)));
default:
return _("unused");
}
}
AngularVector
VBAPanner::signal_position (uint32_t n) const
{
if (n < _signals.size()) {
return _signals[n]->direction;
}
return AngularVector();
}
boost::shared_ptr<Speakers>
VBAPanner::get_speakers () const
{
return _speakers->parent();
}
void
VBAPanner::set_position (double p)
{
/* map into 0..1 range */
int over = p;
over -= (p >= 0) ? 0 : 1;
p -= (double)over;
_pannable->pan_azimuth_control->set_value (p, Controllable::NoGroup);
}
void
VBAPanner::set_width (double w)
{
_pannable->pan_width_control->set_value (min (1.0, max (-1.0, w)), Controllable::NoGroup);
}
void
VBAPanner::set_elevation (double e)
{
_pannable->pan_elevation_control->set_value (min (1.0, max (0.0, e)), Controllable::NoGroup);
}
void
VBAPanner::reset ()
{
set_position (.5);
if (_signals.size() > 1) {
set_width (1.0 - (1.0 / (double)_signals.size()));
} else {
set_width (1.0);
}
set_elevation (0);
update ();
}
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