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lmms/plugins/organic/organic.cpp
Johannes Lorenz a1b355828e Allow sub plugins for instruments aswell 
* Move m_key member of Effect into Plugin
* Pass key to Instrument ctors and instantiaters
* Add pluginKeys to all plugin selector widgets, and let them pass the keys
  when instantiating the instruments; or, if the keys must be passed over
  threads, pass the keys to the Engine using `Engine::setDndPluginKey()`
* As instrument plugin libraries now also need to get their key passed, their
  second argument, which was always the same as the first, is now used to pass
  the sub plugin keys. This affects *all* instrument plugins.
* Plugin.h: Add more virtuals to `SubPluginFeatures` in order to draw logos
  and images into instrument selector widgets
* LadspaSubPluginFeatures: Implement the `displayName` virtual because the
  new behaviour to resolve displayNames is to first look at the
  SubPluginFeatures, which, without override, returns the superior plugin's
  name (Plugin.cpp)

Additional:

* PluginFactory.h: Allow setting up search paths without discovering plugins
  yet
* Plugin.h: Add full documentation (should be checked)
2018-12-27 21:24:19 +01:00

660 lines
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/*
* organic.cpp - additive synthesizer for organ-like sounds
*
* Copyright (c) 2006-2008 Andreas Brandmaier <andy/at/brandmaier/dot/de>
*
* This file is part of LMMS - https://lmms.io
*
* 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 (see COPYING); if not, write to the
* Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301 USA.
*
*/
#include "organic.h"
#include <QDomElement>
#include <QPainter>
#include "Engine.h"
#include "InstrumentTrack.h"
#include "Knob.h"
#include "Mixer.h"
#include "NotePlayHandle.h"
#include "Oscillator.h"
#include "PixmapButton.h"
#include "templates.h"
#include "ToolTip.h"
#include "embed.h"
#include "plugin_export.h"
extern "C"
{
Plugin::Descriptor PLUGIN_EXPORT organic_plugin_descriptor =
{
STRINGIFY( PLUGIN_NAME ),
"Organic",
QT_TRANSLATE_NOOP( "pluginBrowser",
"Additive Synthesizer for organ-like sounds" ),
"Andreas Brandmaier <andreas/at/brandmaier.de>",
0x0100,
Plugin::Instrument,
new PluginPixmapLoader( "logo" ),
NULL,
NULL
} ;
}
QPixmap * organicInstrumentView::s_artwork = NULL;
float * organicInstrument::s_harmonics = NULL;
/***********************************************************************
*
* class OrganicInstrument
*
* lmms - plugin
*
***********************************************************************/
organicInstrument::organicInstrument( InstrumentTrack * _instrument_track ) :
Instrument( _instrument_track, &organic_plugin_descriptor ),
m_modulationAlgo( Oscillator::SignalMix, Oscillator::SignalMix, Oscillator::SignalMix),
m_fx1Model( 0.0f, 0.0f, 0.99f, 0.01f , this, tr( "Distortion" ) ),
m_volModel( 100.0f, 0.0f, 200.0f, 1.0f, this, tr( "Volume" ) )
{
m_numOscillators = NUM_OSCILLATORS;
m_osc = new OscillatorObject*[ m_numOscillators ];
for (int i=0; i < m_numOscillators; i++)
{
m_osc[i] = new OscillatorObject( this, i );
m_osc[i]->m_numOscillators = m_numOscillators;
// Connect events
connect( &m_osc[i]->m_oscModel, SIGNAL( dataChanged() ),
m_osc[i], SLOT ( oscButtonChanged() ) );
connect( &m_osc[i]->m_harmModel, SIGNAL( dataChanged() ),
m_osc[i], SLOT( updateDetuning() ) );
connect( &m_osc[i]->m_volModel, SIGNAL( dataChanged() ),
m_osc[i], SLOT( updateVolume() ) );
connect( &m_osc[i]->m_panModel, SIGNAL( dataChanged() ),
m_osc[i], SLOT( updateVolume() ) );
connect( &m_osc[i]->m_detuneModel, SIGNAL( dataChanged() ),
m_osc[i], SLOT( updateDetuning() ) );
m_osc[i]->updateVolume();
}
/* m_osc[0]->m_harmonic = log2f( 0.5f ); // one octave below
m_osc[1]->m_harmonic = log2f( 0.75f ); // a fifth below
m_osc[2]->m_harmonic = log2f( 1.0f ); // base freq
m_osc[3]->m_harmonic = log2f( 2.0f ); // first overtone
m_osc[4]->m_harmonic = log2f( 3.0f ); // second overtone
m_osc[5]->m_harmonic = log2f( 4.0f ); // .
m_osc[6]->m_harmonic = log2f( 5.0f ); // .
m_osc[7]->m_harmonic = log2f( 6.0f ); // .*/
if( s_harmonics == NULL )
{
s_harmonics = new float[ NUM_HARMONICS ];
s_harmonics[0] = log2f( 0.5f );
s_harmonics[1] = log2f( 0.75f );
s_harmonics[2] = log2f( 1.0f );
s_harmonics[3] = log2f( 2.0f );
s_harmonics[4] = log2f( 3.0f );
s_harmonics[5] = log2f( 4.0f );
s_harmonics[6] = log2f( 5.0f );
s_harmonics[7] = log2f( 6.0f );
s_harmonics[8] = log2f( 7.0f );
s_harmonics[9] = log2f( 8.0f );
s_harmonics[10] = log2f( 9.0f );
s_harmonics[11] = log2f( 10.0f );
s_harmonics[12] = log2f( 11.0f );
s_harmonics[13] = log2f( 12.0f );
s_harmonics[14] = log2f( 13.0f );
s_harmonics[15] = log2f( 14.0f );
s_harmonics[16] = log2f( 15.0f );
s_harmonics[17] = log2f( 16.0f );
}
for (int i=0; i < m_numOscillators; i++) {
m_osc[i]->updateVolume();
m_osc[i]->updateDetuning();
}
connect( Engine::mixer(), SIGNAL( sampleRateChanged() ),
this, SLOT( updateAllDetuning() ) );
}
organicInstrument::~organicInstrument()
{
delete[] m_osc;
}
void organicInstrument::saveSettings( QDomDocument & _doc, QDomElement & _this )
{
_this.setAttribute( "num_osc", QString::number( m_numOscillators ) );
m_fx1Model.saveSettings( _doc, _this, "foldback" );
m_volModel.saveSettings( _doc, _this, "vol" );
for( int i = 0; i < m_numOscillators; ++i )
{
QString is = QString::number( i );
m_osc[i]->m_volModel.saveSettings( _doc, _this, "vol" + is );
m_osc[i]->m_panModel.saveSettings( _doc, _this, "pan" + is );
m_osc[i]->m_harmModel.saveSettings( _doc, _this, "newharmonic" + is );
m_osc[i]->m_detuneModel.saveSettings( _doc, _this, "newdetune"
+ is );
m_osc[i]->m_oscModel.saveSettings( _doc, _this, "wavetype"
+ is );
}
}
void organicInstrument::loadSettings( const QDomElement & _this )
{
// m_numOscillators = _this.attribute( "num_osc" ).
// toInt();
for( int i = 0; i < m_numOscillators; ++i )
{
QString is = QString::number( i );
m_osc[i]->m_volModel.loadSettings( _this, "vol" + is );
if( _this.hasAttribute( "detune" + is ) )
{
m_osc[i]->m_detuneModel.setValue( _this.attribute( "detune" ).toInt() * 12 );
}
else
{
m_osc[i]->m_detuneModel.loadSettings( _this, "newdetune" + is );
}
m_osc[i]->m_panModel.loadSettings( _this, "pan" + is );
m_osc[i]->m_oscModel.loadSettings( _this, "wavetype" + is );
if( _this.hasAttribute( "newharmonic" + is ) )
{
m_osc[i]->m_harmModel.loadSettings( _this, "newharmonic" + is );
}
else
{
m_osc[i]->m_harmModel.setValue( static_cast<float>( i ) );
}
}
m_volModel.loadSettings( _this, "vol" );
m_fx1Model.loadSettings( _this, "foldback" );
}
QString organicInstrument::nodeName() const
{
return( organic_plugin_descriptor.name );
}
void organicInstrument::playNote( NotePlayHandle * _n,
sampleFrame * _working_buffer )
{
const fpp_t frames = _n->framesLeftForCurrentPeriod();
const f_cnt_t offset = _n->noteOffset();
if( _n->totalFramesPlayed() == 0 || _n->m_pluginData == NULL )
{
Oscillator * oscs_l[NUM_OSCILLATORS];
Oscillator * oscs_r[NUM_OSCILLATORS];
_n->m_pluginData = new oscPtr;
for( int i = m_numOscillators - 1; i >= 0; --i )
{
static_cast<oscPtr *>( _n->m_pluginData )->phaseOffsetLeft[i]
= rand() / ( RAND_MAX + 1.0f );
static_cast<oscPtr *>( _n->m_pluginData )->phaseOffsetRight[i]
= rand() / ( RAND_MAX + 1.0f );
// initialise ocillators
if( i == m_numOscillators - 1 )
{
// create left oscillator
oscs_l[i] = new Oscillator(
&m_osc[i]->m_waveShape,
&m_modulationAlgo,
_n->frequency(),
m_osc[i]->m_detuningLeft,
static_cast<oscPtr *>( _n->m_pluginData )->phaseOffsetLeft[i],
m_osc[i]->m_volumeLeft );
// create right oscillator
oscs_r[i] = new Oscillator(
&m_osc[i]->m_waveShape,
&m_modulationAlgo,
_n->frequency(),
m_osc[i]->m_detuningRight,
static_cast<oscPtr *>( _n->m_pluginData )->phaseOffsetRight[i],
m_osc[i]->m_volumeRight );
}
else
{
// create left oscillator
oscs_l[i] = new Oscillator(
&m_osc[i]->m_waveShape,
&m_modulationAlgo,
_n->frequency(),
m_osc[i]->m_detuningLeft,
static_cast<oscPtr *>( _n->m_pluginData )->phaseOffsetLeft[i],
m_osc[i]->m_volumeLeft,
oscs_l[i + 1] );
// create right oscillator
oscs_r[i] = new Oscillator(
&m_osc[i]->m_waveShape,
&m_modulationAlgo,
_n->frequency(),
m_osc[i]->m_detuningRight,
static_cast<oscPtr *>( _n->m_pluginData )->phaseOffsetRight[i],
m_osc[i]->m_volumeRight,
oscs_r[i + 1] );
}
}
static_cast<oscPtr *>( _n->m_pluginData )->oscLeft = oscs_l[0];
static_cast<oscPtr *>( _n->m_pluginData )->oscRight = oscs_r[0];
}
Oscillator * osc_l = static_cast<oscPtr *>( _n->m_pluginData )->oscLeft;
Oscillator * osc_r = static_cast<oscPtr *>( _n->m_pluginData)->oscRight;
osc_l->update( _working_buffer + offset, frames, 0 );
osc_r->update( _working_buffer + offset, frames, 1 );
// -- fx section --
// fxKnob is [0;1]
float t = m_fx1Model.value();
for (int i=0 ; i < frames ; i++)
{
_working_buffer[i][0] = waveshape( _working_buffer[i][0], t ) *
m_volModel.value() / 100.0f;
_working_buffer[i][1] = waveshape( _working_buffer[i][1], t ) *
m_volModel.value() / 100.0f;
}
// -- --
instrumentTrack()->processAudioBuffer( _working_buffer, frames + offset, _n );
}
void organicInstrument::deleteNotePluginData( NotePlayHandle * _n )
{
delete static_cast<Oscillator *>( static_cast<oscPtr *>(
_n->m_pluginData )->oscLeft );
delete static_cast<Oscillator *>( static_cast<oscPtr *>(
_n->m_pluginData )->oscRight );
delete static_cast<oscPtr *>( _n->m_pluginData );
}
/*float inline organicInstrument::foldback(float in, float threshold)
{
if (in>threshold || in<-threshold)
{
in= fabs(fabs(fmod(in - threshold, threshold*4)) - threshold*2) - threshold;
}
return in;
}
*/
float inline organicInstrument::waveshape(float in, float amount)
{
float k = 2.0f * amount / ( 1.0f - amount );
return( ( 1.0f + k ) * in / ( 1.0f + k * fabs( in ) ) );
}
void organicInstrument::randomiseSettings()
{
for( int i = 0; i < m_numOscillators; i++ )
{
m_osc[i]->m_volModel.setValue( intRand( 0, 100 ) );
m_osc[i]->m_detuneModel.setValue( intRand( -5, 5 ) );
m_osc[i]->m_panModel.setValue( 0 );
m_osc[i]->m_oscModel.setValue( intRand( 0, 5 ) );
}
}
void organicInstrument::updateAllDetuning()
{
for( int i = 0; i < m_numOscillators; ++i )
{
m_osc[i]->updateDetuning();
}
}
int organicInstrument::intRand( int min, int max )
{
// int randn = min+int((max-min)*rand()/(RAND_MAX + 1.0));
// cout << randn << endl;
int randn = ( rand() % (max - min) ) + min;
return( randn );
}
PluginView * organicInstrument::instantiateView( QWidget * _parent )
{
return( new organicInstrumentView( this, _parent ) );
}
class organicKnob : public Knob
{
public:
organicKnob( QWidget * _parent ) :
Knob( knobStyled, _parent )
{
setFixedSize( 21, 21 );
}
};
organicInstrumentView::organicInstrumentView( Instrument * _instrument,
QWidget * _parent ) :
InstrumentView( _instrument, _parent ),
m_oscKnobs( NULL )
{
organicInstrument * oi = castModel<organicInstrument>();
setAutoFillBackground( true );
QPalette pal;
pal.setBrush( backgroundRole(), PLUGIN_NAME::getIconPixmap(
"artwork" ) );
setPalette( pal );
// setup knob for FX1
m_fx1Knob = new organicKnob( this );
m_fx1Knob->move( 15, 201 );
m_fx1Knob->setFixedSize( 37, 47 );
m_fx1Knob->setHintText( tr( "Distortion:" ), QString() );
m_fx1Knob->setObjectName( "fx1Knob" );
// setup volume-knob
m_volKnob = new organicKnob( this );
m_volKnob->setVolumeKnob( true );
m_volKnob->move( 60, 201 );
m_volKnob->setFixedSize( 37, 47 );
m_volKnob->setHintText( tr( "Volume:" ), "%" );
m_volKnob->setObjectName( "volKnob" );
// randomise
m_randBtn = new PixmapButton( this, tr( "Randomise" ) );
m_randBtn->move( 148, 224 );
m_randBtn->setActiveGraphic( PLUGIN_NAME::getIconPixmap(
"randomise_pressed" ) );
m_randBtn->setInactiveGraphic( PLUGIN_NAME::getIconPixmap(
"randomise" ) );
connect( m_randBtn, SIGNAL ( clicked() ),
oi, SLOT( randomiseSettings() ) );
if( s_artwork == NULL )
{
s_artwork = new QPixmap( PLUGIN_NAME::getIconPixmap(
"artwork" ) );
}
}
organicInstrumentView::~organicInstrumentView()
{
delete[] m_oscKnobs;
}
void organicInstrumentView::modelChanged()
{
organicInstrument * oi = castModel<organicInstrument>();
const float y=91.0f;
const float rowHeight = 26.0f;
const float x=53.0f;
const float colWidth = 24.0f;
m_numOscillators = oi->m_numOscillators;
m_fx1Knob->setModel( &oi->m_fx1Model );
m_volKnob->setModel( &oi->m_volModel );
if( m_oscKnobs != NULL )
{
delete[] m_oscKnobs;
}
m_oscKnobs = new OscillatorKnobs[ m_numOscillators ];
// Create knobs, now that we know how many to make
for( int i = 0; i < m_numOscillators; ++i )
{
// setup harmonic knob
Knob * harmKnob = new organicKnob( this );
harmKnob->move( x + i * colWidth, y - rowHeight );
harmKnob->setObjectName( "harmKnob" );
connect( &oi->m_osc[i]->m_harmModel, SIGNAL( dataChanged() ),
this, SLOT( updateKnobHint() ) );
// setup waveform-knob
Knob * oscKnob = new organicKnob( this );
oscKnob->move( x + i * colWidth, y );
connect( &oi->m_osc[i]->m_oscModel, SIGNAL( dataChanged() ),
this, SLOT( updateKnobHint() ) );
oscKnob->setHintText( tr( "Osc %1 waveform:" ).arg( i + 1 ), QString() );
// setup volume-knob
Knob * volKnob = new Knob( knobStyled, this );
volKnob->setVolumeKnob( true );
volKnob->move( x + i * colWidth, y + rowHeight*1 );
volKnob->setFixedSize( 21, 21 );
volKnob->setHintText( tr( "Osc %1 volume:" ).arg(
i + 1 ), "%" );
// setup panning-knob
Knob * panKnob = new organicKnob( this );
panKnob->move( x + i * colWidth, y + rowHeight*2 );
panKnob->setHintText( tr("Osc %1 panning:").arg(
i + 1 ), "" );
// setup knob for fine-detuning
Knob * detuneKnob = new organicKnob( this );
detuneKnob->move( x + i * colWidth, y + rowHeight*3 );
detuneKnob->setHintText( tr( "Osc %1 stereo detuning" ).arg( i + 1 )
, " " +
tr( "cents" ) );
m_oscKnobs[i] = OscillatorKnobs( harmKnob, volKnob, oscKnob, panKnob, detuneKnob );
// Attach to models
m_oscKnobs[i].m_harmKnob->setModel( &oi->m_osc[i]->m_harmModel );
m_oscKnobs[i].m_volKnob->setModel( &oi->m_osc[i]->m_volModel );
m_oscKnobs[i].m_oscKnob->setModel( &oi->m_osc[i]->m_oscModel );
m_oscKnobs[i].m_panKnob->setModel( &oi->m_osc[i]->m_panModel );
m_oscKnobs[i].m_detuneKnob->setModel( &oi->m_osc[i]->m_detuneModel );
}
updateKnobHint();
}
void organicInstrumentView::updateKnobHint()
{
organicInstrument * oi = castModel<organicInstrument>();
for( int i = 0; i < m_numOscillators; ++i )
{
const float harm = oi->m_osc[i]->m_harmModel.value();
const float wave = oi->m_osc[i]->m_oscModel.value();
m_oscKnobs[i].m_harmKnob->setHintText( tr( "Osc %1 harmonic:" ).arg( i + 1 ), " (" +
HARMONIC_NAMES[ static_cast<int>( harm ) ] + ")" );
m_oscKnobs[i].m_oscKnob->setHintText( tr( "Osc %1 waveform:" ).arg( i + 1 ), " (" +
WAVEFORM_NAMES[ static_cast<int>( wave ) ] + ")" );
}
}
OscillatorObject::OscillatorObject( Model * _parent, int _index ) :
Model( _parent ),
m_waveShape( Oscillator::SineWave, 0, Oscillator::NumWaveShapes-1, this ),
m_oscModel( 0.0f, 0.0f, 5.0f, 1.0f,
this, tr( "Osc %1 waveform" ).arg( _index + 1 ) ),
m_harmModel( static_cast<float>( _index ), 0.0f, 17.0f, 1.0f,
this, tr( "Osc %1 harmonic" ).arg( _index + 1 ) ),
m_volModel( 100.0f, 0.0f, 100.0f, 1.0f,
this, tr( "Osc %1 volume" ).arg( _index + 1 ) ),
m_panModel( DefaultPanning, PanningLeft, PanningRight, 1.0f,
this, tr( "Osc %1 panning" ).arg( _index + 1 ) ),
m_detuneModel( 0.0f, -1200.0f, 1200.0f, 1.0f,
this, tr( "Osc %1 fine detuning left" ).arg( _index + 1 ) )
{
}
OscillatorObject::~OscillatorObject()
{
}
void OscillatorObject::oscButtonChanged()
{
static Oscillator::WaveShapes shapes[] =
{
Oscillator::SineWave,
Oscillator::SawWave,
Oscillator::SquareWave,
Oscillator::TriangleWave,
Oscillator::MoogSawWave,
Oscillator::ExponentialWave
} ;
m_waveShape.setValue( shapes[(int)roundf( m_oscModel.value() )] );
}
void OscillatorObject::updateVolume()
{
m_volumeLeft = ( 1.0f - m_panModel.value() / (float)PanningRight )
* m_volModel.value() / m_numOscillators / 100.0f;
m_volumeRight = ( 1.0f + m_panModel.value() / (float)PanningRight )
* m_volModel.value() / m_numOscillators / 100.0f;
}
void OscillatorObject::updateDetuning()
{
m_detuningLeft = powf( 2.0f, organicInstrument::s_harmonics[ static_cast<int>( m_harmModel.value() ) ]
+ (float)m_detuneModel.value() * CENT ) /
Engine::mixer()->processingSampleRate();
m_detuningRight = powf( 2.0f, organicInstrument::s_harmonics[ static_cast<int>( m_harmModel.value() ) ]
- (float)m_detuneModel.value() * CENT ) /
Engine::mixer()->processingSampleRate();
}
extern "C"
{
// necessary for getting instance out of shared lib
PLUGIN_EXPORT Plugin * lmms_plugin_main( Model *m, void * )
{
return( new organicInstrument( static_cast<InstrumentTrack *>( m ) ) );
}
}
/*
* some notes & ideas for the future of this plugin:
*
* - 32.692 Hz in the bass to 5919.85 Hz of treble in a Hammond organ
* => implement harmonic foldback
*
m_osc[i].m_oscModel->setInitValue( 0.0f );
* - randomize preset
*/
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