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/*
* Monstro.cpp - a monstrous semi-modular 3-osc synth with modulation matrix
*
* Copyright (c) 2014 Vesa Kivimäki <contact/dot/diizy/at/nbl/dot/fi>
*
* This file is part of LMMS - http://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 <QtXml/QDomElement>
#include "Monstro.h"
#include "engine.h"
#include "InstrumentTrack.h"
#include "templates.h"
#include "gui_templates.h"
#include "tooltip.h"
#include "song.h"
#include "lmms_math.h"
#include "interpolation.h"
#include "embed.cpp"
extern "C"
{
Plugin::Descriptor PLUGIN_EXPORT monstro_plugin_descriptor =
{
STRINGIFY( PLUGIN_NAME ),
"Monstro",
QT_TRANSLATE_NOOP( "pluginBrowser",
"Monstrous 3-oscillator synth with modulation matrix" ),
"Vesa Kivimäki <contact/dot/diizy/at/nbl/dot/fi>",
0x0100,
Plugin::Instrument,
new PluginPixmapLoader( "logo" ),
NULL,
NULL
} ;
}
MonstroSynth::MonstroSynth( MonstroInstrument * _i, NotePlayHandle * _nph ) :
m_parent( _i ),
m_nph( _nph )
{
m_osc1l_phase = 0.0f;
m_osc1r_phase = 0.0f;
m_osc2l_phase = 0.0f;
m_osc2r_phase = 0.0f;
m_osc3l_phase = 0.0f;
m_osc3r_phase = 0.0f;
m_ph2l_last = 0.0f;
m_ph2r_last = 0.0f;
m_ph3l_last = 0.0f;
m_ph3r_last = 0.0f;
m_env_phase[0] = 0.0f;
m_env_phase[1] = 0.0f;
m_lfo_phase[0] = 0.0f;
m_lfo_phase[1] = 0.0f;
m_lfo_next[0] = Oscillator::noiseSample( 0.0f );
m_lfo_next[1] = Oscillator::noiseSample( 0.0f );
m_osc1l_last = 0.0f;
m_osc1r_last = 0.0f;
m_l_last = 0.0f;
m_r_last = 0.0f;
m_invert2l = false;
m_invert2r = false;
m_invert3l = false;
m_invert3r = false;
m_counter2l = 0;
m_counter2r = 0;
m_counter3l = 0;
m_counter3r = 0;
}
MonstroSynth::~MonstroSynth()
{
}
void MonstroSynth::renderOutput( fpp_t _frames, sampleFrame * _buf )
{
float modtmp; // temp variable for freq modulation
// macros for modulating with env/lfos
#define modulatefreq( car, mod ) \
modtmp = 0.0f; \
if( mod##_e1 != 0.0f ) modtmp += env[0][f] * mod##_e1; \
if( mod##_e2 != 0.0f ) modtmp += env[1][f] * mod##_e2; \
if( mod##_l1 != 0.0f ) modtmp += lfo[0][f] * mod##_l1; \
if( mod##_l2 != 0.0f ) modtmp += lfo[1][f] * mod##_l2; \
car = qBound( MIN_FREQ, car * powf( 2.0f, modtmp ), MAX_FREQ );
#define modulateabs( car, mod ) \
if( mod##_e1 != 0.0f ) car += env[0][f] * mod##_e1; \
if( mod##_e2 != 0.0f ) car += env[1][f] * mod##_e2; \
if( mod##_l1 != 0.0f ) car += lfo[0][f] * mod##_l1; \
if( mod##_l2 != 0.0f ) car += lfo[1][f] * mod##_l2;
#define modulatephs( car, mod ) \
if( mod##_e1 != 0.0f ) car += env[0][f] * mod##_e1; \
if( mod##_e2 != 0.0f ) car += env[1][f] * mod##_e2; \
if( mod##_l1 != 0.0f ) car += lfo[0][f] * mod##_l1; \
if( mod##_l2 != 0.0f ) car += lfo[1][f] * mod##_l2;
#define modulatevol( car, mod ) \
if( mod##_e1 > 0.0f ) car *= ( 1.0f - mod##_e1 + mod##_e1 * env[0][f] ); \
if( mod##_e1 < 0.0f ) car *= ( 1.0f + mod##_e1 * env[0][f] ); \
if( mod##_e2 > 0.0f ) car *= ( 1.0f - mod##_e2 + mod##_e2 * env[1][f] ); \
if( mod##_e2 < 0.0f ) car *= ( 1.0f + mod##_e2 * env[1][f] ); \
if( mod##_l1 != 0.0f ) car *= ( 1.0f + mod##_l1 * lfo[0][f] ); \
if( mod##_l2 != 0.0f ) car *= ( 1.0f + mod##_l2 * lfo[1][f] ); \
car = qBound( -MODCLIP, car, MODCLIP );
////////////////////
// //
// MODULATORS //
// //
////////////////////
// LFO phase offsets
const float lfo1_po = m_parent->m_lfo1Phs.value() / 360.0f;
const float lfo2_po = m_parent->m_lfo2Phs.value() / 360.0f;
// remove cruft from phase counters to prevent overflow, add phase offset
m_lfo_phase[0] = absFraction( m_lfo_phase[0] + lfo1_po );
m_lfo_phase[1] = absFraction( m_lfo_phase[1] + lfo2_po );
// LFO rates and increment
m_lfo_rate[0] = ( m_parent->m_lfo1Rate.value() * 0.001f * m_parent->m_samplerate );
m_lfo_rate[1] = ( m_parent->m_lfo2Rate.value() * 0.001f * m_parent->m_samplerate );
m_lfo_inc[0] = 1.0f / m_lfo_rate[0];
m_lfo_inc[1] = 1.0f / m_lfo_rate[1];
m_env_sus[0] = m_parent-> m_env1Sus.value();
m_env_sus[1] = m_parent-> m_env2Sus.value();
m_lfovalue[0] = m_parent->m_lfo1Wave.value();
m_lfovalue[1] = m_parent->m_lfo2Wave.value();
m_lfoatt[0] = m_parent->m_lfo1_att;
m_lfoatt[1] = m_parent->m_lfo2_att;
m_env_pre[0] = m_parent->m_env1_pre;
m_env_att[0] = m_parent->m_env1_att;
m_env_hold[0] = m_parent->m_env1_hold;
m_env_dec[0] = m_parent->m_env1_dec;
m_env_rel[0] = m_parent->m_env1_rel;
m_env_pre[1] = m_parent->m_env2_pre;
m_env_att[1] = m_parent->m_env2_att;
m_env_hold[1] = m_parent->m_env2_hold;
m_env_dec[1] = m_parent->m_env2_dec;
m_env_rel[1] = m_parent->m_env2_rel;
// get updated osc1 values
// get pulse width
const float pw = ( m_parent->m_osc1Pw.value() * 0.01f );
const float o1pw_e1 = ( m_parent->m_pw1env1.value() );
const float o1pw_e2 = ( m_parent->m_pw1env2.value() );
const float o1pw_l1 = ( m_parent->m_pw1lfo1.value() * 0.5f );
const float o1pw_l2 = ( m_parent->m_pw1lfo2.value() * 0.5f );
const bool o1pw_mod = o1pw_e1 != 0.0f || o1pw_e2 != 0.0f || o1pw_l1 != 0.0f || o1pw_l2 != 0.0f;
// get phases
const float o1lpo = m_parent->m_osc1l_po;
const float o1rpo = m_parent->m_osc1r_po;
const float o1p_e1 = ( m_parent->m_phs1env1.value() );
const float o1p_e2 = ( m_parent->m_phs1env2.value() );
const float o1p_l1 = ( m_parent->m_phs1lfo1.value() * 0.5f );
const float o1p_l2 = ( m_parent->m_phs1lfo2.value() * 0.5f );
const bool o1p_mod = o1p_e1 != 0.0f || o1p_e2 != 0.0f || o1p_l1 != 0.0f || o1p_l2 != 0.0f;
// get pitch
const float o1lfb = ( m_parent->m_osc1l_freq * m_nph->frequency() );
const float o1rfb = ( m_parent->m_osc1r_freq * m_nph->frequency() );
const float o1f_e1 = ( m_parent->m_pit1env1.value() * 2.0f );
const float o1f_e2 = ( m_parent->m_pit1env2.value() * 2.0f );
const float o1f_l1 = ( m_parent->m_pit1lfo1.value() );
const float o1f_l2 = ( m_parent->m_pit1lfo2.value() );
const bool o1f_mod = o1f_e1 != 0.0f || o1f_e2 != 0.0f || o1f_l1 != 0.0f || o1f_l2 != 0.0f;
// get volumes
const float o1lv = m_parent->m_osc1l_vol;
const float o1rv = m_parent->m_osc1r_vol;
const float o1v_e1 = ( m_parent->m_vol1env1.value() );
const float o1v_e2 = ( m_parent->m_vol1env2.value() );
const float o1v_l1 = ( m_parent->m_vol1lfo1.value() );
const float o1v_l2 = ( m_parent->m_vol1lfo2.value() );
const bool o1v_mod = o1v_e1 != 0.0f || o1v_e2 != 0.0f || o1v_l1 != 0.0f || o1v_l2 != 0.0f;
// update osc2
// get waveform
const int o2w = m_parent->m_osc2Wave.value();
// get phases
const float o2lpo = m_parent->m_osc2l_po;
const float o2rpo = m_parent->m_osc2r_po;
const float o2p_e1 = ( m_parent->m_phs2env1.value() );
const float o2p_e2 = ( m_parent->m_phs2env2.value() );
const float o2p_l1 = ( m_parent->m_phs2lfo1.value() * 0.5f );
const float o2p_l2 = ( m_parent->m_phs2lfo2.value() * 0.5f );
const bool o2p_mod = o2p_e1 != 0.0f || o2p_e2 != 0.0f || o2p_l1 != 0.0f || o2p_l2 != 0.0f;
// get pitch
const float o2lfb = ( m_parent->m_osc2l_freq * m_nph->frequency() );
const float o2rfb = ( m_parent->m_osc2r_freq * m_nph->frequency() );
const float o2f_e1 = ( m_parent->m_pit2env1.value() * 2.0f );
const float o2f_e2 = ( m_parent->m_pit2env2.value() * 2.0f );
const float o2f_l1 = ( m_parent->m_pit2lfo1.value() );
const float o2f_l2 = ( m_parent->m_pit2lfo2.value() );
const bool o2f_mod = o2f_e1 != 0.0f || o2f_e2 != 0.0f || o2f_l1 != 0.0f || o2f_l2 != 0.0f;
// get volumes
const float o2lv = m_parent->m_osc2l_vol;
const float o2rv = m_parent->m_osc2r_vol;
const float o2v_e1 = ( m_parent->m_vol2env1.value() );
const float o2v_e2 = ( m_parent->m_vol2env2.value() );
const float o2v_l1 = ( m_parent->m_vol2lfo1.value() );
const float o2v_l2 = ( m_parent->m_vol2lfo2.value() );
const bool o2v_mod = o2v_e1 != 0.0f || o2v_e2 != 0.0f || o2v_l1 != 0.0f || o2v_l2 != 0.0f;
// update osc3
// get waveforms
const int o3w1 = m_parent->m_osc3Wave1.value();
const int o3w2 = m_parent->m_osc3Wave2.value();
// get phases
const float o3lpo = m_parent->m_osc3l_po;
const float o3rpo = m_parent->m_osc3r_po;
const float o3p_e1 = ( m_parent->m_phs3env1.value() );
const float o3p_e2 = ( m_parent->m_phs3env2.value() );
const float o3p_l1 = ( m_parent->m_phs3lfo1.value() * 0.5f );
const float o3p_l2 = ( m_parent->m_phs3lfo2.value() * 0.5f );
const bool o3p_mod = o3p_e1 != 0.0f || o3p_e2 != 0.0f || o3p_l1 != 0.0f || o3p_l2 != 0.0f;
// get pitch modulators
const float o3fb = ( m_parent->m_osc3_freq * m_nph->frequency() );
const float o3f_e1 = ( m_parent->m_pit3env1.value() * 2.0f );
const float o3f_e2 = ( m_parent->m_pit3env2.value() * 2.0f );
const float o3f_l1 = ( m_parent->m_pit3lfo1.value() );
const float o3f_l2 = ( m_parent->m_pit3lfo2.value() );
const bool o3f_mod = o3f_e1 != 0.0f || o3f_e2 != 0.0f || o3f_l1 != 0.0f || o3f_l2 != 0.0f;
// get volumes
const float o3lv = m_parent->m_osc3l_vol;
const float o3rv = m_parent->m_osc3r_vol;
const float o3v_e1 = ( m_parent->m_vol3env1.value() );
const float o3v_e2 = ( m_parent->m_vol3env2.value() );
const float o3v_l1 = ( m_parent->m_vol3lfo1.value() );
const float o3v_l2 = ( m_parent->m_vol3lfo2.value() );
const bool o3v_mod = o3v_e1 != 0.0f || o3v_e2 != 0.0f || o3v_l1 != 0.0f || o3v_l2 != 0.0f;
// get sub
const float o3sub = ( m_parent->m_osc3Sub.value() + 100.0f ) / 200.0f;
const float o3s_e1 = ( m_parent->m_sub3env1.value() );
const float o3s_e2 = ( m_parent->m_sub3env2.value() );
const float o3s_l1 = ( m_parent->m_sub3lfo1.value() * 0.5f );
const float o3s_l2 = ( m_parent->m_sub3lfo2.value() * 0.5f );
const bool o3s_mod = o3s_e1 != 0.0f || o3s_e2 != 0.0f || o3s_l1 != 0.0f || o3s_l2 != 0.0f;
//o2-o3 modulation
const int omod = m_parent->m_o23Mod.value();
// sync information
const bool o1ssr = m_parent->m_osc1SSR.value();
const bool o1ssf = m_parent->m_osc1SSF.value();
const bool o2sync = m_parent->m_osc2SyncH.value();
const bool o3sync = m_parent->m_osc3SyncH.value();
const bool o2syncr = m_parent->m_osc2SyncR.value();
const bool o3syncr = m_parent->m_osc3SyncR.value();
///////////////////////////
// //
// start buffer loop //
// //
///////////////////////////
// declare working variables for for loop
// phase manipulation vars - these can be reused by all oscs
float leftph;
float rightph;
float pd_l;
float pd_r;
float len_l;
float len_r;
// osc1 vars
float o1l_f;
float o1r_f;
float o1l_p = m_osc1l_phase + o1lpo; // we add phase offset here so we don't have to do it every frame
float o1r_p = m_osc1r_phase + o1rpo; // then subtract it again after loop...
float o1_pw;
// osc2 vars
float o2l_f;
float o2r_f;
float o2l_p = m_osc2l_phase + o2lpo;
float o2r_p = m_osc2r_phase + o2rpo;
// osc3 vars
float o3l_f;
float o3r_f;
float o3l_p = m_osc3l_phase + o3lpo;
float o3r_p = m_osc3r_phase + o3rpo;
float sub;
// modulators
float lfo[2][ m_parent->m_fpp ];
float env[2][ m_parent->m_fpp ];
// render modulators: envelopes, lfos
updateModulators( &env[0][0], &env[1][0], &lfo[0][0], &lfo[1][0], _frames );
// begin for loop
for( f_cnt_t f = 0; f < _frames; ++f )
{
/* // debug code
if( f % 10 == 0 ) {
qDebug( "env1 %f -- env1 phase %f", m_env1_buf[f], m_env1_phase );
qDebug( "env1 pre %f att %f dec %f rel %f ", m_parent->m_env1_pre, m_parent->m_env1_att,
m_parent->m_env1_dec, m_parent->m_env1_rel );
}*/
/////////////////////////////
// //
// OSC 1 //
// //
/////////////////////////////
// calc and mod frequencies
o1l_f = o1lfb;
o1r_f = o1rfb;
if( o1f_mod )
{
modulatefreq( o1l_f, o1f )
modulatefreq( o1r_f, o1f )
}
// calc and modulate pulse
o1_pw = pw;
if( o1pw_mod )
{
modulateabs( o1_pw, o1pw )
o1_pw = qBound( PW_MIN, o1_pw, PW_MAX );
}
// calc and modulate phase
leftph = o1l_p;
rightph = o1r_p;
if( o1p_mod )
{
modulatephs( leftph, o1p )
modulatephs( rightph, o1p )
}
// pulse wave osc
sample_t O1L = ( absFraction( leftph ) < o1_pw ) ? 1.0f : -1.0f;
sample_t O1R = ( absFraction( rightph ) < o1_pw ) ? 1.0f : -1.0f;
// check for rise/fall, and sync if appropriate
// sync on rise
if( o1ssr )
{
// hard sync
if( o2sync )
{
if( O1L > m_osc1l_last ) { o2l_p = o2lpo; m_counter2l = m_parent->m_counterMax; }
if( O1R > m_osc1r_last ) { o2r_p = o2rpo; m_counter2r = m_parent->m_counterMax; }
}
if( o3sync )
{
if( O1L > m_osc1l_last ) { o3l_p = o3lpo; m_counter3l = m_parent->m_counterMax; }
if( O1R > m_osc1r_last ) { o3r_p = o3rpo; m_counter3r = m_parent->m_counterMax; }
}
// reverse sync
if( o2syncr )
{
if( O1L > m_osc1l_last ) { m_invert2l = !m_invert2l; m_counter2l = m_parent->m_counterMax; }
if( O1R > m_osc1r_last ) { m_invert2r = !m_invert2r; m_counter2r = m_parent->m_counterMax; }
}
if( o3syncr )
{
if( O1L > m_osc1l_last ) { m_invert3l = !m_invert3l; m_counter3l = m_parent->m_counterMax; }
if( O1R > m_osc1r_last ) { m_invert3r = !m_invert3r; m_counter3r = m_parent->m_counterMax; }
}
}
// sync on fall
if( o1ssf )
{
// hard sync
if( o2sync )
{
if( O1L < m_osc1l_last ) { o2l_p = o2lpo; m_counter2l = m_parent->m_counterMax; }
if( O1R < m_osc1r_last ) { o2r_p = o2rpo; m_counter2r = m_parent->m_counterMax; }
}
if( o3sync )
{
if( O1L < m_osc1l_last ) { o3l_p = o3lpo; m_counter3l = m_parent->m_counterMax; }
if( O1R < m_osc1r_last ) { o3r_p = o3rpo; m_counter3r = m_parent->m_counterMax; }
}
// reverse sync
if( o2syncr )
{
if( O1L < m_osc1l_last ) { m_invert2l = !m_invert2l; m_counter2l = m_parent->m_counterMax; }
if( O1R < m_osc1r_last ) { m_invert2r = !m_invert2r; m_counter2r = m_parent->m_counterMax; }
}
if( o3syncr )
{
if( O1L < m_osc1l_last ) { m_invert3l = !m_invert3l; m_counter3l = m_parent->m_counterMax; }
if( O1R < m_osc1r_last ) { m_invert3r = !m_invert3r; m_counter3r = m_parent->m_counterMax; }
}
}
// update last before signal is touched
// also do a very simple amp delta cap
const sample_t tmpl = m_osc1l_last;
const sample_t tmpr = m_osc1r_last;
m_osc1l_last = O1L;
m_osc1r_last = O1R;
if( tmpl != O1L ) O1L = 0.0f;
if( tmpr != O1R ) O1R = 0.0f;
// modulate volume
O1L *= o1lv;
O1R *= o1rv;
if( o1v_mod )
{
modulatevol( O1L, o1v )
modulatevol( O1R, o1v )
}
// update osc1 phase working variable
o1l_p += 1.0f / ( static_cast<float>( m_parent->m_samplerate ) / o1l_f );
o1r_p += 1.0f / ( static_cast<float>( m_parent->m_samplerate ) / o1r_f );
/////////////////////////////
// //
// OSC 2 //
// //
/////////////////////////////
// calc and mod frequencies
o2l_f = o2lfb;
o2r_f = o2rfb;
if( o2f_mod )
{
modulatefreq( o2l_f, o2f )
modulatefreq( o2r_f, o2f )
}
// calc and modulate phase
leftph = o2l_p;
rightph = o2r_p;
if( o2p_mod )
{
modulatephs( leftph, o2p )
modulatephs( rightph, o2p )
}
leftph = absFraction( leftph );
rightph = absFraction( rightph );
// phase delta
pd_l = qAbs( leftph - m_ph2l_last );
if( pd_l > 0.5 ) pd_l = 1.0 - pd_l;
pd_r = qAbs( rightph - m_ph2r_last );
if( pd_r > 0.5 ) pd_r = 1.0 - pd_r;
// multi-wave DC Oscillator
len_l = BandLimitedWave::pdToLen( pd_l );
len_r = BandLimitedWave::pdToLen( pd_r );
if( m_counter2l > 0 ) { len_l /= m_counter2l; m_counter2l--; }
if( m_counter2r > 0 ) { len_r /= m_counter2r; m_counter2r--; }
sample_t O2L = oscillate( o2w, leftph, len_l );
sample_t O2R = oscillate( o2w, rightph, len_r );
// modulate volume
O2L *= o2lv;
O2R *= o2rv;
if( o2v_mod )
{
modulatevol( O2L, o2v )
modulatevol( O2R, o2v )
}
// reverse sync - invert waveforms when needed
if( m_invert2l ) O2L *= -1.0;
if( m_invert2r ) O2R *= -1.0;
// update osc2 phases
m_ph2l_last = leftph;
m_ph2r_last = rightph;
o2l_p += 1.0f / ( static_cast<float>( m_parent->m_samplerate ) / o2l_f );
o2r_p += 1.0f / ( static_cast<float>( m_parent->m_samplerate ) / o2r_f );
/////////////////////////////
// //
// OSC 3 //
// //
/////////////////////////////
// calc and mod frequencies
o3l_f = o3fb;
o3r_f = o3fb;
if( o3f_mod )
{
modulatefreq( o3l_f, o3f )
modulatefreq( o3r_f, o3f )
}
// calc and modulate phase
leftph = o3l_p;
rightph = o3r_p;
if( o3p_mod )
{
modulatephs( leftph, o3p )
modulatephs( rightph, o3p )
}
// o2 modulation?
if( omod == MOD_PM )
{
leftph += O2L * 0.5f;
rightph += O2R * 0.5f;
}
leftph = absFraction( leftph );
rightph = absFraction( rightph );
// phase delta
pd_l = qAbs( leftph - m_ph3l_last );
if( pd_l > 0.5 ) pd_l = 1.0 - pd_l;
pd_r = qAbs( rightph - m_ph3r_last );
if( pd_r > 0.5 ) pd_r = 1.0 - pd_r;
// multi-wave DC Oscillator
len_l = BandLimitedWave::pdToLen( pd_l );
len_r = BandLimitedWave::pdToLen( pd_r );
if( m_counter3l > 0 ) { len_l /= m_counter3l; m_counter3l--; }
if( m_counter3r > 0 ) { len_r /= m_counter3r; m_counter3r--; }
// sub-osc 1
sample_t O3AL = oscillate( o3w1, leftph, len_l );
sample_t O3AR = oscillate( o3w1, rightph, len_r );
// multi-wave DC Oscillator, sub-osc 2
sample_t O3BL = oscillate( o3w2, leftph, len_l );
sample_t O3BR = oscillate( o3w2, rightph, len_r );
// calc and modulate sub
sub = o3sub;
if( o3s_mod )
{
modulateabs( sub, o3s )
sub = qBound( 0.0f, sub, 1.0f );
}
sample_t O3L = linearInterpolate( O3AL, O3BL, sub );
sample_t O3R = linearInterpolate( O3AR, O3BR, sub );
// modulate volume
O3L *= o3lv;
O3R *= o3rv;
if( o3v_mod )
{
modulatevol( O3L, o3v )
modulatevol( O3R, o3v )
}
// o2 modulation?
if( omod == MOD_AM )
{
O3L = qBound( -MODCLIP, O3L * qMax( 0.0f, 1.0f + O2L ), MODCLIP );
O3R = qBound( -MODCLIP, O3R * qMax( 0.0f, 1.0f + O2R ), MODCLIP );
}
// reverse sync - invert waveforms when needed
if( m_invert3l ) O3L *= -1.0;
if( m_invert3r ) O3R *= -1.0;
// update osc3 phases
m_ph3l_last = leftph;
m_ph3r_last = rightph;
len_l = 1.0f / ( static_cast<float>( m_parent->m_samplerate ) / o3l_f );
len_r = 1.0f / ( static_cast<float>( m_parent->m_samplerate ) / o3r_f );
// handle FM as PM
if( omod == MOD_FM )
{
len_l += O2L * m_parent->m_fmCorrection;
len_r += O2R * m_parent->m_fmCorrection;
}
o3l_p += len_l;
o3r_p += len_r;
// integrator - very simple filter
sample_t L = O1L + O3L + ( omod == MOD_MIX ? O2L : 0.0f );
sample_t R = O1R + O3R + ( omod == MOD_MIX ? O2R : 0.0f );
_buf[f][0] = linearInterpolate( L, m_l_last, m_parent->m_integrator );
_buf[f][1] = linearInterpolate( R, m_r_last, m_parent->m_integrator );
m_l_last = L;
m_r_last = R;
}
// update phases
m_osc1l_phase = absFraction( o1l_p - o1lpo );
m_osc1r_phase = absFraction( o1r_p - o1rpo );
m_osc2l_phase = absFraction( o2l_p - o2lpo );
m_osc2r_phase = absFraction( o2r_p - o2rpo );
m_osc3l_phase = absFraction( o3l_p - o3lpo );
m_osc3r_phase = absFraction( o3r_p - o3rpo );
m_lfo_phase[0] = absFraction( m_lfo_phase[0] - lfo1_po );
m_lfo_phase[1] = absFraction( m_lfo_phase[1] - lfo2_po );
}
inline void MonstroSynth::updateModulators( float * env1, float * env2, float * lfo1, float * lfo2, int frames )
{
// frames played before
const f_cnt_t tfp = m_nph->totalFramesPlayed();
float * lfo [2];
float * env [2];
lfo[0] = lfo1;
lfo[1] = lfo2;
env[0] = env1;
env[1] = env2;
for( int i = 0; i < 2; ++i )
{
switch( m_lfovalue[i] )
{
case WAVE_SINE:
for( f_cnt_t f = 0; f < frames; ++f )
{
lfo[i][f] = Oscillator::sinSample( m_lfo_phase[i] );
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_TRI:
for( f_cnt_t f = 0; f < frames; ++f )
{
lfo[i][f] = Oscillator::triangleSample( m_lfo_phase[i] );
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_SAW:
for( f_cnt_t f = 0; f < frames; ++f )
{
lfo[i][f] = Oscillator::sawSample( m_lfo_phase[i] );
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_RAMP:
for( f_cnt_t f = 0; f < frames; ++f )
{
lfo[i][f] = Oscillator::sawSample( m_lfo_phase[i] ) * -1.0f;
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_SQR:
for( f_cnt_t f = 0; f < frames; ++f )
{
lfo[i][f] = Oscillator::squareSample( m_lfo_phase[i] );
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_SQRSOFT:
for( f_cnt_t f = 0; f < frames; ++f )
{
lfo[i][f] = oscillate( WAVE_SQRSOFT, m_lfo_phase[i], 0 );
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_MOOG:
for( f_cnt_t f = 0; f < frames; ++f )
{
lfo[i][f] = Oscillator::moogSawSample( m_lfo_phase[i] );
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_SINABS:
for( f_cnt_t f = 0; f < frames; ++f )
{
lfo[i][f] = oscillate( WAVE_SINABS, m_lfo_phase[i], 0 );
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_EXP:
for( f_cnt_t f = 0; f < frames; ++f )
{
lfo[i][f] = Oscillator::expSample( m_lfo_phase[i] );
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_RANDOM:
for( f_cnt_t f = 0; f < frames; ++f )
{
if( ( tfp + f ) % static_cast<int>( m_lfo_rate[i] ) == 0 ) m_lfo_last[i] = Oscillator::noiseSample( 0.0f );
lfo[i][f] = m_lfo_last[i];
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
case WAVE_RANDOM_SMOOTH:
for( f_cnt_t f = 0; f < frames; ++f )
{
const f_cnt_t tm = ( tfp + f ) % static_cast<int>( m_lfo_rate[i] );
if( tm == 0 )
{
m_lfo_last[i] = m_lfo_next[i];
m_lfo_next[i] = Oscillator::noiseSample( 0.0f );
}
lfo[i][f] = cosinusInterpolate( m_lfo_last[i], m_lfo_next[i], static_cast<float>( tm ) / m_lfo_rate[i] );
m_lfo_phase[i] += m_lfo_inc[i];
}
break;
}
// attack
for( f_cnt_t f = 0; f < frames; ++f )
{
if( tfp + f < m_lfoatt[i] ) lfo[i][f] *= ( static_cast<sample_t>( tfp ) / m_lfoatt[i] );
}
/////////////////////////////////////////////
// //
// //
// envelopes //
// //
// //
/////////////////////////////////////////////
for( f_cnt_t f = 0; f < frames; ++f )
{
if( m_env_phase[i] < 4.0f && m_nph->isReleased() && f >= m_nph->framesBeforeRelease() )
{
if( m_env_phase[i] < 1.0f ) m_env_phase[i] = 5.0f;
else if( m_env_phase[i] < 2.0f ) m_env_phase[i] = 5.0f - fraction( m_env_phase[i] );
else if( m_env_phase[i] < 3.0f ) m_env_phase[i] = 4.0f;
else m_env_phase[i] = 4.0f + fraction( m_env_phase[i] );
}
// process envelope
if( m_env_phase[i] < 1.0f ) // pre-delay phase
{
env[i][f] = 0.0f;
m_env_phase[i] = qMin( 1.0f, m_env_phase[i] + m_env_pre[i] );
}
else if( m_env_phase[i] < 2.0f ) // attack phase
{
env[i][f] = calcSlope( i, fraction( m_env_phase[i] ) );
m_env_phase[i] = qMin( 2.0f, m_env_phase[i] + m_env_att[i] );
}
else if( m_env_phase[i] < 3.0f ) // hold phase
{
env[i][f] = 1.0f;
m_env_phase[i] = qMin( 3.0f, m_env_phase[i] + m_env_hold[i] );
}
else if( m_env_phase[i] < 4.0f ) // decay phase
{
const sample_t s = calcSlope( i, 1.0f - fraction( m_env_phase[i] ) );
if( s <= m_env_sus[i] )
{
env[i][f] = m_env_sus[i];
}
else
{
env[i][f] = s;
m_env_phase[i] = qMin( 4.0f - m_env_sus[i], m_env_phase[i] + m_env_dec[i] );
if( m_env_phase[i] == 4.0f ) m_env_phase[i] = 5.0f; // jump over release if sustain is zero - fix for clicking
}
}
else if( m_env_phase[i] < 5.0f ) // release phase
{
env[i][f] = calcSlope( i, 1.0f - fraction( m_env_phase[i] ) );
m_env_phase[i] += m_env_rel[i];
}
else env[i][f] = 0.0f;
}
}
}
inline sample_t MonstroSynth::calcSlope( int slope, sample_t s )
{
if( m_parent->m_slope[slope] == 1.0f ) return s;
if( s == 0.0f ) return s;
return fastPow( s, m_parent->m_slope[slope] );
}
MonstroInstrument::MonstroInstrument( InstrumentTrack * _instrument_track ) :
Instrument( _instrument_track, &monstro_plugin_descriptor ),
m_osc1Vol( 33.0, 0.0, 200.0, 0.1, this, tr( "Osc 1 Volume" ) ),
m_osc1Pan( 0.0, -100.0, 100.0, 0.1, this, tr( "Osc 1 Panning" ) ),
m_osc1Crs( 0.0, -24.0, 24.0, 1.0, this, tr( "Osc 1 Coarse detune" ) ),
m_osc1Ftl( 0.0, -100.0, 100.0, 1.0, this, tr( "Osc 1 Fine detune left" ) ),
m_osc1Ftr( 0.0, -100.0, 100.0, 1.0, this, tr( "Osc 1 Fine detune right" ) ),
m_osc1Spo( 0.0, -180.0, 180.0, 0.1, this, tr( "Osc 1 Stereo phase offset" ) ),
m_osc1Pw( 50.0, PW_MIN, PW_MAX, 0.01, this, tr( "Osc 1 Pulse width" ) ),
m_osc1SSR( false, this, tr( "Osc 1 Sync send on rise" ) ),
m_osc1SSF( false, this, tr( "Osc 1 Sync send on fall" ) ),
m_osc2Vol( 33.0, 0.0, 200.0, 0.1, this, tr( "Osc 2 Volume" ) ),
m_osc2Pan( 0.0, -100.0, 100.0, 0.1, this, tr( "Osc 2 Panning" ) ),
m_osc2Crs( 0.0, -24.0, 24.0, 1.0, this, tr( "Osc 2 Coarse detune" ) ),
m_osc2Ftl( 0.0, -100.0, 100.0, 1.0, this, tr( "Osc 2 Fine detune left" ) ),
m_osc2Ftr( 0.0, -100.0, 100.0, 1.0, this, tr( "Osc 2 Fine detune right" ) ),
m_osc2Spo( 0.0, -180.0, 180.0, 0.1, this, tr( "Osc 2 Stereo phase offset" ) ),
m_osc2Wave( this, tr( "Osc 2 Waveform" ) ),
m_osc2SyncH( false, this, tr( "Osc 2 Sync Hard" ) ),
m_osc2SyncR( false, this, tr( "Osc 2 Sync Reverse" ) ),
m_osc3Vol( 33.0, 0.0, 200.0, 0.1, this, tr( "Osc 3 Volume" ) ),
m_osc3Pan( 0.0, -100.0, 100.0, 0.1, this, tr( "Osc 3 Panning" ) ),
m_osc3Crs( 0.0, -24.0, 24.0, 1.0, this, tr( "Osc 3 Coarse detune" ) ),
m_osc3Spo( 0.0, -180.0, 180.0, 0.1, this, tr( "Osc 3 Stereo phase offset" ) ),
m_osc3Sub( 0.0, -100.0, 100.0, 0.1, this, tr( "Osc 3 Sub-oscillator mix" ) ),
m_osc3Wave1( this, tr( "Osc 3 Waveform 1" ) ),
m_osc3Wave2( this, tr( "Osc 3 Waveform 2" ) ),
m_osc3SyncH( false, this, tr( "Osc 3 Sync Hard" ) ),
m_osc3SyncR( false, this, tr( "Osc 3 Sync Reverse" ) ),
m_lfo1Wave( this, tr( "LFO 1 Waveform" ) ),
m_lfo1Att( 0.0f, 0.0f, 2000.0f, 1.0f, 2000.0f, this, tr( "LFO 1 Attack" ) ),
m_lfo1Rate( 1.0f, 0.1, 10000.0, 0.1, 10000.0f, this, tr( "LFO 1 Rate" ) ),
m_lfo1Phs( 0.0, -180.0, 180.0, 0.1, this, tr( "LFO 1 Phase" ) ),
m_lfo2Wave( this, tr( "LFO 2 Waveform" ) ),
m_lfo2Att( 0.0f, 0.0f, 2000.0f, 1.0f, 2000.0f, this, tr( "LFO 2 Attack" ) ),
m_lfo2Rate( 1.0f, 0.1, 10000.0, 0.1, 10000.0f, this, tr( "LFO 2 Rate" ) ),
m_lfo2Phs( 0.0, -180.0, 180.0, 0.1, this, tr( "LFO 2 Phase" ) ),
m_env1Pre( 0.0f, 0.0f, 2000.0f, 1.0f, 2000.0f, this, tr( "Env 1 Pre-delay" ) ),
m_env1Att( 0.0f, 0.0f, 2000.0f, 1.0f, 2000.0f, this, tr( "Env 1 Attack" ) ),
m_env1Hold( 0.0f, 0.0f, 4000.0f, 1.0f, 4000.0f, this, tr( "Env 1 Hold" ) ),
m_env1Dec( 0.0f, 0.0f, 4000.0f, 1.0f, 4000.0f, this, tr( "Env 1 Decay" ) ),
m_env1Sus( 1.0f, 0.0f, 1.0f, 0.001f, this, tr( "Env 1 Sustain" ) ),
m_env1Rel( 0.0f, 0.0f, 4000.0f, 1.0f, 4000.0f, this, tr( "Env 1 Release" ) ),
m_env1Slope( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Env 1 Slope" ) ),
m_env2Pre( 0.0f, 0.0f, 2000.0f, 1.0f, 2000.0f, this, tr( "Env 2 Pre-delay" ) ),
m_env2Att( 0.0f, 0.0f, 2000.0f, 1.0f, 2000.0f, this, tr( "Env 2 Attack" ) ),
m_env2Hold( 0.0f, 0.0f, 4000.0f, 1.0f, 4000.0f, this, tr( "Env 2 Hold" ) ),
m_env2Dec( 0.0f, 0.0f, 4000.0f, 1.0f, 4000.0f, this, tr( "Env 2 Decay" ) ),
m_env2Sus( 1.0f, 0.0f, 1.0f, 0.001f, this, tr( "Env 2 Sustain" ) ),
m_env2Rel( 0.0f, 0.0f, 4000.0f, 1.0f, 4000.0f, this, tr( "Env 2 Release" ) ),
m_env2Slope( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Env 2 Slope" ) ),
m_o23Mod( 0, 0, NUM_MODS - 1, this, tr( "Osc2-3 modulation" ) ),
m_selectedView( 0, 0, 1, this, tr( "Selected view" ) ),
m_vol1env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol1-Env1" ) ),
m_vol1env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol1-Env2" ) ),
m_vol1lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol1-LFO1" ) ),
m_vol1lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol1-LFO2" ) ),
m_vol2env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol2-Env1" ) ),
m_vol2env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol2-Env2" ) ),
m_vol2lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol2-LFO1" ) ),
m_vol2lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol2-LFO2" ) ),
m_vol3env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol3-Env1" ) ),
m_vol3env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol3-Env2" ) ),
m_vol3lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol3-LFO1" ) ),
m_vol3lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Vol3-LFO2" ) ),
m_phs1env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs1-Env1" ) ),
m_phs1env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs1-Env2" ) ),
m_phs1lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs1-LFO1" ) ),
m_phs1lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs1-LFO2" ) ),
m_phs2env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs2-Env1" ) ),
m_phs2env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs2-Env2" ) ),
m_phs2lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs2-LFO1" ) ),
m_phs2lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs2-LFO2" ) ),
m_phs3env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs3-Env1" ) ),
m_phs3env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs3-Env2" ) ),
m_phs3lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs3-LFO1" ) ),
m_phs3lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Phs3-LFO2" ) ),
m_pit1env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit1-Env1" ) ),
m_pit1env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit1-Env2" ) ),
m_pit1lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit1-LFO1" ) ),
m_pit1lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit1-LFO2" ) ),
m_pit2env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit2-Env1" ) ),
m_pit2env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit2-Env2" ) ),
m_pit2lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit2-LFO1" ) ),
m_pit2lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit2-LFO2" ) ),
m_pit3env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit3-Env1" ) ),
m_pit3env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit3-Env2" ) ),
m_pit3lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit3-LFO1" ) ),
m_pit3lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Pit3-LFO2" ) ),
m_pw1env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "PW1-Env1" ) ),
m_pw1env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "PW1-Env2" ) ),
m_pw1lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "PW1-LFO1" ) ),
m_pw1lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "PW1-LFO2" ) ),
m_sub3env1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Sub3-Env1" ) ),
m_sub3env2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Sub3-Env2" ) ),
m_sub3lfo1( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Sub3-LFO1" ) ),
m_sub3lfo2( 0.0f, -1.0f, 1.0f, 0.001f, this, tr( "Sub3-LFO2" ) )
{
// setup waveboxes
setwavemodel( m_osc2Wave )
setwavemodel( m_osc3Wave1 )
setwavemodel( m_osc3Wave2 )
setlfowavemodel( m_lfo1Wave )
setlfowavemodel( m_lfo2Wave )
// make connections:
// updateVolumes
connect( &m_osc1Vol, SIGNAL( dataChanged() ), this, SLOT( updateVolume1() ) );
connect( &m_osc1Pan, SIGNAL( dataChanged() ), this, SLOT( updateVolume1() ) );
connect( &m_osc2Vol, SIGNAL( dataChanged() ), this, SLOT( updateVolume2() ) );
connect( &m_osc2Pan, SIGNAL( dataChanged() ), this, SLOT( updateVolume2() ) );
connect( &m_osc3Vol, SIGNAL( dataChanged() ), this, SLOT( updateVolume3() ) );
connect( &m_osc3Pan, SIGNAL( dataChanged() ), this, SLOT( updateVolume3() ) );
// updateFreq
connect( &m_osc1Crs, SIGNAL( dataChanged() ), this, SLOT( updateFreq1() ) );
connect( &m_osc2Crs, SIGNAL( dataChanged() ), this, SLOT( updateFreq2() ) );
connect( &m_osc3Crs, SIGNAL( dataChanged() ), this, SLOT( updateFreq3() ) );
connect( &m_osc1Ftl, SIGNAL( dataChanged() ), this, SLOT( updateFreq1() ) );
connect( &m_osc2Ftl, SIGNAL( dataChanged() ), this, SLOT( updateFreq2() ) );
connect( &m_osc1Ftr, SIGNAL( dataChanged() ), this, SLOT( updateFreq1() ) );
connect( &m_osc2Ftr, SIGNAL( dataChanged() ), this, SLOT( updateFreq2() ) );
// updatePO
connect( &m_osc1Spo, SIGNAL( dataChanged() ), this, SLOT( updatePO1() ) );
connect( &m_osc2Spo, SIGNAL( dataChanged() ), this, SLOT( updatePO2() ) );
connect( &m_osc3Spo, SIGNAL( dataChanged() ), this, SLOT( updatePO3() ) );
// updateEnvelope1
connect( &m_env1Pre, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope1() ) );
connect( &m_env1Att, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope1() ) );
connect( &m_env1Hold, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope1() ) );
connect( &m_env1Dec, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope1() ) );
connect( &m_env1Rel, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope1() ) );
connect( &m_env1Slope, SIGNAL( dataChanged() ), this, SLOT( updateSlope1() ) );
// updateEnvelope2
connect( &m_env2Pre, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope2() ) );
connect( &m_env2Att, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope2() ) );
connect( &m_env2Hold, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope2() ) );
connect( &m_env2Dec, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope2() ) );
connect( &m_env2Rel, SIGNAL( dataChanged() ), this, SLOT( updateEnvelope2() ) );
connect( &m_env2Slope, SIGNAL( dataChanged() ), this, SLOT( updateSlope2() ) );
// updateLFOAtts
connect( &m_lfo1Att, SIGNAL( dataChanged() ), this, SLOT( updateLFOAtts() ) );
connect( &m_lfo2Att, SIGNAL( dataChanged() ), this, SLOT( updateLFOAtts() ) );
// updateSampleRate
connect( engine::mixer(), SIGNAL( sampleRateChanged() ), this, SLOT( updateSamplerate() ) );
m_fpp = engine::mixer()->framesPerPeriod();
updateSamplerate();
updateVolume1();
updateVolume2();
updateVolume3();
updateFreq1();
updateFreq2();
updateFreq3();
updatePO1();
updatePO2();
updatePO3();
updateSlope1();
updateSlope2();
}
MonstroInstrument::~MonstroInstrument()
{
}
void MonstroInstrument::playNote( NotePlayHandle * _n,
sampleFrame * _working_buffer )
{
if ( _n->totalFramesPlayed() == 0 || _n->m_pluginData == NULL )
{
_n->m_pluginData = new MonstroSynth( this, _n );
}
const fpp_t frames = _n->framesLeftForCurrentPeriod();
MonstroSynth * ms = static_cast<MonstroSynth *>( _n->m_pluginData );
ms->renderOutput( frames, _working_buffer );
//applyRelease( _working_buffer, _n ); // we have our own release
instrumentTrack()->processAudioBuffer( _working_buffer, frames, _n );
}
void MonstroInstrument::deleteNotePluginData( NotePlayHandle * _n )
{
delete static_cast<MonstroSynth *>( _n->m_pluginData );
}
void MonstroInstrument::saveSettings( QDomDocument & _doc,
QDomElement & _this )
{
m_osc1Vol.saveSettings( _doc, _this, "o1vol" );
m_osc1Pan.saveSettings( _doc, _this, "o1pan" );
m_osc1Crs.saveSettings( _doc, _this, "o1crs" );
m_osc1Ftl.saveSettings( _doc, _this, "o1ftl" );
m_osc1Ftr.saveSettings( _doc, _this, "o1ftr" );
m_osc1Spo.saveSettings( _doc, _this, "o1spo" );
m_osc1Pw.saveSettings( _doc, _this, "o1pw" );
m_osc1SSR.saveSettings( _doc, _this, "o1ssr" );
m_osc1SSF.saveSettings( _doc, _this, "o1ssf" );
m_osc2Vol.saveSettings( _doc, _this, "o2vol" );
m_osc2Pan.saveSettings( _doc, _this, "o2pan" );
m_osc2Crs.saveSettings( _doc, _this, "o2crs" );
m_osc2Ftl.saveSettings( _doc, _this, "o2ftl" );
m_osc2Ftr.saveSettings( _doc, _this, "o2ftr" );
m_osc2Spo.saveSettings( _doc, _this, "o2spo" );
m_osc2Wave.saveSettings( _doc, _this, "o2wav" );
m_osc2SyncH.saveSettings( _doc, _this, "o2syn" );
m_osc2SyncR.saveSettings( _doc, _this, "o2synr" );
m_osc3Vol.saveSettings( _doc, _this, "o3vol" );
m_osc3Pan.saveSettings( _doc, _this, "o3pan" );
m_osc3Crs.saveSettings( _doc, _this, "o3crs" );
m_osc3Spo.saveSettings( _doc, _this, "o3spo" );
m_osc3Sub.saveSettings( _doc, _this, "o3sub" );
m_osc3Wave1.saveSettings( _doc, _this, "o3wav1" );
m_osc3Wave2.saveSettings( _doc, _this, "o3wav2" );
m_osc3SyncH.saveSettings( _doc, _this, "o3syn" );
m_osc3SyncR.saveSettings( _doc, _this, "o3synr" );
m_lfo1Wave.saveSettings( _doc, _this, "l1wav" );
m_lfo1Att.saveSettings( _doc, _this, "l1att" );
m_lfo1Rate.saveSettings( _doc, _this, "l1rat" );
m_lfo1Phs.saveSettings( _doc, _this, "l1phs" );
m_lfo2Wave.saveSettings( _doc, _this, "l2wav" );
m_lfo2Att.saveSettings( _doc, _this, "l2att" );
m_lfo2Rate.saveSettings( _doc, _this, "l2rat" );
m_lfo2Phs.saveSettings( _doc, _this, "l2phs" );
m_env1Pre.saveSettings( _doc, _this, "e1pre" );
m_env1Att.saveSettings( _doc, _this, "e1att" );
m_env1Hold.saveSettings( _doc, _this, "e1hol" );
m_env1Dec.saveSettings( _doc, _this, "e1dec" );
m_env1Sus.saveSettings( _doc, _this, "e1sus" );
m_env1Rel.saveSettings( _doc, _this, "e1rel" );
m_env1Slope.saveSettings( _doc, _this, "e1slo" );
m_env2Pre.saveSettings( _doc, _this, "e2pre" );
m_env2Att.saveSettings( _doc, _this, "e2att" );
m_env2Hold.saveSettings( _doc, _this, "e2hol" );
m_env2Dec.saveSettings( _doc, _this, "e2dec" );
m_env2Sus.saveSettings( _doc, _this, "e2sus" );
m_env2Rel.saveSettings( _doc, _this, "e2rel" );
m_env2Slope.saveSettings( _doc, _this, "e2slo" );
m_o23Mod.saveSettings( _doc, _this, "o23mo" );
m_vol1env1.saveSettings( _doc, _this, "v1e1" );
m_vol1env2.saveSettings( _doc, _this, "v1e2" );
m_vol1lfo1.saveSettings( _doc, _this, "v1l1" );
m_vol1lfo2.saveSettings( _doc, _this, "v1l2" );
m_vol2env1.saveSettings( _doc, _this, "v2e1" );
m_vol2env2.saveSettings( _doc, _this, "v2e2" );
m_vol2lfo1.saveSettings( _doc, _this, "v2l1" );
m_vol2lfo2.saveSettings( _doc, _this, "v2l2" );
m_vol3env1.saveSettings( _doc, _this, "v3e1" );
m_vol3env2.saveSettings( _doc, _this, "v3e2" );
m_vol3lfo1.saveSettings( _doc, _this, "v3l1" );
m_vol3lfo2.saveSettings( _doc, _this, "v3l2" );
m_phs1env1.saveSettings( _doc, _this, "p1e1" );
m_phs1env2.saveSettings( _doc, _this, "p1e2" );
m_phs1lfo1.saveSettings( _doc, _this, "p1l1" );
m_phs1lfo2.saveSettings( _doc, _this, "p1l2" );
m_phs2env1.saveSettings( _doc, _this, "p2e1" );
m_phs2env2.saveSettings( _doc, _this, "p2e2" );
m_phs2lfo1.saveSettings( _doc, _this, "p2l1" );
m_phs2lfo2.saveSettings( _doc, _this, "p2l2" );
m_phs3env1.saveSettings( _doc, _this, "p3e1" );
m_phs3env2.saveSettings( _doc, _this, "p3e2" );
m_phs3lfo1.saveSettings( _doc, _this, "p3l1" );
m_phs3lfo2.saveSettings( _doc, _this, "p3l2" );
m_pit1env1.saveSettings( _doc, _this, "f1e1" );
m_pit1env2.saveSettings( _doc, _this, "f1e2" );
m_pit1lfo1.saveSettings( _doc, _this, "f1l1" );
m_pit1lfo2.saveSettings( _doc, _this, "f1l2" );
m_pit2env1.saveSettings( _doc, _this, "f2e1" );
m_pit2env2.saveSettings( _doc, _this, "f2e2" );
m_pit2lfo1.saveSettings( _doc, _this, "f2l1" );
m_pit2lfo2.saveSettings( _doc, _this, "f2l2" );
m_pit3env1.saveSettings( _doc, _this, "f3e1" );
m_pit3env2.saveSettings( _doc, _this, "f3e2" );
m_pit3lfo1.saveSettings( _doc, _this, "f3l1" );
m_pit3lfo2.saveSettings( _doc, _this, "f3l2" );
m_pw1env1.saveSettings( _doc, _this, "w1e1" );
m_pw1env2.saveSettings( _doc, _this, "w1e2" );
m_pw1lfo1.saveSettings( _doc, _this, "w1l1" );
m_pw1lfo2.saveSettings( _doc, _this, "w1l2" );
m_sub3env1.saveSettings( _doc, _this, "s3e1" );
m_sub3env2.saveSettings( _doc, _this, "s3e2" );
m_sub3lfo1.saveSettings( _doc, _this, "s3l1" );
m_sub3lfo2.saveSettings( _doc, _this, "s3l2" );
}
void MonstroInstrument::loadSettings( const QDomElement & _this )
{
m_osc1Vol.loadSettings( _this, "o1vol" );
m_osc1Pan.loadSettings( _this, "o1pan" );
m_osc1Crs.loadSettings( _this, "o1crs" );
m_osc1Ftl.loadSettings( _this, "o1ftl" );
m_osc1Ftr.loadSettings( _this, "o1ftr" );
m_osc1Spo.loadSettings( _this, "o1spo" );
m_osc1Pw.loadSettings( _this, "o1pw" );
m_osc1SSR.loadSettings( _this, "o1ssr" );
m_osc1SSF.loadSettings( _this, "o1ssf" );
m_osc2Vol.loadSettings( _this, "o2vol" );
m_osc2Pan.loadSettings( _this, "o2pan" );
m_osc2Crs.loadSettings( _this, "o2crs" );
m_osc2Ftl.loadSettings( _this, "o2ftl" );
m_osc2Ftr.loadSettings( _this, "o2ftr" );
m_osc2Spo.loadSettings( _this, "o2spo" );
m_osc2Wave.loadSettings( _this, "o2wav" );
m_osc2SyncH.loadSettings( _this, "o2syn" );
m_osc2SyncR.loadSettings( _this, "o2synr" );
m_osc3Vol.loadSettings( _this, "o3vol" );
m_osc3Pan.loadSettings( _this, "o3pan" );
m_osc3Crs.loadSettings( _this, "o3crs" );
m_osc3Spo.loadSettings( _this, "o3spo" );
m_osc3Sub.loadSettings( _this, "o3sub" );
m_osc3Wave1.loadSettings( _this, "o3wav1" );
m_osc3Wave2.loadSettings( _this, "o3wav2" );
m_osc3SyncH.loadSettings( _this, "o3syn" );
m_osc3SyncR.loadSettings( _this, "o3synr" );
m_lfo1Wave.loadSettings( _this, "l1wav" );
m_lfo1Att.loadSettings( _this, "l1att" );
m_lfo1Rate.loadSettings( _this, "l1rat" );
m_lfo1Phs.loadSettings( _this, "l1phs" );
m_lfo2Wave.loadSettings( _this, "l2wav" );
m_lfo2Att.loadSettings( _this, "l2att" );
m_lfo2Rate.loadSettings( _this, "l2rat" );
m_lfo2Phs.loadSettings( _this, "l2phs" );
m_env1Pre.loadSettings( _this, "e1pre" );
m_env1Att.loadSettings( _this, "e1att" );
m_env1Hold.loadSettings( _this, "e1hol" );
m_env1Dec.loadSettings( _this, "e1dec" );
m_env1Sus.loadSettings( _this, "e1sus" );
m_env1Rel.loadSettings( _this, "e1rel" );
m_env1Slope.loadSettings( _this, "e1slo" );
m_env2Pre.loadSettings( _this, "e2pre" );
m_env2Att.loadSettings( _this, "e2att" );
m_env2Hold.loadSettings( _this, "e2hol" );
m_env2Dec.loadSettings( _this, "e2dec" );
m_env2Sus.loadSettings( _this, "e2sus" );
m_env2Rel.loadSettings( _this, "e2rel" );
m_env2Slope.loadSettings( _this, "e2slo" );
m_o23Mod.loadSettings( _this, "o23mo" );
m_vol1env1.loadSettings( _this, "v1e1" );
m_vol1env2.loadSettings( _this, "v1e2" );
m_vol1lfo1.loadSettings( _this, "v1l1" );
m_vol1lfo2.loadSettings( _this, "v1l2" );
m_vol2env1.loadSettings( _this, "v2e1" );
m_vol2env2.loadSettings( _this, "v2e2" );
m_vol2lfo1.loadSettings( _this, "v2l1" );
m_vol2lfo2.loadSettings( _this, "v2l2" );
m_vol3env1.loadSettings( _this, "v3e1" );
m_vol3env2.loadSettings( _this, "v3e2" );
m_vol3lfo1.loadSettings( _this, "v3l1" );
m_vol3lfo2.loadSettings( _this, "v3l2" );
m_phs1env1.loadSettings( _this, "p1e1" );
m_phs1env2.loadSettings( _this, "p1e2" );
m_phs1lfo1.loadSettings( _this, "p1l1" );
m_phs1lfo2.loadSettings( _this, "p1l2" );
m_phs2env1.loadSettings( _this, "p2e1" );
m_phs2env2.loadSettings( _this, "p2e2" );
m_phs2lfo1.loadSettings( _this, "p2l1" );
m_phs2lfo2.loadSettings( _this, "p2l2" );
m_phs3env1.loadSettings( _this, "p3e1" );
m_phs3env2.loadSettings( _this, "p3e2" );
m_phs3lfo1.loadSettings( _this, "p3l1" );
m_phs3lfo2.loadSettings( _this, "p3l2" );
m_pit1env1.loadSettings( _this, "f1e1" );
m_pit1env2.loadSettings( _this, "f1e2" );
m_pit1lfo1.loadSettings( _this, "f1l1" );
m_pit1lfo2.loadSettings( _this, "f1l2" );
m_pit2env1.loadSettings( _this, "f2e1" );
m_pit2env2.loadSettings( _this, "f2e2" );
m_pit2lfo1.loadSettings( _this, "f2l1" );
m_pit2lfo2.loadSettings( _this, "f2l2" );
m_pit3env1.loadSettings( _this, "f3e1" );
m_pit3env2.loadSettings( _this, "f3e2" );
m_pit3lfo1.loadSettings( _this, "f3l1" );
m_pit3lfo2.loadSettings( _this, "f3l2" );
m_pw1env1.loadSettings( _this, "w1e1" );
m_pw1env2.loadSettings( _this, "w1e2" );
m_pw1lfo1.loadSettings( _this, "w1l1" );
m_pw1lfo2.loadSettings( _this, "w1l2" );
m_sub3env1.loadSettings( _this, "s3e1" );
m_sub3env2.loadSettings( _this, "s3e2" );
m_sub3lfo1.loadSettings( _this, "s3l1" );
m_sub3lfo2.loadSettings( _this, "s3l2" );
}
QString MonstroInstrument::nodeName() const
{
return monstro_plugin_descriptor.name;
}
f_cnt_t MonstroInstrument::desiredReleaseFrames() const
{
return qMax( 64, qMax( m_env1_relF, m_env2_relF ) );
}
PluginView * MonstroInstrument::instantiateView( QWidget * _parent )
{
return( new MonstroView( this, _parent ) );
}
void MonstroInstrument::updateVolume1()
{
m_osc1l_vol = leftCh( m_osc1Vol.value(), m_osc1Pan.value() );
m_osc1r_vol = rightCh( m_osc1Vol.value(), m_osc1Pan.value() );
}
void MonstroInstrument::updateVolume2()
{
m_osc2l_vol = leftCh( m_osc2Vol.value(), m_osc2Pan.value() );
m_osc2r_vol = rightCh( m_osc2Vol.value(), m_osc2Pan.value() );
}
void MonstroInstrument::updateVolume3()
{
m_osc3l_vol = leftCh( m_osc3Vol.value(), m_osc3Pan.value() );
m_osc3r_vol = rightCh( m_osc3Vol.value(), m_osc3Pan.value() );
}
void MonstroInstrument::updateFreq1()
{
m_osc1l_freq = powf( 2.0f, m_osc1Crs.value() / 12.0f ) *
powf( 2.0f, m_osc1Ftl.value() / 1200.0f );
m_osc1r_freq = powf( 2.0f, m_osc1Crs.value() / 12.0f ) *
powf( 2.0f, m_osc1Ftr.value() / 1200.0f );
}
void MonstroInstrument::updateFreq2()
{
m_osc2l_freq = powf( 2.0f, m_osc2Crs.value() / 12.0f ) *
powf( 2.0f, m_osc2Ftl.value() / 1200.0f );
m_osc2r_freq = powf( 2.0f, m_osc2Crs.value() / 12.0f ) *
powf( 2.0f, m_osc2Ftr.value() / 1200.0f );
}
void MonstroInstrument::updateFreq3()
{
m_osc3_freq = powf( 2.0f, m_osc3Crs.value() / 12.0f );
}
void MonstroInstrument::updatePO1()
{
m_osc1l_po = m_osc1Spo.value() / 720.0f;
m_osc1r_po = ( m_osc1Spo.value() * -1.0 ) / 720.0f;
}
void MonstroInstrument::updatePO2()
{
m_osc2l_po = m_osc2Spo.value() / 720.0f;
m_osc2r_po = ( m_osc2Spo.value() * -1.0 ) / 720.0f;
}
void MonstroInstrument::updatePO3()
{
m_osc3l_po = m_osc3Spo.value() / 720.0f;
m_osc3r_po = ( m_osc3Spo.value() * -1.0 ) / 720.0f;
}
void MonstroInstrument::updateEnvelope1()
{
if( m_env1Pre.value() == 0.0f ) m_env1_pre = 1.0;
else m_env1_pre = 1.0f / ( m_env1Pre.value() / 1000.0f ) / m_samplerate;
if( m_env1Att.value() == 0.0f ) m_env1_att = 1.0;
else m_env1_att = 1.0f / ( m_env1Att.value() / 1000.0f ) / m_samplerate;
if( m_env1Hold.value() == 0.0f ) m_env1_hold = 1.0;
else m_env1_hold = 1.0f / ( m_env1Hold.value() / 1000.0f ) / m_samplerate;
if( m_env1Dec.value() == 0.0f ) m_env1_dec = 1.0;
else m_env1_dec = 1.0f / ( m_env1Dec.value() / 1000.0f ) / m_samplerate;
if( m_env1Rel.value() == 0.0f ) m_env1_rel = 1.0;
else m_env1_rel = 1.0f / ( m_env1Rel.value() / 1000.0f ) / m_samplerate;
m_env1_len = ( m_env1Pre.value() + m_env1Att.value() + m_env1Hold.value() + m_env1Dec.value() ) * m_samplerate / 1000.0f;
m_env1_relF = m_env1Rel.value() * m_samplerate / 1000.0f;
}
void MonstroInstrument::updateEnvelope2()
{
if( m_env2Pre.value() == 0.0f ) m_env2_pre = 1.0;
else m_env2_pre = 1.0f / ( m_env2Pre.value() / 1000.0f ) / m_samplerate;
if( m_env2Att.value() == 0.0f ) m_env2_att = 1.0;
else m_env2_att = 1.0f / ( m_env2Att.value() / 1000.0f ) / m_samplerate;
if( m_env2Hold.value() == 0.0f ) m_env2_hold = 1.0;
else m_env2_hold = 1.0f / ( m_env2Hold.value() / 1000.0f ) / m_samplerate;
if( m_env2Dec.value() == 0.0f ) m_env2_dec = 1.0;
else m_env2_dec = 1.0f / ( m_env2Dec.value() / 1000.0f ) / m_samplerate;
if( m_env2Rel.value() == 0.0f ) m_env2_rel = 1.0;
else m_env2_rel = 1.0f / ( m_env2Rel.value() / 1000.0f ) / m_samplerate;
m_env2_len = ( m_env2Pre.value() + m_env2Att.value() + m_env2Hold.value() + m_env2Dec.value() ) * m_samplerate / 1000.0f;
m_env2_relF = m_env2Rel.value() * m_samplerate / 1000.0f;
}
void MonstroInstrument::updateLFOAtts()
{
m_lfo1_att = m_lfo1Att.value() * m_samplerate / 1000.0f;
m_lfo2_att = m_lfo2Att.value() * m_samplerate / 1000.0f;
}
void MonstroInstrument::updateSamplerate()
{
m_samplerate = engine::mixer()->processingSampleRate();
m_integrator = 0.5f - ( 0.5f - INTEGRATOR ) * 44100.0f / m_samplerate;
m_fmCorrection = 44100.f / m_samplerate * FM_AMOUNT;
m_counterMax = ( m_samplerate * 5 ) / 44100;
updateEnvelope1();
updateEnvelope2();
updateLFOAtts();
}
void MonstroInstrument::updateSlope1()
{
const float slope = m_env1Slope.value();
m_slope[0] = exp10f( slope * -1.0f );
}
void MonstroInstrument::updateSlope2()
{
const float slope = m_env2Slope.value();
m_slope[1] = exp10f( slope * -1.0f );
}
MonstroView::MonstroView( Instrument * _instrument,
QWidget * _parent ) :
InstrumentView( _instrument, _parent )
{
m_operatorsView = setupOperatorsView( this );
setWidgetBackground( m_operatorsView, "artwork_op" );
m_operatorsView->show();
m_operatorsView->move( 0, 0 );
m_matrixView = setupMatrixView( this );
setWidgetBackground( m_matrixView, "artwork_mat" );
m_matrixView->hide();
m_matrixView->move( 0, 0 );
// "tab buttons"
pixmapButton * m_opViewButton = new pixmapButton( this, NULL );
m_opViewButton -> move( 0,0 );
m_opViewButton -> setActiveGraphic( PLUGIN_NAME::getIconPixmap( "opview_active" ) );
m_opViewButton -> setInactiveGraphic( PLUGIN_NAME::getIconPixmap( "opview_inactive" ) );
toolTip::add( m_opViewButton, tr( "Operators view" ) );
m_opViewButton -> setWhatsThis( tr( "The Operators view contains all the operators. These include both audible "
"operators (oscillators) and inaudible operators, or modulators: "
"Low-frequency oscillators and Envelopes. \n\n"
"Knobs and other widgets in the Operators view have their own what's this -texts, "
"so you can get more specific help for them that way. " ) );
pixmapButton * m_matViewButton = new pixmapButton( this, NULL );
m_matViewButton -> move( 125,0 );
m_matViewButton -> setActiveGraphic( PLUGIN_NAME::getIconPixmap( "matview_active" ) );
m_matViewButton -> setInactiveGraphic( PLUGIN_NAME::getIconPixmap( "matview_inactive" ) );
toolTip::add( m_matViewButton, tr( "Matrix view" ) );
m_matViewButton -> setWhatsThis( tr( "The Matrix view contains the modulation matrix. Here you can define "
"the modulation relationships between the various operators: Each "
"audible operator (oscillators 1-3) has 3-4 properties that can be "
"modulated by any of the modulators. Using more modulations consumes "
"more CPU power. \n\n"
"The view is divided to modulation targets, grouped by the target oscillator. "
"Available targets are volume, pitch, phase, pulse width and sub-osc ratio. "
"Note: some targets are specific to one oscillator only. \n\n"
"Each modulation target has 4 knobs, one for each modulator. By default "
"the knobs are at 0, which means no modulation. Turning a knob to 1 causes "
"that modulator to affect the modulation target as much as possible. Turning "
"it to -1 does the same, but the modulation is inversed. " ) );
m_selectedViewGroup = new automatableButtonGroup( this );
m_selectedViewGroup -> addButton( m_opViewButton );
m_selectedViewGroup -> addButton( m_matViewButton );
connect( m_opViewButton, SIGNAL( clicked() ), this, SLOT( updateLayout() ) );
connect( m_matViewButton, SIGNAL( clicked() ), this, SLOT( updateLayout() ) );
}
MonstroView::~MonstroView()
{
}
void MonstroView::updateLayout()
{
switch( m_selectedViewGroup->model()->value() )
{
case OPVIEW:
m_operatorsView->show();
m_matrixView->hide();
break;
case MATVIEW:
m_operatorsView->hide();
m_matrixView->show();
break;
}
}
void MonstroView::modelChanged()
{
MonstroInstrument * m = castModel<MonstroInstrument>();
m_osc1VolKnob-> setModel( &m-> m_osc1Vol );
m_osc1PanKnob-> setModel( &m-> m_osc1Pan );
m_osc1CrsKnob-> setModel( &m-> m_osc1Crs );
m_osc1FtlKnob-> setModel( &m-> m_osc1Ftl );
m_osc1FtrKnob-> setModel( &m-> m_osc1Ftr );
m_osc1SpoKnob-> setModel( &m-> m_osc1Spo );
m_osc1PwKnob-> setModel( &m-> m_osc1Pw );
m_osc1SSRButton-> setModel( &m-> m_osc1SSR );
m_osc1SSFButton-> setModel( &m-> m_osc1SSF );
m_osc2VolKnob-> setModel( &m-> m_osc2Vol );
m_osc2PanKnob-> setModel( &m-> m_osc2Pan );
m_osc2CrsKnob-> setModel( &m-> m_osc2Crs );
m_osc2FtlKnob-> setModel( &m-> m_osc2Ftl );
m_osc2FtrKnob-> setModel( &m-> m_osc2Ftr );
m_osc2SpoKnob-> setModel( &m-> m_osc2Spo );
m_osc2WaveBox-> setModel( &m-> m_osc2Wave );
m_osc2SyncHButton-> setModel( &m-> m_osc2SyncH );
m_osc2SyncRButton-> setModel( &m-> m_osc2SyncR );
m_osc3VolKnob-> setModel( &m-> m_osc3Vol );
m_osc3PanKnob-> setModel( &m-> m_osc3Pan );
m_osc3CrsKnob-> setModel( &m-> m_osc3Crs );
m_osc3SpoKnob-> setModel( &m-> m_osc3Spo );
m_osc3SubKnob-> setModel( &m-> m_osc3Sub );
m_osc3Wave1Box-> setModel( &m-> m_osc3Wave1 );
m_osc3Wave2Box-> setModel( &m-> m_osc3Wave2 );
m_osc3SyncHButton-> setModel( &m-> m_osc3SyncH );
m_osc3SyncRButton-> setModel( &m-> m_osc3SyncR );
m_lfo1WaveBox-> setModel( &m-> m_lfo1Wave );
m_lfo1AttKnob-> setModel( &m-> m_lfo1Att );
m_lfo1RateKnob-> setModel( &m-> m_lfo1Rate );
m_lfo1PhsKnob-> setModel( &m-> m_lfo1Phs );
m_lfo2WaveBox-> setModel( &m-> m_lfo2Wave );
m_lfo2AttKnob-> setModel( &m-> m_lfo2Att );
m_lfo2RateKnob-> setModel( &m-> m_lfo2Rate );
m_lfo2PhsKnob-> setModel( &m-> m_lfo2Phs );
m_env1PreKnob-> setModel( &m-> m_env1Pre );
m_env1AttKnob-> setModel( &m-> m_env1Att );
m_env1HoldKnob-> setModel( &m-> m_env1Hold );
m_env1DecKnob-> setModel( &m-> m_env1Dec );
m_env1SusKnob-> setModel( &m-> m_env1Sus );
m_env1RelKnob-> setModel( &m-> m_env1Rel );
m_env1SlopeKnob-> setModel( &m-> m_env1Slope );
m_env2PreKnob-> setModel( &m-> m_env2Pre );
m_env2AttKnob-> setModel( &m-> m_env2Att );
m_env2HoldKnob-> setModel( &m-> m_env2Hold );
m_env2DecKnob-> setModel( &m-> m_env2Dec );
m_env2SusKnob-> setModel( &m-> m_env2Sus );
m_env2RelKnob-> setModel( &m-> m_env2Rel );
m_env2SlopeKnob-> setModel( &m-> m_env2Slope );
m_o23ModGroup-> setModel( &m-> m_o23Mod );
m_selectedViewGroup-> setModel( &m-> m_selectedView );
m_vol1env1Knob-> setModel( &m-> m_vol1env1 );
m_vol1env2Knob-> setModel( &m-> m_vol1env2 );
m_vol1lfo1Knob-> setModel( &m-> m_vol1lfo1 );
m_vol1lfo2Knob-> setModel( &m-> m_vol1lfo2 );
m_vol2env1Knob-> setModel( &m-> m_vol2env1 );
m_vol2env2Knob-> setModel( &m-> m_vol2env2 );
m_vol2lfo1Knob-> setModel( &m-> m_vol2lfo1 );
m_vol2lfo2Knob-> setModel( &m-> m_vol2lfo2 );
m_vol3env1Knob-> setModel( &m-> m_vol3env1 );
m_vol3env2Knob-> setModel( &m-> m_vol3env2 );
m_vol3lfo1Knob-> setModel( &m-> m_vol3lfo1 );
m_vol3lfo2Knob-> setModel( &m-> m_vol3lfo2 );
m_phs1env1Knob-> setModel( &m-> m_phs1env1 );
m_phs1env2Knob-> setModel( &m-> m_phs1env2 );
m_phs1lfo1Knob-> setModel( &m-> m_phs1lfo1 );
m_phs1lfo2Knob-> setModel( &m-> m_phs1lfo2 );
m_phs2env1Knob-> setModel( &m-> m_phs2env1 );
m_phs2env2Knob-> setModel( &m-> m_phs2env2 );
m_phs2lfo1Knob-> setModel( &m-> m_phs2lfo1 );
m_phs2lfo2Knob-> setModel( &m-> m_phs2lfo2 );
m_phs3env1Knob-> setModel( &m-> m_phs3env1 );
m_phs3env2Knob-> setModel( &m-> m_phs3env2 );
m_phs3lfo1Knob-> setModel( &m-> m_phs3lfo1 );
m_phs3lfo2Knob-> setModel( &m-> m_phs3lfo2 );
m_pit1env1Knob-> setModel( &m-> m_pit1env1 );
m_pit1env2Knob-> setModel( &m-> m_pit1env2 );
m_pit1lfo1Knob-> setModel( &m-> m_pit1lfo1 );
m_pit1lfo2Knob-> setModel( &m-> m_pit1lfo2 );
m_pit2env1Knob-> setModel( &m-> m_pit2env1 );
m_pit2env2Knob-> setModel( &m-> m_pit2env2 );
m_pit2lfo1Knob-> setModel( &m-> m_pit2lfo1 );
m_pit2lfo2Knob-> setModel( &m-> m_pit2lfo2 );
m_pit3env1Knob-> setModel( &m-> m_pit3env1 );
m_pit3env2Knob-> setModel( &m-> m_pit3env2 );
m_pit3lfo1Knob-> setModel( &m-> m_pit3lfo1 );
m_pit3lfo2Knob-> setModel( &m-> m_pit3lfo2 );
m_pw1env1Knob-> setModel( &m-> m_pw1env1 );
m_pw1env2Knob-> setModel( &m-> m_pw1env2 );
m_pw1lfo1Knob-> setModel( &m-> m_pw1lfo1 );
m_pw1lfo2Knob-> setModel( &m-> m_pw1lfo2 );
m_sub3env1Knob-> setModel( &m-> m_sub3env1 );
m_sub3env2Knob-> setModel( &m-> m_sub3env2 );
m_sub3lfo1Knob-> setModel( &m-> m_sub3lfo1 );
m_sub3lfo2Knob-> setModel( &m-> m_sub3lfo2 );
}
void MonstroView::setWidgetBackground( QWidget * _widget, const QString & _pic )
{
_widget->setAutoFillBackground( true );
QPalette pal;
pal.setBrush( _widget->backgroundRole(),
PLUGIN_NAME::getIconPixmap( _pic.toAscii().constData() ) );
_widget->setPalette( pal );
}
QWidget * MonstroView::setupOperatorsView( QWidget * _parent )
{
// operators view
QWidget * view = new QWidget( _parent );
view-> setFixedSize( 250, 250 );
makeknob( m_osc1VolKnob, KNOBCOL1, O1ROW, "Volume", "%", "osc1Knob" )
makeknob( m_osc1PanKnob, KNOBCOL2, O1ROW, "Panning", "", "osc1Knob" )
makeknob( m_osc1CrsKnob, KNOBCOL3, O1ROW, "Coarse detune", " semitones", "osc1Knob" )
makeknob( m_osc1FtlKnob, KNOBCOL4, O1ROW, "Finetune left", " cents", "osc1Knob" )
makeknob( m_osc1FtrKnob, KNOBCOL5, O1ROW, "Finetune right", " cents", "osc1Knob" )
makeknob( m_osc1SpoKnob, KNOBCOL6, O1ROW, "Stereo phase offset", " deg", "osc1Knob" )
makeknob( m_osc1PwKnob, KNOBCOL7, O1ROW, "Pulse width", "%", "osc1Knob" )
m_osc1VolKnob -> setVolumeKnob( true );
maketinyled( m_osc1SSRButton, 230, 34, "Send sync on pulse rise" )
maketinyled( m_osc1SSFButton, 230, 44, "Send sync on pulse fall" )
makeknob( m_osc2VolKnob, KNOBCOL1, O2ROW, "Volume", "%", "osc2Knob" )
makeknob( m_osc2PanKnob, KNOBCOL2, O2ROW, "Panning", "", "osc2Knob" )
makeknob( m_osc2CrsKnob, KNOBCOL3, O2ROW, "Coarse detune", " semitones", "osc2Knob" )
makeknob( m_osc2FtlKnob, KNOBCOL4, O2ROW, "Finetune left", " cents", "osc2Knob" )
makeknob( m_osc2FtrKnob, KNOBCOL5, O2ROW, "Finetune right", " cents", "osc2Knob" )
makeknob( m_osc2SpoKnob, KNOBCOL6, O2ROW, "Stereo phase offset", " deg", "osc2Knob" )
m_osc2VolKnob -> setVolumeKnob( true );
m_osc2WaveBox = new comboBox( view );
m_osc2WaveBox -> setGeometry( 204, O2ROW + 7, 42, 22 );
m_osc2WaveBox->setFont( pointSize<8>( m_osc2WaveBox->font() ) );
maketinyled( m_osc2SyncHButton, 212, O2ROW - 3, "Hard sync oscillator 2" )
maketinyled( m_osc2SyncRButton, 191, O2ROW - 3, "Reverse sync oscillator 2" )
makeknob( m_osc3VolKnob, KNOBCOL1, O3ROW, "Volume", "%", "osc3Knob" )
makeknob( m_osc3PanKnob, KNOBCOL2, O3ROW, "Panning", "", "osc3Knob" )
makeknob( m_osc3CrsKnob, KNOBCOL3, O3ROW, "Coarse detune", " semitones", "osc3Knob" )
makeknob( m_osc3SpoKnob, KNOBCOL4, O3ROW, "Stereo phase offset", " deg", "osc3Knob" )
makeknob( m_osc3SubKnob, KNOBCOL5, O3ROW, "Sub-osc mix", "", "osc3Knob" )
m_osc3Wave1Box = new comboBox( view );
m_osc3Wave1Box -> setGeometry( 160, O3ROW + 7, 42, 22 );
m_osc3Wave1Box->setFont( pointSize<8>( m_osc3Wave1Box->font() ) );
m_osc3Wave2Box = new comboBox( view );
m_osc3Wave2Box -> setGeometry( 204, O3ROW + 7, 42, 22 );
m_osc3Wave2Box->setFont( pointSize<8>( m_osc3Wave2Box->font() ) );
maketinyled( m_osc3SyncHButton, 212, O3ROW - 3, "Hard sync oscillator 3" )
maketinyled( m_osc3SyncRButton, 191, O3ROW - 3, "Reverse sync oscillator 3" )
m_lfo1WaveBox = new comboBox( view );
m_lfo1WaveBox -> setGeometry( 2, LFOROW + 7, 42, 22 );
m_lfo1WaveBox->setFont( pointSize<8>( m_lfo1WaveBox->font() ) );
maketsknob( m_lfo1AttKnob, LFOCOL1, LFOROW, "Attack", " ms", "lfoKnob" )
maketsknob( m_lfo1RateKnob, LFOCOL2, LFOROW, "Rate", " ms", "lfoKnob" )
makeknob( m_lfo1PhsKnob, LFOCOL3, LFOROW, "Phase", " deg", "lfoKnob" )
m_lfo2WaveBox = new comboBox( view );
m_lfo2WaveBox -> setGeometry( 127, LFOROW + 7, 42, 22 );
m_lfo2WaveBox->setFont( pointSize<8>( m_lfo2WaveBox->font() ) );
maketsknob( m_lfo2AttKnob, LFOCOL4, LFOROW, "Attack", " ms", "lfoKnob" )
maketsknob( m_lfo2RateKnob, LFOCOL5, LFOROW, "Rate", " ms", "lfoKnob" )
makeknob( m_lfo2PhsKnob, LFOCOL6, LFOROW, "Phase", " deg", "lfoKnob" )
maketsknob( m_env1PreKnob, KNOBCOL1, E1ROW, "Pre-delay", " ms", "envKnob" )
maketsknob( m_env1AttKnob, KNOBCOL2, E1ROW, "Attack", " ms", "envKnob" )
maketsknob( m_env1HoldKnob, KNOBCOL3, E1ROW, "Hold", " ms", "envKnob" )
maketsknob( m_env1DecKnob, KNOBCOL4, E1ROW, "Decay", " ms", "envKnob" )
makeknob( m_env1SusKnob, KNOBCOL5, E1ROW, "Sustain", "", "envKnob" )
maketsknob( m_env1RelKnob, KNOBCOL6, E1ROW, "Release", " ms", "envKnob" )
makeknob( m_env1SlopeKnob, KNOBCOL7, E1ROW, "Slope", "", "envKnob" )
maketsknob( m_env2PreKnob, KNOBCOL1, E2ROW, "Pre-delay", " ms", "envKnob" )
maketsknob( m_env2AttKnob, KNOBCOL2, E2ROW, "Attack", " ms", "envKnob" )
maketsknob( m_env2HoldKnob, KNOBCOL3, E2ROW, "Hold", " ms", "envKnob" )
maketsknob( m_env2DecKnob, KNOBCOL4, E2ROW, "Decay", " ms", "envKnob" )
makeknob( m_env2SusKnob, KNOBCOL5, E2ROW, "Sustain", "", "envKnob" )
maketsknob( m_env2RelKnob, KNOBCOL6, E2ROW, "Release", " ms", "envKnob" )
makeknob( m_env2SlopeKnob, KNOBCOL7, E2ROW, "Slope", "", "envKnob" )
// mod selector
pixmapButton * m_mixButton = new pixmapButton( view, NULL );
m_mixButton -> move( 225, 185 );
m_mixButton -> setActiveGraphic( PLUGIN_NAME::getIconPixmap( "mix_active" ) );
m_mixButton -> setInactiveGraphic( PLUGIN_NAME::getIconPixmap( "mix_inactive" ) );
toolTip::add( m_mixButton, tr( "Mix Osc2 with Osc3" ) );
pixmapButton * m_amButton = new pixmapButton( view, NULL );
m_amButton -> move( 225, 185 + 15 );
m_amButton -> setActiveGraphic( PLUGIN_NAME::getIconPixmap( "am_active" ) );
m_amButton -> setInactiveGraphic( PLUGIN_NAME::getIconPixmap( "am_inactive" ) );
toolTip::add( m_amButton, tr( "Modulate amplitude of Osc3 with Osc2" ) );
pixmapButton * m_fmButton = new pixmapButton( view, NULL );
m_fmButton -> move( 225, 185 + 15*2 );
m_fmButton -> setActiveGraphic( PLUGIN_NAME::getIconPixmap( "fm_active" ) );
m_fmButton -> setInactiveGraphic( PLUGIN_NAME::getIconPixmap( "fm_inactive" ) );
toolTip::add( m_fmButton, tr( "Modulate frequency of Osc3 with Osc2" ) );
pixmapButton * m_pmButton = new pixmapButton( view, NULL );
m_pmButton -> move( 225, 185 + 15*3 );
m_pmButton -> setActiveGraphic( PLUGIN_NAME::getIconPixmap( "pm_active" ) );
m_pmButton -> setInactiveGraphic( PLUGIN_NAME::getIconPixmap( "pm_inactive" ) );
toolTip::add( m_pmButton, tr( "Modulate phase of Osc3 with Osc2" ) );
m_o23ModGroup = new automatableButtonGroup( view );
m_o23ModGroup-> addButton( m_mixButton );
m_o23ModGroup-> addButton( m_amButton );
m_o23ModGroup-> addButton( m_fmButton );
m_o23ModGroup-> addButton( m_pmButton );
////////////////////////////////////
// //
// whatsthis-information strings //
// //
////////////////////////////////////
m_osc1CrsKnob -> setWhatsThis( tr( "The CRS knob changes the tuning of oscillator 1 in semitone steps. " ) );
m_osc2CrsKnob -> setWhatsThis( tr( "The CRS knob changes the tuning of oscillator 2 in semitone steps. " ) );
m_osc3CrsKnob -> setWhatsThis( tr( "The CRS knob changes the tuning of oscillator 3 in semitone steps. " ) );
m_osc1FtlKnob -> setWhatsThis( tr( "FTL and FTR change the finetuning of the oscillator for left and right "
"channels respectively. These can add stereo-detuning to the oscillator "
"which widens the stereo image and causes an illusion of space. " ) );
m_osc1FtrKnob -> setWhatsThis( tr( "FTL and FTR change the finetuning of the oscillator for left and right "
"channels respectively. These can add stereo-detuning to the oscillator "
"which widens the stereo image and causes an illusion of space. " ) );
m_osc2FtlKnob -> setWhatsThis( tr( "FTL and FTR change the finetuning of the oscillator for left and right "
"channels respectively. These can add stereo-detuning to the oscillator "
"which widens the stereo image and causes an illusion of space. " ) );
m_osc2FtrKnob -> setWhatsThis( tr( "FTL and FTR change the finetuning of the oscillator for left and right "
"channels respectively. These can add stereo-detuning to the oscillator "
"which widens the stereo image and causes an illusion of space. " ) );
m_osc1SpoKnob -> setWhatsThis( tr( "The SPO knob modifies the difference in phase between left and right "
"channels. Higher difference creates a wider stereo image. " ) );
m_osc2SpoKnob -> setWhatsThis( tr( "The SPO knob modifies the difference in phase between left and right "
"channels. Higher difference creates a wider stereo image. " ) );
m_osc3SpoKnob -> setWhatsThis( tr( "The SPO knob modifies the difference in phase between left and right "
"channels. Higher difference creates a wider stereo image. " ) );
m_osc1PwKnob -> setWhatsThis( tr( "The PW knob controls the pulse width, also known as duty cycle, "
"of oscillator 1. Oscillator 1 is a digital pulse wave oscillator, "
"it doesn't produce bandlimited output, which means that you can "
"use it as an audible oscillator but it will cause aliasing. You can "
"also use it as an inaudible source of a sync signal, which can be "
"used to synchronize oscillators 2 and 3. " ) );
m_osc1SSRButton -> setWhatsThis( tr( "Send Sync on Rise: When enabled, the Sync signal is sent every time "
"the state of oscillator 1 changes from low to high, ie. when the amplitude "
"changes from -1 to 1. "
"Oscillator 1's pitch, phase and pulse width may affect the timing of syncs, "
"but its volume has no effect on them. Sync signals are sent independently "
"for both left and right channels. " ) );
m_osc1SSFButton -> setWhatsThis( tr( "Send Sync on Fall: When enabled, the Sync signal is sent every time "
"the state of oscillator 1 changes from high to low, ie. when the amplitude "
"changes from 1 to -1. "
"Oscillator 1's pitch, phase and pulse width may affect the timing of syncs, "
"but its volume has no effect on them. Sync signals are sent independently "
"for both left and right channels. " ) );
m_osc2SyncHButton -> setWhatsThis( tr( "Hard sync: Every time the oscillator receives a sync signal from oscillator 1, "
"its phase is reset to 0 + whatever its phase offset is. " ) );
m_osc3SyncHButton -> setWhatsThis( tr( "Hard sync: Every time the oscillator receives a sync signal from oscillator 1, "
"its phase is reset to 0 + whatever its phase offset is. " ) );
m_osc2SyncRButton -> setWhatsThis( tr( "Reverse sync: Every time the oscillator receives a sync signal from oscillator 1, "
"the amplitude of the oscillator gets inverted. " ) );
m_osc3SyncRButton -> setWhatsThis( tr( "Reverse sync: Every time the oscillator receives a sync signal from oscillator 1, "
"the amplitude of the oscillator gets inverted. " ) );
m_osc2WaveBox -> setWhatsThis( tr( "Choose waveform for oscillator 2. " ) );
m_osc3Wave1Box -> setWhatsThis( tr( "Choose waveform for oscillator 3's first sub-osc. "
"Oscillator 3 can smoothly interpolate between two different waveforms. " ) );
m_osc3Wave2Box -> setWhatsThis( tr( "Choose waveform for oscillator 3's second sub-osc. "
"Oscillator 3 can smoothly interpolate between two different waveforms. " ) );
m_osc3SubKnob -> setWhatsThis( tr( "The SUB knob changes the mixing ratio of the two sub-oscs of oscillator 3. "
"Each sub-osc can be set to produce a different waveform, and oscillator 3 "
"can smoothly interpolate between them. All incoming modulations to oscillator 3 are applied "
"to both sub-oscs/waveforms in the exact same way. " ) );
m_mixButton -> setWhatsThis( tr( "In addition to dedicated modulators, Monstro allows oscillator 3 to be modulated by "
"the output of oscillator 2. \n\n"
"Mix mode means no modulation: the outputs of the oscillators are simply mixed together. " ) );
m_amButton -> setWhatsThis( tr( "In addition to dedicated modulators, Monstro allows oscillator 3 to be modulated by "
"the output of oscillator 2. \n\n"
"AM means amplitude modulation: Oscillator 3's amplitude (volume) is modulated by oscillator 2. " ) );
m_fmButton -> setWhatsThis( tr( "In addition to dedicated modulators, Monstro allows oscillator 3 to be modulated by "
"the output of oscillator 2. \n\n"
"FM means frequency modulation: Oscillator 3's frequency (pitch) is modulated by oscillator 2. "
"The frequency modulation is implemented as phase modulation, which gives a more stable overall pitch "
"than \"pure\" frequency modulation. " ) );
m_pmButton -> setWhatsThis( tr( "In addition to dedicated modulators, Monstro allows oscillator 3 to be modulated by "
"the output of oscillator 2. \n\n"
"PM means phase modulation: Oscillator 3's phase is modulated by oscillator 2. "
"It differs from frequency modulation in that the phase changes are not cumulative. " ) );
m_lfo1WaveBox -> setWhatsThis( tr( "Select the waveform for LFO 1. \n"
"\"Random\" and \"Random smooth\" are special waveforms: "
"they produce random output, where the rate of the LFO controls how often "
"the state of the LFO changes. The smooth version interpolates between these "
"states with cosine interpolation. These random modes can be used to give "
"\"life\" to your presets - add some of that analog unpredictability... " ) );
m_lfo2WaveBox -> setWhatsThis( tr( "Select the waveform for LFO 2. \n"
"\"Random\" and \"Random smooth\" are special waveforms: "
"they produce random output, where the rate of the LFO controls how often "
"the state of the LFO changes. The smooth version interpolates between these "
"states with cosine interpolation. These random modes can be used to give "
"\"life\" to your presets - add some of that analog unpredictability... " ) );
m_lfo1AttKnob -> setWhatsThis( tr( "Attack causes the LFO to come on gradually from the start of the note. " ) );
m_lfo2AttKnob -> setWhatsThis( tr( "Attack causes the LFO to come on gradually from the start of the note. " ) );
m_lfo1RateKnob -> setWhatsThis( tr( "Rate sets the speed of the LFO, measured in milliseconds per cycle. Can be synced to tempo. " ) );
m_lfo2RateKnob -> setWhatsThis( tr( "Rate sets the speed of the LFO, measured in milliseconds per cycle. Can be synced to tempo. " ) );
m_lfo1PhsKnob -> setWhatsThis( tr( "PHS controls the phase offset of the LFO. " ) );
m_lfo2PhsKnob -> setWhatsThis( tr( "PHS controls the phase offset of the LFO. " ) );
m_env1PreKnob -> setWhatsThis( tr( "PRE, or pre-delay, delays the start of the envelope from the start of the note. 0 means no delay. " ) );
m_env2PreKnob -> setWhatsThis( tr( "PRE, or pre-delay, delays the start of the envelope from the start of the note. 0 means no delay. " ) );
m_env1AttKnob -> setWhatsThis( tr( "ATT, or attack, controls how fast the envelope ramps up at start, measured in milliseconds. "
"A value of 0 means instant. " ) );
m_env2AttKnob -> setWhatsThis( tr( "ATT, or attack, controls how fast the envelope ramps up at start, measured in milliseconds. "
"A value of 0 means instant. " ) );
m_env1HoldKnob -> setWhatsThis( tr( "HOLD controls how long the envelope stays at peak after the attack phase. " ) );
m_env2HoldKnob -> setWhatsThis( tr( "HOLD controls how long the envelope stays at peak after the attack phase. " ) );
m_env1DecKnob -> setWhatsThis( tr( "DEC, or decay, controls how fast the envelope falls off from its peak, measured in milliseconds "
"it would take to go from peak to zero. The actual decay may be shorter if sustain is used. ") );
m_env2DecKnob -> setWhatsThis( tr( "DEC, or decay, controls how fast the envelope falls off from its peak, measured in milliseconds "
"it would take to go from peak to zero. The actual decay may be shorter if sustain is used. ") );
m_env1SusKnob -> setWhatsThis( tr( "SUS, or sustain, controls the sustain level of the envelope. The decay phase will not go below this level "
"as long as the note is held. " ) );
m_env2SusKnob -> setWhatsThis( tr( "SUS, or sustain, controls the sustain level of the envelope. The decay phase will not go below this level "
"as long as the note is held. " ) );
m_env1RelKnob -> setWhatsThis( tr( "REL, or release, controls how long the release is for the note, measured in how long it would take to "
"fall from peak to zero. Actual release may be shorter, depending on at what phase the note is released. ") );
m_env2RelKnob -> setWhatsThis( tr( "REL, or release, controls how long the release is for the note, measured in how long it would take to "
"fall from peak to zero. Actual release may be shorter, depending on at what phase the note is released. ") );
m_env1SlopeKnob -> setWhatsThis( tr( "The slope knob controls the curve or shape of the envelope. A value of 0 creates straight rises and falls. "
"Negative values create curves that start slowly, peak quickly and fall of slowly again. "
"Positive values create curves that start and end quickly, and stay longer near the peaks. " ) );
m_env2SlopeKnob -> setWhatsThis( tr( "The slope knob controls the curve or shape of the envelope. A value of 0 creates straight rises and falls. "
"Negative values create curves that start slowly, peak quickly and fall of slowly again. "
"Positive values create curves that start and end quickly, and stay longer near the peaks. " ) );
return( view );
}
QWidget * MonstroView::setupMatrixView( QWidget * _parent )
{
// matrix view
QWidget * view = new QWidget( _parent );
view-> setFixedSize( 250, 250 );
makeknob( m_vol1env1Knob, MATCOL1, MATROW1, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol1env2Knob, MATCOL2, MATROW1, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol1lfo1Knob, MATCOL3, MATROW1, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol1lfo2Knob, MATCOL4, MATROW1, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol2env1Knob, MATCOL1, MATROW3, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol2env2Knob, MATCOL2, MATROW3, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol2lfo1Knob, MATCOL3, MATROW3, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol2lfo2Knob, MATCOL4, MATROW3, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol3env1Knob, MATCOL1, MATROW5, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol3env2Knob, MATCOL2, MATROW5, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol3lfo1Knob, MATCOL3, MATROW5, "Modulation amount", "", "matrixKnob" )
makeknob( m_vol3lfo2Knob, MATCOL4, MATROW5, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs1env1Knob, MATCOL1, MATROW2, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs1env2Knob, MATCOL2, MATROW2, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs1lfo1Knob, MATCOL3, MATROW2, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs1lfo2Knob, MATCOL4, MATROW2, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs2env1Knob, MATCOL1, MATROW4, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs2env2Knob, MATCOL2, MATROW4, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs2lfo1Knob, MATCOL3, MATROW4, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs2lfo2Knob, MATCOL4, MATROW4, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs3env1Knob, MATCOL1, MATROW6, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs3env2Knob, MATCOL2, MATROW6, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs3lfo1Knob, MATCOL3, MATROW6, "Modulation amount", "", "matrixKnob" )
makeknob( m_phs3lfo2Knob, MATCOL4, MATROW6, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit1env1Knob, MATCOL5, MATROW1, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit1env2Knob, MATCOL6, MATROW1, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit1lfo1Knob, MATCOL7, MATROW1, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit1lfo2Knob, MATCOL8, MATROW1, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit2env1Knob, MATCOL5, MATROW3, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit2env2Knob, MATCOL6, MATROW3, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit2lfo1Knob, MATCOL7, MATROW3, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit2lfo2Knob, MATCOL8, MATROW3, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit3env1Knob, MATCOL5, MATROW5, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit3env2Knob, MATCOL6, MATROW5, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit3lfo1Knob, MATCOL7, MATROW5, "Modulation amount", "", "matrixKnob" )
makeknob( m_pit3lfo2Knob, MATCOL8, MATROW5, "Modulation amount", "", "matrixKnob" )
makeknob( m_pw1env1Knob, MATCOL5, MATROW2, "Modulation amount", "", "matrixKnob" )
makeknob( m_pw1env2Knob, MATCOL6, MATROW2, "Modulation amount", "", "matrixKnob" )
makeknob( m_pw1lfo1Knob, MATCOL7, MATROW2, "Modulation amount", "", "matrixKnob" )
makeknob( m_pw1lfo2Knob, MATCOL8, MATROW2, "Modulation amount", "", "matrixKnob" )
makeknob( m_sub3env1Knob, MATCOL5, MATROW6, "Modulation amount", "", "matrixKnob" )
makeknob( m_sub3env2Knob, MATCOL6, MATROW6, "Modulation amount", "", "matrixKnob" )
makeknob( m_sub3lfo1Knob, MATCOL7, MATROW6, "Modulation amount", "", "matrixKnob" )
makeknob( m_sub3lfo2Knob, MATCOL8, MATROW6, "Modulation amount", "", "matrixKnob" )
return( view );
}
extern "C"
{
// necessary for getting instance out of shared lib
Plugin * PLUGIN_EXPORT lmms_plugin_main( Model *, void * _data )
{
return new MonstroInstrument( static_cast<InstrumentTrack *>( _data ) );
}
}
#include "moc_Monstro.cxx"
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