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/* Copyleft (c) 2002 Yves Degoyon. */
/* Copyright (c) 2001 Alexei Smoli */
/* For information on usage and redistribution, and for a DISCLAIMER OF ALL */
/* WARRANTIES, see the file, "COPYING" in this distribution. */
/* */
/* disto~ -- a kind of effect used in pop music */
/* the algorithm was taken from Digital Effects (DISTORT3), */
/* a guitar effects software for DOS which rocks, written by Alexey Smoli */
/* ( http://st.karelia.ru/~smlalx/ ) */
/* */
/* 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. */
/* */
/* See file LICENSE for further informations on licensing terms. */
/* */
/* 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
/* */
/* Based on PureData by Miller Puckette and others. */
/* */
/* Made while listening to : */
/* */
/* Bruce Gilbert -- Ab Ovo */
/* Poison Girls -- Promenade Immortelle */
/* */
/* Special message for the french : */
/* "Delay all your work...and go vote against national front" */
/* ---------------------------------------------------------------------------- */
#include "m_pd.h"
#include <stdlib.h>
#include <math.h>
#ifdef _MSC_VER
#define M_PI 3.14159265358979323846
#endif
#define BFSZ 4096 /* main delay buffer */
#define BLOCK_DELAY 10 /* number of blocks to delay */
#define NA 0.0 /* param not applicable */
#define NBEXPS 129
static char *disto_version = "disto~: distortion, version 0.1 (ydegoyon@free.fr)";
struct hipass
{
/* few intermediate variables */
double omega;
double sn,cs;
double alpha;
/* filter coefficients */
double a0,a1,a2,b0,b1,b2;
double k0,k1,k2,k3,k4;
/* amplitudes */
double x0,x1,x2;
double y0,y1,y2;
} hipass;
struct lowpass
{
/* few intermediate variables */
double omega;
double sn,cs;
double alpha;
/* filter coefficients */
double a0,a1,a2,b0,b1,b2;
double k0,k1,k2,k3,k4;
/* amplitudes */
double x0,x1,x2;
double y0,y1,y2;
} lowpass;
typedef struct _disto
{
t_object x_obj;
double *x_buf;
t_int x_samplerate;
double x_drive; /* distortion drive */ /* 0<= <=25 */
double x_drymix; /* dry (unaffected) signal mix */ /* -5<= <=5 */
double x_wetmix; /* wet (affected) signal mix */ /* -5<= <=5 */
double x_feedback; /* feedback */ /* -10<= <=10 */
double x_volume; /* distortion volume */ /* 0=< <=5 */
double x_hipassfreq; /* cutoff frequency for hi pass filter */ /* 0< <RATE/2 */
double x_lowpassfreq; /* cutoff frequency for low pass filter */ /* 0< <RATE/2 */
double x_hipassQ; /* the EE kinda definition for hi pass filter */ /* 0.1< <=1 */
double x_lowpassQ; /* the EE kinda definition for low pass filter */ /* 0.1< <=1 */
/* audio processing data ( not setable ) */
double data,pred;
double outval,outvol;
double exps[NBEXPS];
/* filters data ( not setable ) */
struct hipass HPF;
struct lowpass LPF;
t_float x_f;
} t_disto;
static t_class *disto_class;
static void disto_init_filters (t_disto *x)
{
t_int i;
for (i=0; i<130; i++)
{
x->exps[i]=exp((double)i*x->x_drive)*x->x_wetmix;
}
x->HPF.omega = 2.0*M_PI*x->x_hipassfreq/(double)x->x_samplerate;
x->HPF.sn = sin(x->HPF.omega);
x->HPF.cs = cos(x->HPF.omega);
x->HPF.alpha = x->HPF.sn/(2.0*x->x_hipassQ);
x->HPF.b0 = (1.0 + x->HPF.cs)/2.0;
x->HPF.b1 = -(1.0 + x->HPF.cs) ;
x->HPF.b2 = (1.0 + x->HPF.cs)/2.0;
x->HPF.a0 = 1.0 + x->HPF.alpha ;
x->HPF.a1 = -2.0*x->HPF.cs ;
x->HPF.a2 = 1.0 - x->HPF.alpha ;
x->HPF.k0 = (x->HPF.b0/x->HPF.a0);
x->HPF.k1 = (x->HPF.b1/x->HPF.a0);
x->HPF.k2 = (x->HPF.b2/x->HPF.a0);
x->HPF.k3 = (x->HPF.a1/x->HPF.a0);
x->HPF.k4 = (x->HPF.a2/x->HPF.a0);
x->LPF.omega = 2.0*M_PI*x->x_lowpassfreq/(double)x->x_samplerate;
x->LPF.sn = sin(x->LPF.omega);
x->LPF.cs = cos(x->LPF.omega);
x->LPF.alpha = x->LPF.sn/(2.0*x->x_lowpassQ);
x->LPF.b0 = (1.0 - x->LPF.cs)/2.0;
x->LPF.b1 = 1.0 - x->LPF.cs ;
x->LPF.b2 = (1.0 - x->LPF.cs)/2.0;
x->LPF.a0 = 1.0 + x->LPF.alpha ;
x->LPF.a1 = -2.0*x->LPF.cs ;
x->LPF.a2 = 1.0 - x->LPF.alpha ;
x->LPF.k0 = (x->LPF.b0/x->LPF.a0);
x->LPF.k1 = (x->LPF.b1/x->LPF.a0);
x->LPF.k2 = (x->LPF.b2/x->LPF.a0);
x->LPF.k3 = (x->LPF.a1/x->LPF.a0);
x->LPF.k4 = (x->LPF.a2/x->LPF.a0);
}
static void disto_drive(t_disto *x, t_floatarg fdrive )
{
if ( fdrive > 25.0 )
{
fdrive = 25.0;
}
if ( fdrive < 0.0 )
{
fdrive = 0.0;
}
x->x_drive = fdrive;
// post( "disto~ : drive: %f", x->x_drive );
disto_init_filters( x );
}
static void disto_drymix(t_disto *x, t_floatarg fdrymix )
{
if ( fdrymix > 5.0 )
{
fdrymix = 5.0;
}
if ( fdrymix < -5.0 )
{
fdrymix = -5.0;
}
x->x_drymix = fdrymix;
// post( "disto~ : drymix: %f", x->x_drymix );
disto_init_filters( x );
}
static void disto_wetmix(t_disto *x, t_floatarg fwetmix )
{
if ( fwetmix > 5.0 )
{
fwetmix = 5.0;
}
if ( fwetmix < -5.0 )
{
fwetmix = -5.0;
}
x->x_wetmix = fwetmix;
// post( "disto~ : wetmix: %f", x->x_wetmix );
disto_init_filters( x );
}
static void disto_feedback(t_disto *x, t_floatarg ffeedback )
{
if ( ffeedback > 10.0 )
{
ffeedback = 10.0;
}
if ( ffeedback < -10.0 )
{
ffeedback = -10.0;
}
x->x_feedback = ffeedback;
// post( "disto~ : feedback: %f", x->x_feedback );
disto_init_filters( x );
}
static void disto_volume(t_disto *x, t_floatarg fvolume )
{
if ( fvolume > 5.0 )
{
fvolume = 5.0;
}
if ( fvolume < 0.0 )
{
fvolume = 0.0;
}
x->x_volume = fvolume;
// post( "disto~ : volume: %f", x->x_volume );
disto_init_filters( x );
}
static void disto_hipassfreq(t_disto *x, t_floatarg fhipassfreq )
{
if ( fhipassfreq > x->x_samplerate/2 )
{
fhipassfreq = x->x_samplerate/2;
}
if ( fhipassfreq < 0.0 )
{
fhipassfreq = 0.0;
}
x->x_hipassfreq = fhipassfreq;
// post( "disto~ : hipassfreq: %f", x->x_hipassfreq );
disto_init_filters( x );
}
static void disto_hipassQ(t_disto *x, t_floatarg fhipassQ )
{
if ( fhipassQ > 1.0 )
{
fhipassQ = 1.0;
}
if ( fhipassQ < 0.1 )
{
fhipassQ = 0.1;
}
x->x_hipassQ = fhipassQ;
// post( "disto~ : hipassQ: %f", x->x_hipassQ );
disto_init_filters( x );
}
static void disto_lowpassfreq(t_disto *x, t_floatarg flowpassfreq )
{
if ( flowpassfreq > x->x_samplerate/2 )
{
flowpassfreq = x->x_samplerate/2;
}
if ( flowpassfreq < 0.0 )
{
flowpassfreq = 0.0;
}
x->x_lowpassfreq = flowpassfreq;
// post( "disto~ : lowpassfreq: %f", x->x_lowpassfreq );
disto_init_filters( x );
}
static void disto_lowpassQ(t_disto *x, t_floatarg flowpassQ )
{
if ( flowpassQ > 1.0 )
{
flowpassQ = 1.0;
}
if ( flowpassQ < 0.1 )
{
flowpassQ = 0.1;
}
x->x_lowpassQ = flowpassQ;
// post( "disto~ : lowpassQ: %f", x->x_lowpassQ );
disto_init_filters( x );
}
static t_int *disto_perform(t_int *w)
{
t_float *in = (t_float *)(w[1]);
t_float *out = (t_float *)(w[2]);
t_int n = (int)(w[3]);
t_disto *x = (t_disto*)(w[4]);
t_int i;
for (i = 0; i < n; i++)
{
x->HPF.x0 = *(in++);
x->HPF.y0 = (x->HPF.k0*x->HPF.x0+x->HPF.k1*x->HPF.x1+x->HPF.k2*x->HPF.x2-x->HPF.k3*x->HPF.y1-x->HPF.k4*x->HPF.y2);
x->HPF.y2 = x->HPF.y1;
x->HPF.y1 = x->HPF.y0;
x->HPF.x2 = x->HPF.x1;
x->HPF.x1 = x->HPF.x0;
x->data = (int)x->HPF.y0;
if ((x->data-x->pred)>0)
x->outval += (x->data*x->x_drymix+ x->exps[abs(x->data)]);
else if ((x->data-x->pred)<0)
x->outval += (x->data*x->x_drymix- x->exps[abs(x->data)]);
x->pred = x->data;
x->LPF.x0 = *(out);
x->LPF.y0 = (x->LPF.k0*x->LPF.x0+x->LPF.k1*x->LPF.x1+x->LPF.k2*x->LPF.x2-x->LPF.k3*x->LPF.y1-x->LPF.k4*x->LPF.y2);
x->LPF.y2 = x->LPF.y1;
x->LPF.y1 = x->LPF.y0;
x->LPF.x2 = x->LPF.x1;
x->LPF.x1 = x->LPF.x0;
x->outvol = x->LPF.y0*x->x_volume;
if(x->outvol > 1.0)
x->data = 1.0;
else if(x->outvol < -1.0)
x->data = -1.0;
else
x->data = x->outvol;
*(out++) = x->data;
x->outval *= x->x_feedback;
}
return (w+5);
}
static void disto_preset(t_disto *x, t_float pnumber)
{
switch ( (int)pnumber )
{
/* "Hard Distortion 100-10000Hz" */
case 1:
x->x_drive = 1.5;
x->x_drymix = 1.0;
x->x_wetmix = 0.5;
x->x_feedback = 0.0;
x->x_volume = 1.0;
x->x_hipassfreq = 100.0;
x->x_hipassQ = 0.5;
x->x_lowpassfreq = 10000.0;
x->x_lowpassQ = 0.5;
break;
/* "Hard Distortion 100-6000Hz" */
case 2:
x->x_drive = 1.5;
x->x_drymix = 1.0;
x->x_wetmix = 0.5;
x->x_feedback = 0.0;
x->x_volume = 1.0;
x->x_hipassfreq = 100.0;
x->x_hipassQ = 0.5;
x->x_lowpassfreq = 2000.0;
x->x_lowpassQ = 0.5;
break;
/* "Very Hard Distortion" */
case 3:
x->x_drive = 2.0;
x->x_drymix = 0.0;
x->x_wetmix = 1.0;
x->x_feedback = 1.0;
x->x_volume = 5.0;
x->x_hipassfreq = 100.0;
x->x_hipassQ = 0.5;
x->x_lowpassfreq = 6000.0;
x->x_lowpassQ = 0.5;
break;
/* "Medium Distortion 0.2" */
case 4:
x->x_drive = 0.2;
x->x_drymix = 1.0;
x->x_wetmix = 1.0;
x->x_feedback = 0.1;
x->x_volume = 1.0;
x->x_hipassfreq = 100.0;
x->x_hipassQ = 0.5;
x->x_lowpassfreq = 6000.0;
x->x_lowpassQ = 0.5;
break;
/* "Medium Distortion 0.8" */
case 5:
x->x_drive = 0.8;
x->x_drymix = 1.0;
x->x_wetmix = 1.0;
x->x_feedback = 0.1;
x->x_volume = 1.0;
x->x_hipassfreq = 100.0;
x->x_hipassQ = 1.0;
x->x_lowpassfreq = 6000.0;
x->x_lowpassQ = 0.5;
break;
/* "Soft Distortion 0.8" */
case 6:
x->x_drive = 0.8;
x->x_drymix = 0.4;
x->x_wetmix = 0.8;
x->x_feedback = 0.0;
x->x_volume = 0.5;
x->x_hipassfreq = 100.0;
x->x_hipassQ = 1.0;
x->x_lowpassfreq = 10000.0;
x->x_lowpassQ = 0.5;
break;
default:
post( "disto~ : unknown preset requested : %d", pnumber );
return;
break;
}
disto_init_filters( x );
}
static void disto_dsp(t_disto *x, t_signal **sp)
{
dsp_add(disto_perform, 4, sp[0]->s_vec, sp[1]->s_vec, sp[0]->s_n, x );
}
/* clean up */
static void disto_free(t_disto *x)
{
if ( x->x_buf != NULL )
{
freebytes(x->x_buf, BFSZ*sizeof( double ) );
post( "Freed %d bytes", BFSZ*sizeof( double ) );
x->x_buf = NULL;
}
}
static void *disto_new(void)
{
t_disto *x = (t_disto *)pd_new(disto_class);
outlet_new(&x->x_obj, &s_signal);
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("drive"));
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("drymix"));
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("wetmix"));
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("feedback"));
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("volume"));
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("hipassfreq"));
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("hipassQ"));
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("lowpassfreq"));
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("lowpassQ"));
x->x_samplerate = (int)sys_getsr();
x->pred = 0.0;
x->data = 0.0;
if ( !( x->x_buf = ( double* ) getbytes( BFSZ*sizeof( double ) ) ) )
{
post ("disto~ : could not allocate buffer" );
return NULL;
}
// set default parameters
disto_preset( x, 3 );
disto_init_filters( x );
return (x);
}
void disto_tilde_setup(void)
{
logpost(NULL, 4, disto_version );
disto_class = class_new(gensym("disto~"), (t_newmethod)disto_new, (t_method)disto_free,
sizeof(t_disto), 0, 0);
CLASS_MAINSIGNALIN( disto_class, t_disto, x_f );
class_addmethod(disto_class, (t_method)disto_drive, gensym("drive"), A_FLOAT, 0);
class_addmethod(disto_class, (t_method)disto_drymix, gensym("drymix"), A_FLOAT, 0);
class_addmethod(disto_class, (t_method)disto_wetmix, gensym("wetmix"), A_FLOAT, 0);
class_addmethod(disto_class, (t_method)disto_feedback, gensym("feedback"), A_FLOAT, 0);
class_addmethod(disto_class, (t_method)disto_volume, gensym("volume"), A_FLOAT, 0);
class_addmethod(disto_class, (t_method)disto_hipassfreq, gensym("hipassfreq"), A_FLOAT, 0);
class_addmethod(disto_class, (t_method)disto_hipassQ, gensym("hipassQ"), A_FLOAT, 0);
class_addmethod(disto_class, (t_method)disto_lowpassfreq, gensym("lowpassfreq"), A_FLOAT, 0);
class_addmethod(disto_class, (t_method)disto_lowpassQ, gensym("lowpassQ"), A_FLOAT, 0);
class_addmethod(disto_class, (t_method)disto_dsp, gensym("dsp"), 0);
class_addmethod(disto_class, (t_method)disto_preset, gensym("preset"), A_FLOAT, 0);
}
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