/* Copyright (c) 2002 Yves Degoyon. */ /* For information on usage and redistribution, and for a DISCLAIMER OF ALL */ /* WARRANTIES, see the file, "COPYING" in this distribution. */ /* */ /* wahwah~ -- a kind of effect used in psychedelic music */ /* the algorithm was taken from Digital Effects, */ /* 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 : */ /* */ /* Crass -- "Shaved Women ( Collaborators )" */ /* Zounds -- "Can't Cheat Karma" */ /* */ /* Special message for the french : */ /* "Delay all your work...and go vote against national front" */ /* ---------------------------------------------------------------------------- */ #include "m_pd.h" #include #include #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 COEFFSIZE 3000 /* coefficients size */ #define NBCOEFFS 5 /* number of coefficients */ static char *wahwah_version = "wahwah~: an audio wahwah, version 0.1 (ydegoyon@free.fr)"; typedef struct _wahwah { t_object x_obj; double *x_buf; t_int x_samplerate; t_float *x_coeffs; double x_minfc; /* min frequency Hz */ /* 0< <3000 */ double x_maxfc; /* max frequency Hz */ /* 0< <3000 */ double x_sense; /* increase/decrease frequency change by one mouse movement Hz */ /* 0< <=1000 */ double x_maxstep; /* maximum frequency change step KHz */ /* 0< <=100 */ double x_dbgain; /* peaking filter gain dB */ /* -15<= <=15 */ double x_bandwidth; /* bandwidth in octaves (between midpoint (dBgain/2) gain frequencies) or */ /* 0< <10 */ double x_Q; /* the EE kinda definition */ /* 0< <=1 */ /* variables for audio computation */ double min_coef,max_coef,cur_coef,step,maxstep; t_int down; /* amplitudes */ short x0,x1,x2; t_int y0,y1,y2; t_float x_f; } t_wahwah; static t_class *wahwah_class; static void wahwah_set_coeffs (t_wahwah *x) { t_int i; double omega; double sn,cs; double alpha = 0.0; /* filter coefficients */ double a0,a1,a2,b0,b1,b2; double A; A = exp(x->x_dbgain/40.0)*log(10.0); for (i = 0; i < COEFFSIZE; i++) { omega = 2.0*M_PI*(double)i/(double)x->x_samplerate; sn = sin(omega); cs = cos(omega); if (x->x_bandwidth) alpha = sn*sin(log(2.0)/2.0*x->x_bandwidth*omega/sn); else /* if Q is specified instead of bandwidth */ if (x->x_Q) alpha = sn/(2.0*x->x_Q); /* then compute the coefs for whichever filter type you want */ b0 = 1.0 + alpha*A; b1 = -2.0*cs ; b2 = 1.0 - alpha*A; a0 = 1.0 + alpha/A; a1 = -2.0*cs ; a2 = 1.0 - alpha/A; *(x->x_coeffs+i*NBCOEFFS) = (b0/a0); *(x->x_coeffs+i*NBCOEFFS+1) = (b1/a0); *(x->x_coeffs+i*NBCOEFFS+2) = (b2/a0); *(x->x_coeffs+i*NBCOEFFS+3) = (a1/a0); *(x->x_coeffs+i*NBCOEFFS+4) = (a2/a0); // post( "wahwah~ : coeff : %f", *(x->x_coeffs+i*NBCOEFFS+4) ); } x->min_coef = x->x_minfc; x->max_coef = x->x_maxfc; x->cur_coef = x->min_coef; x->down = 1; x->step = 0; x->maxstep = x->x_maxstep/(double)x->x_samplerate*1000.0; } static void wahwah_bandwidth(t_wahwah *x, t_floatarg fbandwidth ) { if ( fbandwidth > 10.0 ) { fbandwidth = 10.0; } if ( fbandwidth < 0.0 ) { fbandwidth = 0.0; } x->x_bandwidth = fbandwidth; // post( "wahwah~ : bandwidth: %f", x->x_bandwidth ); wahwah_set_coeffs( x ); } static void wahwah_dbgain(t_wahwah *x, t_floatarg fdbgain ) { if ( fdbgain > 15.0 ) { fdbgain = 15.0; } if ( fdbgain < -15.0 ) { fdbgain = -15.0; } x->x_dbgain = fdbgain; // post( "wahwah~ : dbgain: %f", x->x_dbgain ); wahwah_set_coeffs( x ); } static void wahwah_maxstep(t_wahwah *x, t_floatarg fmaxstep ) { if ( fmaxstep > 100.0 ) { fmaxstep = 100.0; } if ( fmaxstep < 0.0 ) { fmaxstep = 0.0; } x->x_maxstep = fmaxstep; // post( "wahwah~ : maxstep: %f", x->x_maxstep ); wahwah_set_coeffs( x ); } static void wahwah_sensibility(t_wahwah *x, t_floatarg fsensibility ) { if ( fsensibility > 1000.0 ) { fsensibility = 1000.0; } if ( fsensibility < 0.0 ) { fsensibility = 0.0; } x->x_sense = fsensibility; // post( "wahwah~ : sensibility: %f", x->x_sense ); wahwah_set_coeffs( x ); } static void wahwah_maxfreq(t_wahwah *x, t_floatarg fmaxfreq ) { if ( fmaxfreq > 3000.0 ) { fmaxfreq = 3000.0; } if ( fmaxfreq < 0.0 ) { fmaxfreq = 0.0; } x->x_maxfc = fmaxfreq; // post( "wahwah~ : maxfreq: %f", x->x_maxfc ); wahwah_set_coeffs( x ); } static void wahwah_minfreq(t_wahwah *x, t_floatarg fminfreq ) { if ( fminfreq > 3000.0 ) { fminfreq = 3000.0; } if ( fminfreq < 0.0 ) { fminfreq = 0.0; } x->x_minfc = fminfreq; // post( "wahwah~ : minfreq: %f", x->x_minfc ); wahwah_set_coeffs( x ); } static void wahwah_step(t_wahwah *x, t_floatarg fstep ) { if ( fstep > x->x_maxstep ) { fstep = x->x_maxstep; } if ( fstep < 0 ) { fstep = 0; } x->step = fstep*x->x_sense/x->x_samplerate; } static t_int *wahwah_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_wahwah *x = (t_wahwah*)(w[4]); t_int i; for (i=0; ix0 = (int)((*(in+i))*32768); x->y0 = (*(x->x_coeffs+(int)x->cur_coef*NBCOEFFS))*x->x0 + (*(x->x_coeffs+(int)x->cur_coef*NBCOEFFS+1))*x->x1 + (*(x->x_coeffs+(int)x->cur_coef*NBCOEFFS+2))*x->x2 - (*(x->x_coeffs+(int)x->cur_coef*NBCOEFFS+3))*x->y1 - (*(x->x_coeffs+(int)x->cur_coef*NBCOEFFS+4))*x->y2; x->y2 = x->y1; x->y1 = x->y0; x->x2 = x->x1; x->x1 = x->x0; if(x->y0 > 32767.0) x->y0 = 32767.0; else if(x->y0 < -32768.0) x->y0 = -32768.0; *(out+i) = (t_float)(x->y0) / 32768.0; x->cur_coef = x->cur_coef+x->down*x->step*(abs(x->x0)/(0.5*32768.0)); // post ( "wahwah~ : cur coeff : %f", x->cur_coef ); if(x->cur_coef > x->max_coef) { x->cur_coef = x->max_coef; x->down = -1; } else if(x->cur_coef < x->min_coef) { x->cur_coef = x->min_coef; x->down = 1; } } return (w+5); } static void wahwah_preset(t_wahwah *x, t_float pnumber) { switch ( (int)pnumber ) { /* fast change medium wah wah */ case 1: x->x_minfc = 100.0; x->x_maxfc = 1600.0; x->x_sense = 100.0; x->x_maxstep = 60.0; x->x_dbgain = 15.0; x->x_Q = 1.0; break; /* slow change medium wah wah */ case 2: x->x_minfc = 100.0; x->x_maxfc = 1600.0; x->x_sense = 50.0; x->x_maxstep = 36.0; x->x_dbgain = 15.0; x->x_Q = 1.0; break; /* fast wah wah */ case 3: x->x_minfc = 100.0; x->x_maxfc = 600.0; x->x_sense = 100.0; x->x_maxstep = 66.0; x->x_dbgain = 15.0; x->x_Q = 1.0; break; /* ranged wah wah */ case 4: x->x_minfc = 10.0; x->x_maxfc = 2900.0; x->x_sense = 100.0; x->x_maxstep = 66.0; x->x_dbgain = 15.0; x->x_Q = 1.0; break; /* wah wah 400 - 2000 */ case 5: x->x_minfc = 400.0; x->x_maxfc = 2000.0; x->x_sense = 100.0; x->x_maxstep = 66.0; x->x_dbgain = 15.0; x->x_Q = 1.0; break; default: post( "wahwah~ : unknown preset requested : %d", pnumber ); return; break; } wahwah_set_coeffs( x ); } static void wahwah_dsp(t_wahwah *x, t_signal **sp) { dsp_add(wahwah_perform, 4, sp[0]->s_vec, sp[1]->s_vec, sp[0]->s_n, x ); } /* clean up */ static void wahwah_free(t_wahwah *x) { if ( x->x_buf != NULL ) { freebytes(x->x_buf, BFSZ*sizeof( double ) ); post( "Freed %d bytes", BFSZ*sizeof( double ) ); x->x_buf = NULL; } if ( x->x_coeffs != NULL ) { freebytes(x->x_coeffs, COEFFSIZE*NBCOEFFS*sizeof( t_float ) ); post( "Freed %d bytes", COEFFSIZE*NBCOEFFS*sizeof( t_float )); x->x_coeffs = NULL; } } static void *wahwah_new(void) { t_wahwah *x = (t_wahwah *)pd_new(wahwah_class); outlet_new(&x->x_obj, &s_signal); inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("minfreq")); inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("maxfreq")); inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("sensibility")); inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("maxstep")); inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("dbgain")); inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("bandwidth")); inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_float, gensym("step")); x->x_samplerate = (int)sys_getsr(); if ( !( x->x_buf = ( double* ) getbytes( BFSZ*sizeof( double ) ) ) ) { post ("wahwah~ : could not allocate buffer" ); return NULL; } if ( !( x->x_coeffs = ( t_float* ) getbytes( COEFFSIZE*NBCOEFFS*sizeof( t_float ) ) ) ) { post ("wahwah~ : could not allocate coeffs" ); return NULL; } // set default parameters wahwah_preset( x, 1 ); wahwah_set_coeffs( x ); return (x); } void wahwah_tilde_setup(void) { logpost(NULL, 4, "%s", wahwah_version ); wahwah_class = class_new(gensym("wahwah~"), (t_newmethod)wahwah_new, (t_method)wahwah_free, sizeof(t_wahwah), 0, 0); CLASS_MAINSIGNALIN( wahwah_class, t_wahwah, x_f ); class_addmethod(wahwah_class, (t_method)wahwah_step, gensym("step"), A_FLOAT, 0); class_addmethod(wahwah_class, (t_method)wahwah_minfreq, gensym("minfreq"), A_FLOAT, 0); class_addmethod(wahwah_class, (t_method)wahwah_maxfreq, gensym("maxfreq"), A_FLOAT, 0); class_addmethod(wahwah_class, (t_method)wahwah_sensibility, gensym("sensibility"), A_FLOAT, 0); class_addmethod(wahwah_class, (t_method)wahwah_maxstep, gensym("maxstep"), A_FLOAT, 0); class_addmethod(wahwah_class, (t_method)wahwah_dbgain, gensym("dbgain"), A_FLOAT, 0); class_addmethod(wahwah_class, (t_method)wahwah_bandwidth, gensym("bandwidth"), A_FLOAT, 0); class_addmethod(wahwah_class, (t_method)wahwah_dsp, gensym("dsp"), 0); class_addmethod(wahwah_class, (t_method)wahwah_preset, gensym("preset"), A_FLOAT, 0); }