ref: f40e25a18472c0afc300c13d8363085cbec05b64
dir: /src/band.h/
/* * July 5, 1991 * Copyright 1991 Lance Norskog And Sundry Contributors * This source code is freely redistributable and may be used for * any purpose. This copyright notice must be maintained. * Lance Norskog And Sundry Contributors are not responsible for * the consequences of using this software. */ /* * libSoX Bandpass effect file. * * Algorithm: 2nd order recursive filter. * Formula stolen from MUSIC56K, a toolkit of 56000 assembler stuff. * Quote: * This is a 2nd order recursive band pass filter of the form. * y(n)= a * x(n) - b * y(n-1) - c * y(n-2) * where : * x(n) = "IN" * "OUT" = y(n) * c = EXP(-2*pi*cBW/S_RATE) * b = -4*c/(1+c)*COS(2*pi*cCF/S_RATE) * if cSCL=2 (i.e. noise input) * a = SQT(((1+c)*(1+c)-b*b)*(1-c)/(1+c)) * else * a = SQT(1-b*b/(4*c))*(1-c) * endif * note : cCF is the center frequency in Hertz * cBW is the band width in Hertz * cSCL is a scale factor, use 1 for pitched sounds * use 2 for noise. * * * July 1, 1999 - Jan Paul Schmidt <jps@fundament.org> * * This looks like the resonator band pass in SPKit. It's a * second order all-pole (IIR) band-pass filter described * at the pages 186 - 189 in * Dodge, Charles & Jerse, Thomas A. 1985: * Computer Music -- Synthesis, Composition and Performance. * New York: Schirmer Books. * Reference from the SPKit manual. */ p->a2 = exp(-2 * M_PI * bw_Hz / effp->in_signal.rate); p->a1 = -4 * p->a2 / (1 + p->a2) * cos(2 * M_PI * p->fc / effp->in_signal.rate); if (p->filter_type == filter_BPF_SPK_N) p->b0 = sqrt(((1+p->a2) * (1+p->a2) - p->a1*p->a1) * (1-p->a2) / (1+p->a2)); else p->b0 = sqrt(1 - p->a1 * p->a1 / (4 * p->a2)) * (1 - p->a2);