ref: 36a83aede9accc17bf02d97d2ac7d1c306e0eff7
dir: /src/sinc.c/
/* Effect: sinc filters Copyright (c) 2008-9 robs@users.sourceforge.net * * This library is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or (at * your option) any later version. * * This library 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 Lesser * General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this library; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "sox_i.h" #include "dft_filter.h" #include <string.h> typedef struct { dft_filter_priv_t base; double att, beta, phase, Fc0, Fc1, tbw0, tbw1; int num_taps[2]; sox_bool round; } priv_t; static int create(sox_effect_t * effp, int argc, char * * argv) { priv_t * p = (priv_t *)effp->priv; dft_filter_priv_t * b = &p->base; char * parse_ptr = argv[0]; int i = 0; lsx_getopt_t optstate; lsx_getopt_init(argc, argv, "+ra:b:p:MILt:n:", NULL, lsx_getopt_flag_none, 1, &optstate); b->filter_ptr = &b->filter; p->phase = 50; p->beta = -1; while (i < 2) { int c = 1; while (c && (c = lsx_getopt(&optstate)) != -1) switch (c) { char * parse_ptr2; case 'r': p->round = sox_true; break; GETOPT_NUMERIC(optstate, 'a', att, 40 , 180) GETOPT_NUMERIC(optstate, 'b', beta, 0 , 256) GETOPT_NUMERIC(optstate, 'p', phase, 0, 100) case 'M': p->phase = 0; break; case 'I': p->phase = 25; break; case 'L': p->phase = 50; break; GETOPT_NUMERIC(optstate, 'n', num_taps[1], 11, 32767) case 't': p->tbw1 = lsx_parse_frequency(optstate.arg, &parse_ptr2); if (p->tbw1 < 1 || *parse_ptr2) return lsx_usage(effp); break; default: c = 0; } if ((p->att && p->beta >= 0) || (p->tbw1 && p->num_taps[1])) return lsx_usage(effp); if (!i || !p->Fc1) p->tbw0 = p->tbw1, p->num_taps[0] = p->num_taps[1]; if (!i++ && optstate.ind < argc) { if (*(parse_ptr = argv[optstate.ind++]) != '-') p->Fc0 = lsx_parse_frequency(parse_ptr, &parse_ptr); if (*parse_ptr == '-') p->Fc1 = lsx_parse_frequency(parse_ptr + 1, &parse_ptr); } } return optstate.ind != argc || p->Fc0 < 0 || p->Fc1 < 0 || *parse_ptr ? lsx_usage(effp) : SOX_SUCCESS; } static void invert(double * h, int n) { int i; for (i = 0; i < n; ++i) h[i] = -h[i]; h[(n - 1) / 2] += 1; } static double * lpf(double Fn, double Fc, double tbw, int * num_taps, double att, double * beta, sox_bool round) { if ((Fc /= Fn) <= 0 || Fc >= 1) { *num_taps = 0; return NULL; } att = att? att : 120; *beta = *beta < 0? lsx_kaiser_beta(att) : *beta; if (!*num_taps) { int n = lsx_lpf_num_taps(att, (tbw? tbw / Fn : .05) * .5, 0); *num_taps = range_limit(n, 11, 32767); if (round) *num_taps = 1 + 2 * (int)((int)((*num_taps / 2) * Fc + .5) / Fc + .5); lsx_report("num taps = %i (from %i)", *num_taps, n); } return lsx_make_lpf(*num_taps |= 1, Fc, *beta, 1., sox_false); } static int start(sox_effect_t * effp) { priv_t * p = (priv_t *)effp->priv; dft_filter_t * f = p->base.filter_ptr; if (!f->num_taps) { double Fn = effp->in_signal.rate * .5; double * h[2]; int i, n, post_peak, longer; if (p->Fc0 >= Fn || p->Fc1 >= Fn) { lsx_fail("filter frequency must be less than sample-rate / 2"); return SOX_EOF; } h[0] = lpf(Fn, p->Fc0, p->tbw0, &p->num_taps[0], p->att, &p->beta,p->round); h[1] = lpf(Fn, p->Fc1, p->tbw1, &p->num_taps[1], p->att, &p->beta,p->round); if (h[0]) invert(h[0], p->num_taps[0]); longer = p->num_taps[1] > p->num_taps[0]; n = p->num_taps[longer]; if (h[0] && h[1]) { for (i = 0; i < p->num_taps[!longer]; ++i) h[longer][i + (n - p->num_taps[!longer])/2] += h[!longer][i]; if (p->Fc0 < p->Fc1) invert(h[longer], n); free(h[!longer]); } if (p->phase != 50) lsx_fir_to_phase(&h[longer], &n, &post_peak, p->phase); else post_peak = n >> 1; if (effp->global_info->plot != sox_plot_off) { char title[100]; sprintf(title, "SoX effect: sinc filter freq=%g-%g", p->Fc0, p->Fc1? p->Fc1 : Fn); lsx_plot_fir(h[longer], n, effp->in_signal.rate, effp->global_info->plot, title, -p->beta * 10 - 25, 5.); return SOX_EOF; } lsx_set_dft_filter(f, h[longer], n, post_peak); } return lsx_dft_filter_effect_fn()->start(effp); } sox_effect_handler_t const * lsx_sinc_effect_fn(void) { static sox_effect_handler_t handler; handler = *lsx_dft_filter_effect_fn(); handler.name = "sinc"; handler.usage = "[-a att|-b beta] [-p phase|-M|-I|-L] [-t tbw|-n taps] [freqHP][-freqLP [-t tbw|-n taps]]"; handler.getopts = create; handler.start = start; handler.priv_size = sizeof(priv_t); return &handler; }