ref: ceffff92190351bc83dc94fbfb72dc31a481ceea
dir: /src/phaser.c/
/* Effect: phaser Copyright (C) 1998 Juergen Mueller And Sundry Contributors * * This source code is freely redistributable and may be used for * any purpose. This copyright notice must be maintained. * Juergen Mueller And Sundry Contributors are not responsible for * the consequences of using this software. * * Flow diagram scheme: August 24, 1998 * * * gain-in +---+ * gain-out * ibuff ----------->| |----------------------------------> obuff * | + | * decay * | |<------------+ * +---+ _______ | * | | | | * +---| delay |---+ * |_______| * /|\ * | * +---------------+ +------------------+ * | Delay control |<-----| modulation speed | * +---------------+ +------------------+ * * The delay is controled by a sine or triangle modulation. * * Usage: * phaser gain-in gain-out delay decay speed [ -s | -t ] * * Where: * gain-in, decay : 0.0 .. 1.0 volume * gain-out : 0.0 .. volume * delay : 0.0 .. 5.0 msec * speed : 0.1 .. 2.0 Hz modulation speed * -s : modulation by sine (default) * -t : modulation by triangle * * Note: * When decay is close to 1.0, the samples may begin clipping or the output * can saturate! Hint: * in-gain < (1 - decay * decay) * 1 / out-gain > gain-in / (1 - decay) */ #include "sox_i.h" #include <string.h> typedef struct { double in_gain, out_gain, delay_ms, decay, mod_speed; lsx_wave_t mod_type; int * mod_buf; size_t mod_buf_len; int mod_pos; double * delay_buf; size_t delay_buf_len; int delay_pos; } priv_t; static int getopts(sox_effect_t * effp, int argc, char * * argv) { priv_t * p = (priv_t *) effp->priv; char chars[2]; /* Set non-zero defaults: */ p->in_gain = .4; p->out_gain = .74; p->delay_ms = 3.; p->decay = .4; p->mod_speed = .5; --argc, ++argv; do { /* break-able block */ NUMERIC_PARAMETER(in_gain , .0, 1) NUMERIC_PARAMETER(out_gain , .0, 1e9) NUMERIC_PARAMETER(delay_ms , .0, 5) NUMERIC_PARAMETER(decay , .0, .99) NUMERIC_PARAMETER(mod_speed, .1, 2) } while (0); if (argc && sscanf(*argv, "-%1[st]%c", chars, chars + 1) == 1) { p->mod_type = *chars == 's'? SOX_WAVE_SINE : SOX_WAVE_TRIANGLE; --argc, ++argv; } if (p->in_gain > (1 - p->decay * p->decay)) lsx_warn("warning: gain-in might cause clipping"); if (p->in_gain / (1 - p->decay) > 1 / p->out_gain) lsx_warn("warning: gain-out might cause clipping"); return argc? lsx_usage(effp) : SOX_SUCCESS; } static int start(sox_effect_t * effp) { priv_t * p = (priv_t *) effp->priv; p->delay_buf_len = p->delay_ms * .001 * effp->in_signal.rate + .5; p->delay_buf = lsx_calloc(p->delay_buf_len, sizeof(*p->delay_buf)); p->mod_buf_len = effp->in_signal.rate / p->mod_speed + .5; p->mod_buf = lsx_malloc(p->mod_buf_len * sizeof(*p->mod_buf)); lsx_generate_wave_table(p->mod_type, SOX_INT, p->mod_buf, p->mod_buf_len, 1., (double)p->delay_buf_len, M_PI_2); p->delay_pos = p->mod_pos = 0; effp->out_signal.length = SOX_UNKNOWN_LEN; /* TODO: calculate actual length */ return SOX_SUCCESS; } static int flow(sox_effect_t * effp, const sox_sample_t *ibuf, sox_sample_t *obuf, size_t *isamp, size_t *osamp) { priv_t * p = (priv_t *) effp->priv; size_t len = *isamp = *osamp = min(*isamp, *osamp); while (len--) { double d = *ibuf++ * p->in_gain + p->delay_buf[ (p->delay_pos + p->mod_buf[p->mod_pos]) % p->delay_buf_len] * p->decay; p->mod_pos = (p->mod_pos + 1) % p->mod_buf_len; p->delay_pos = (p->delay_pos + 1) % p->delay_buf_len; p->delay_buf[p->delay_pos] = d; *obuf++ = SOX_ROUND_CLIP_COUNT(d * p->out_gain, effp->clips); } return SOX_SUCCESS; } static int stop(sox_effect_t * effp) { priv_t * p = (priv_t *) effp->priv; free(p->delay_buf); free(p->mod_buf); return SOX_SUCCESS; } sox_effect_handler_t const * lsx_phaser_effect_fn(void) { static sox_effect_handler_t handler = { "phaser", "gain-in gain-out delay decay speed [ -s | -t ]", SOX_EFF_LENGTH | SOX_EFF_GAIN, getopts, start, flow, NULL, stop, NULL, sizeof(priv_t) }; return &handler; }