ref: 8b4d3fcc3e82eaed55c00038ff7bf718868e13aa
dir: /src/effects.c/
/* SoX Effects chain (c) 2007 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 */ #define LSX_EFF_ALIAS #include "sox_i.h" #include "getopt.h" #include <assert.h> #include <string.h> #ifdef HAVE_STRINGS_H #include <strings.h> #endif #define DEBUG_EFFECTS_CHAIN 0 /* FIXME: Not thread safe using globals */ sox_effects_globals_t sox_effects_globals = {sox_plot_off, &sox_globals}; /* Default effect handler functions for do-nothing situations: */ static int default_function(sox_effect_t * effp UNUSED) { return SOX_SUCCESS; } /* Pass through samples verbatim */ static int default_flow(sox_effect_t * effp UNUSED, const sox_sample_t *ibuf UNUSED, sox_sample_t *obuf UNUSED, size_t *isamp, size_t *osamp) { *isamp = *osamp = min(*isamp, *osamp); memcpy(obuf, ibuf, *isamp * sizeof(*obuf)); return SOX_SUCCESS; } /* Inform no more samples to drain */ static int default_drain(sox_effect_t * effp UNUSED, sox_sample_t *obuf UNUSED, size_t *osamp) { *osamp = 0; return SOX_EOF; } /* Check that no parameters have been given */ static int default_getopts(sox_effect_t * effp, int argc, char **argv UNUSED) { return --argc? lsx_usage(effp) : SOX_SUCCESS; } /* Partially initialise the effect structure; signal info will come later */ sox_effect_t * sox_create_effect(sox_effect_handler_t const * eh) { sox_effect_t * effp = lsx_calloc(1, sizeof(*effp)); effp->global_info = &sox_effects_globals; effp->handler = *eh; if (!effp->handler.getopts) effp->handler.getopts = default_getopts; if (!effp->handler.start ) effp->handler.start = default_function; if (!effp->handler.flow ) effp->handler.flow = default_flow; if (!effp->handler.drain ) effp->handler.drain = default_drain; if (!effp->handler.stop ) effp->handler.stop = default_function; if (!effp->handler.kill ) effp->handler.kill = default_function; effp->priv = lsx_calloc(1, effp->handler.priv_size); return effp; } /* sox_create_effect */ int sox_effect_options(sox_effect_t *effp, int argc, char * const argv[]) { int result, callers_optind = optind, callers_opterr = opterr; char * * argv2 = lsx_malloc((argc + 1) * sizeof(*argv2)); argv2[0] = (char *)effp->handler.name; memcpy(argv2 + 1, argv, argc * sizeof(*argv2)); optind = 1, opterr = 0; result = effp->handler.getopts(effp, argc + 1, argv2); optind = callers_optind, opterr = callers_opterr; free(argv2); return result; } /* sox_effect_options */ /* Effects chain: */ sox_effects_chain_t * sox_create_effects_chain( sox_encodinginfo_t const * in_enc, sox_encodinginfo_t const * out_enc) { sox_effects_chain_t * result = lsx_calloc(1, sizeof(sox_effects_chain_t)); result->global_info = sox_effects_globals; result->in_enc = in_enc; result->out_enc = out_enc; return result; } /* sox_create_effects_chain */ void sox_delete_effects_chain(sox_effects_chain_t *ecp) { if (ecp && ecp->length) sox_delete_effects(ecp); free(ecp); } /* sox_delete_effects_chain */ /* Effect can call in start() or flow() to set minimum input size to flow() */ int lsx_effect_set_imin(sox_effect_t * effp, size_t imin) { if (imin > sox_globals.bufsiz / effp->flows) { lsx_fail("sox_bufsiz not big enough"); return SOX_EOF; } effp->imin = imin; return SOX_SUCCESS; } /* Add an effect to the chain. *in is the input signal for this effect. *out is * a suggestion as to what the output signal should be, but depending on its * given options and *in, the effect can choose to do differently. Whatever * output rate and channels the effect does produce are written back to *in, * ready for the next effect in the chain. */ int sox_add_effect(sox_effects_chain_t * chain, sox_effect_t * effp, sox_signalinfo_t * in, sox_signalinfo_t const * out) { int ret, (*start)(sox_effect_t * effp) = effp->handler.start; unsigned f; sox_effect_t eff0; /* Copy of effect for flow 0 before calling start */ effp->global_info = &chain->global_info; effp->in_signal = *in; effp->out_signal = *out; effp->in_encoding = chain->in_enc; effp->out_encoding = chain->out_enc; if (!(effp->handler.flags & SOX_EFF_CHAN)) effp->out_signal.channels = in->channels; if (!(effp->handler.flags & SOX_EFF_RATE)) effp->out_signal.rate = in->rate; if (!(effp->handler.flags & SOX_EFF_PREC)) effp->out_signal.precision = (effp->handler.flags & SOX_EFF_MODIFY)? in->precision : SOX_SAMPLE_PRECISION; if (!(effp->handler.flags & SOX_EFF_GAIN)) effp->out_signal.mult = in->mult; effp->flows = (effp->handler.flags & SOX_EFF_MCHAN)? 1 : effp->in_signal.channels; effp->clips = 0; effp->imin = 0; eff0 = *effp, eff0.priv = lsx_memdup(eff0.priv, eff0.handler.priv_size); eff0.in_signal.mult = NULL; /* Only used in channel 0 */ ret = start(effp); if (ret == SOX_EFF_NULL) { lsx_report("has no effect in this configuration"); free(eff0.priv); return SOX_SUCCESS; } if (ret != SOX_SUCCESS) { free(eff0.priv); return SOX_EOF; } if (in->mult) lsx_debug("mult=%g", *in->mult); *in = effp->out_signal; if (chain->length == SOX_MAX_EFFECTS) { lsx_fail("Too many effects!"); free(eff0.priv); return SOX_EOF; } chain->effects[chain->length] = lsx_calloc(effp->flows, sizeof(chain->effects[chain->length][0])); chain->effects[chain->length][0] = *effp; for (f = 1; f < effp->flows; ++f) { chain->effects[chain->length][f] = eff0; chain->effects[chain->length][f].flow = f; chain->effects[chain->length][f].priv = lsx_memdup(eff0.priv, eff0.handler.priv_size); if (start(&chain->effects[chain->length][f]) != SOX_SUCCESS) { free(eff0.priv); return SOX_EOF; } } ++chain->length; free(eff0.priv); return SOX_SUCCESS; } static int flow_effect(sox_effects_chain_t * chain, size_t n) { sox_effect_t * effp1 = &chain->effects[n - 1][0]; sox_effect_t * effp = &chain->effects[n][0]; int effstatus = SOX_SUCCESS, f; size_t i; const sox_sample_t *ibuf; size_t idone = effp1->oend - effp1->obeg; size_t obeg = sox_globals.bufsiz - effp->oend; #if DEBUG_EFFECTS_CHAIN size_t pre_idone = idone; size_t pre_odone = obeg; #endif if (effp->flows == 1) /* Run effect on all channels at once */ effstatus = effp->handler.flow(effp, &effp1->obuf[effp1->obeg], &effp->obuf[effp->oend], &idone, &obeg); else { /* Run effect on each channel individually */ sox_sample_t *obuf = &effp->obuf[effp->oend]; size_t idone_last = 0, odone_last = 0; /* Initialised to prevent warning */ ibuf = &effp1->obuf[effp1->obeg]; for (i = 0; i < idone; i += effp->flows) for (f = 0; f < (int)effp->flows; ++f) chain->ibufc[f][i / effp->flows] = *ibuf++; #ifdef HAVE_OPENMP #pragma omp parallel for #endif for (f = 0; f < (int)effp->flows; ++f) { size_t idonec = idone / effp->flows; size_t odonec = obeg / effp->flows; int eff_status_c = effp->handler.flow(&chain->effects[n][f], chain->ibufc[f], chain->obufc[f], &idonec, &odonec); #ifndef HAVE_OPENMP if (f && (idonec != idone_last || odonec != odone_last)) { lsx_fail("flowed asymmetrically!"); effstatus = SOX_EOF; } #endif idone_last = idonec; odone_last = odonec; if (eff_status_c != SOX_SUCCESS) effstatus = SOX_EOF; } for (i = 0; i < odone_last; ++i) for (f = 0; f < (int)effp->flows; ++f) *obuf++ = chain->obufc[f][i]; idone = f * idone_last; obeg = f * odone_last; } #if DEBUG_EFFECTS_CHAIN lsx_report("flow: %5u%5u%5u%5u", pre_idone, pre_odone, idone, obeg); #endif effp1->obeg += idone; if (effp1->obeg == effp1->oend) effp1->obeg = effp1->oend = 0; else if (effp1->oend - effp1->obeg < effp->imin ) { /* Need to refill? */ memmove(effp1->obuf, &effp1->obuf[effp1->obeg], (effp1->oend - effp1->obeg) * sizeof(*effp1->obuf)); effp1->oend -= effp1->obeg; effp1->obeg = 0; } effp->oend += obeg; return effstatus == SOX_SUCCESS? SOX_SUCCESS : SOX_EOF; } /* The same as flow_effect but with no input */ static int drain_effect(sox_effects_chain_t * chain, size_t n) { sox_effect_t * effp = &chain->effects[n][0]; int effstatus = SOX_SUCCESS; size_t i, f; size_t obeg = sox_globals.bufsiz - effp->oend; #if DEBUG_EFFECTS_CHAIN size_t pre_odone = obeg; #endif if (effp->flows == 1) /* Run effect on all channels at once */ effstatus = effp->handler.drain(effp, &effp->obuf[effp->oend], &obeg); else { /* Run effect on each channel individually */ sox_sample_t *obuf = &effp->obuf[effp->oend]; size_t odone_last = 0; /* Initialised to prevent warning */ for (f = 0; f < effp->flows; ++f) { size_t odonec = obeg / effp->flows; int eff_status_c = effp->handler.drain(&chain->effects[n][f], chain->obufc[f], &odonec); if (f && (odonec != odone_last)) { lsx_fail("drained asymmetrically!"); effstatus = SOX_EOF; } odone_last = odonec; if (eff_status_c != SOX_SUCCESS) effstatus = SOX_EOF; } for (i = 0; i < odone_last; ++i) for (f = 0; f < effp->flows; ++f) *obuf++ = chain->obufc[f][i]; obeg = f * odone_last; } #if DEBUG_EFFECTS_CHAIN lsx_report("drain: %5u%5u%5u%5u", 0, pre_odone, 0, obeg); #endif if (!obeg) /* This is the only thing that drain has and flow hasn't */ effstatus = SOX_EOF; effp->oend += obeg; return effstatus == SOX_SUCCESS? SOX_SUCCESS : SOX_EOF; } /* Flow data through the effects chain until an effect or callback gives EOF */ int sox_flow_effects(sox_effects_chain_t * chain, int (* callback)(sox_bool all_done, void * client_data), void * client_data) { int flow_status = SOX_SUCCESS; size_t e, source_e = 0; /* effect indices */ size_t f, max_flows = 0; sox_bool draining = sox_true; for (e = 0; e < chain->length; ++e) { chain->effects[e][0].obuf = lsx_malloc(sox_globals.bufsiz * sizeof(chain->effects[e][0].obuf[0])); chain->effects[e][0].obeg = chain->effects[e][0].oend = 0; max_flows = max(max_flows, chain->effects[e][0].flows); } chain->ibufc = lsx_calloc(max_flows, sizeof(*chain->ibufc)); chain->obufc = lsx_calloc(max_flows, sizeof(*chain->obufc)); for (f = 0; f < max_flows; ++f) { chain->ibufc[f] = lsx_calloc(sox_globals.bufsiz / 2, sizeof(chain->ibufc[f][0])); chain->obufc[f] = lsx_calloc(sox_globals.bufsiz / 2, sizeof(chain->obufc[f][0])); } e = chain->length - 1; while (source_e < chain->length) { #define have_imin (e > 0 && e < chain->length && chain->effects[e - 1][0].oend - chain->effects[e - 1][0].obeg >= chain->effects[e][0].imin) size_t osize = chain->effects[e][0].oend - chain->effects[e][0].obeg; if (e == source_e && (draining || !have_imin)) { if (drain_effect(chain, e) == SOX_EOF) { ++source_e; draining = sox_false; } } else if (have_imin && flow_effect(chain, e) == SOX_EOF) { flow_status = SOX_EOF; if (e == chain->length - 1) break; source_e = e; draining = sox_true; } if (e < chain->length && chain->effects[e][0].oend - chain->effects[e][0].obeg > osize) /* False for output */ ++e; else if (e == source_e) draining = sox_true; else if ((int)--e < (int)source_e) e = source_e; if (callback && callback(source_e == chain->length, client_data) != SOX_SUCCESS) { flow_status = SOX_EOF; /* Client has requested to stop the flow. */ break; } } for (f = 0; f < max_flows; ++f) { free(chain->ibufc[f]); free(chain->obufc[f]); } free(chain->obufc); free(chain->ibufc); for (e = 0; e < chain->length; ++e) free(chain->effects[e][0].obuf); return flow_status; } size_t sox_effects_clips(sox_effects_chain_t * chain) { unsigned i, f; size_t clips = 0; for (i = 1; i < chain->length - 1; ++i) for (f = 0; f < chain->effects[i][0].flows; ++f) clips += chain->effects[i][f].clips; return clips; } size_t sox_stop_effect(sox_effect_t *effp) { unsigned f; size_t clips = 0; for (f = 0; f < effp->flows; ++f) { effp[f].handler.stop(&effp[f]); clips += effp[f].clips; } return clips; } void sox_push_effect_last(sox_effects_chain_t *chain, sox_effect_t *effp) { chain->effects[chain->length++] = effp;; } /* sox_push_effect_last */ sox_effect_t *sox_pop_effect_last(sox_effects_chain_t *chain) { if (chain->length > 0) { sox_effect_t *effp; chain->length--; effp = chain->effects[chain->length]; chain->effects[chain->length] = NULL; return effp; } else return NULL; } /* sox_pop_effect_last */ /* Free resources related to effect. * Note: This currently closes down the effect which might * not be obvious from name. */ void sox_delete_effect(sox_effect_t *effp) { size_t clips; unsigned f; if ((clips = sox_stop_effect(effp)) != 0) lsx_warn("%s clipped %lu samples; decrease volume?", effp->handler.name, (unsigned long)clips); effp->handler.kill(effp); /* N.B. only one kill; not one per flow */ for (f = 0; f < effp->flows; ++f) free(effp[f].priv); free(effp); } void sox_delete_effect_last(sox_effects_chain_t *chain) { if (chain->length > 0) { chain->length--; sox_delete_effect(chain->effects[chain->length]); chain->effects[chain->length] = NULL; } } /* sox_delete_effect_last */ /* Remove all effects from the chain. * Note: This currently closes down the effect which might * not be obvious from name. */ void sox_delete_effects(sox_effects_chain_t * chain) { size_t e; for (e = 0; e < chain->length; ++e) { sox_delete_effect(chain->effects[e]); chain->effects[e] = NULL; } chain->length = 0; } /*----------------------------- Effects library ------------------------------*/ sox_effect_fn_t sox_effect_fns[] = { #define EFFECT(f) lsx_##f##_effect_fn, #include "effects.h" #undef EFFECT NULL }; /* Find a named effect in the effects library */ sox_effect_handler_t const * sox_find_effect(char const * name) { int e; for (e = 0; sox_effect_fns[e]; ++e) { const sox_effect_handler_t *eh = sox_effect_fns[e] (); if (eh && eh->name && strcasecmp(eh->name, name) == 0) return eh; /* Found it. */ } return NULL; }