shithub: sox

ref: a32b1e7095466c6ba08d84827b0cb16e6e623696
dir: /src/effects.c/

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/*
 * 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 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,
 * Fifth Floor, 51 Franklin Street, Boston, MA 02111-1301, USA.
 */

#include "sox_i.h"
#include <assert.h>
#include <string.h>
#ifdef HAVE_STRINGS_H
  #include <strings.h>
#endif


#undef sox_fail
#undef sox_report
#define sox_fail sox_globals.subsystem=effp->handler.name,sox_fail
#define sox_report sox_globals.subsystem=effp->handler.name,sox_report


sox_effects_globals_t sox_effects_globals =
    {sox_false, 1, &sox_globals};

int sox_usage(sox_effect_t * effp)
{
  if (effp->handler.usage)
    sox_fail("usage: %s", effp->handler.usage);
  else
    sox_fail("this effect takes no parameters");
  return SOX_EOF;
}

/* 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_ssample_t *ibuf UNUSED, sox_ssample_t *obuf UNUSED, sox_size_t *isamp, sox_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_ssample_t *obuf UNUSED, sox_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? sox_usage(effp) : SOX_SUCCESS;
}

/* Partially initialise the effect structure; signal info will come later */
void sox_create_effect(sox_effect_t * effp, sox_effect_handler_t const * eh)
{
  assert(eh);
  memset(effp, 0, 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;
}



/* Effects chain: */

sox_effect_t * sox_effects[SOX_MAX_EFFECTS];
unsigned sox_neffects;

/* Effect can call in start() or flow() to set minimum input size to flow() */
int sox_effect_set_imin(sox_effect_t * effp, sox_size_t imin)
{
  if (imin > sox_globals.bufsiz / effp->flows) {
    sox_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_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 */

  if (effp->handler.flags & SOX_EFF_NULL) {
    sox_report("has no effect (is a proxy effect)");
    return SOX_SUCCESS;
  }
  effp->ininfo = *in;
  effp->outinfo = *out;
  if (!(effp->handler.flags & SOX_EFF_CHAN))
    effp->outinfo.channels = in->channels;
  if (!(effp->handler.flags & SOX_EFF_RATE))
    effp->outinfo.rate = in->rate;
  if (!(effp->handler.flags & SOX_EFF_PREC))
    effp->outinfo.size = in->size;

  effp->flows =
    (effp->handler.flags & SOX_EFF_MCHAN)? 1 : effp->ininfo.channels;
  effp->clips = 0;
  effp->imin = 0;
  eff0 = *effp;
  ret = start(effp);
  if (ret == SOX_EFF_NULL) {
    sox_report("has no effect in this configuration");
    return SOX_SUCCESS;
  }
  if (ret != SOX_SUCCESS)
    return SOX_EOF;

  *in = effp->outinfo;

  if (sox_neffects == SOX_MAX_EFFECTS) {
    sox_fail("Too many effects!");
    return SOX_EOF;
  }
  sox_effects[sox_neffects] =
    xcalloc(effp->flows, sizeof(sox_effects[sox_neffects][0]));
  sox_effects[sox_neffects][0] = *effp;

  for (f = 1; f < effp->flows; ++f) {
    sox_effects[sox_neffects][f] = eff0;
    sox_effects[sox_neffects][f].flow = f;
    if (start(&sox_effects[sox_neffects][f]) != SOX_SUCCESS)
      return SOX_EOF;
  }

  ++sox_neffects;
  return SOX_SUCCESS;
}

static sox_ssample_t **ibufc, **obufc; /* Channel interleave buffers */

static int flow_effect(unsigned n)
{
  sox_effect_t * effp1 = &sox_effects[n - 1][0];
  sox_effect_t * effp = &sox_effects[n][0];
  int effstatus = SOX_SUCCESS;
  sox_size_t i, f;
  const sox_ssample_t *ibuf;
  sox_size_t idone = effp1->olen - effp1->odone;
  sox_size_t odone = sox_globals.bufsiz - effp->olen;

  if (effp->flows == 1)       /* Run effect on all channels at once */
    effstatus = effp->handler.flow(effp, &effp1->obuf[effp1->odone],
                                   &effp->obuf[effp->olen], &idone, &odone);
  else {                 /* Run effect on each channel individually */
    sox_ssample_t *obuf = &effp->obuf[effp->olen];
    sox_size_t idone_last, odone_last;

    ibuf = &effp1->obuf[effp1->odone];
    for (i = 0; i < idone; i += effp->flows)
      for (f = 0; f < effp->flows; ++f)
        ibufc[f][i / effp->flows] = *ibuf++;

    for (f = 0; f < effp->flows; ++f) {
      sox_size_t idonec = idone / effp->flows;
      sox_size_t odonec = odone / effp->flows;
      int eff_status_c = effp->handler.flow(&sox_effects[n][f],
          ibufc[f], obufc[f], &idonec, &odonec);
      if (f && (idonec != idone_last || odonec != odone_last)) {
        sox_fail("flowed asymmetrically!");
        effstatus = SOX_EOF;
      }
      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 < effp->flows; ++f)
        *obuf++ = obufc[f][i];

    idone = f * idone_last;
    odone = f * odone_last;
  }
  effp1->odone += idone;
  if (effp1->odone == effp1->olen)
    effp1->odone = effp1->olen = 0;
  else if (effp1->olen - effp1->odone < effp->imin ) { /* Need to refill? */
    memmove(effp1->obuf, &effp1->obuf[effp1->odone], (effp1->olen - effp1->odone) * sizeof(*effp1->obuf));
    effp1->olen -= effp1->odone;
    effp1->odone = 0;
  }

  effp->olen += odone;

  return effstatus == SOX_SUCCESS? SOX_SUCCESS : SOX_EOF;
}

/* The same as flow_effect but with no input */
static int drain_effect(unsigned n)
{
  sox_effect_t * effp = &sox_effects[n][0];
  int effstatus = SOX_SUCCESS;
  sox_size_t i, f;
  sox_size_t odone = sox_globals.bufsiz - effp->olen;

  if (effp->flows == 1)   /* Run effect on all channels at once */
    effstatus = effp->handler.drain(effp, &effp->obuf[effp->olen], &odone);
  else {                         /* Run effect on each channel individually */
    sox_ssample_t *obuf = &effp->obuf[effp->olen];
    sox_size_t odone_last;

    for (f = 0; f < effp->flows; ++f) {
      sox_size_t odonec = odone / effp->flows;
      int eff_status_c = effp->handler.drain(&sox_effects[n][f], obufc[f], &odonec);
      if (f && (odonec != odone_last)) {
        sox_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++ = obufc[f][i];
    odone = f * odone_last;
  }
  if (!odone)   /* This is the only thing that drain has and flow hasn't */
    effstatus = SOX_EOF;

  effp->olen += odone;

  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(int (* callback)(sox_bool all_done))
{
  int flow_status = SOX_SUCCESS;
  sox_size_t e, source_e = 0;               /* effect indices */
  sox_size_t f, max_flows = 0;
  sox_bool draining = sox_true;

  for (e = 0; e < sox_neffects; ++e) {
    sox_effects[e][0].obuf = xmalloc(sox_globals.bufsiz * sizeof(sox_effects[e][0].obuf[0]));
    sox_effects[e][0].odone = sox_effects[e][0].olen = 0;
    max_flows = max(max_flows, sox_effects[e][0].flows);
  }

  ibufc = xcalloc(max_flows, sizeof(*ibufc));
  obufc = xcalloc(max_flows, sizeof(*obufc));
  for (f = 0; f < max_flows; ++f) {
    ibufc[f] = xcalloc(sox_globals.bufsiz / 2, sizeof(ibufc[f][0]));
    obufc[f] = xcalloc(sox_globals.bufsiz / 2, sizeof(obufc[f][0]));
  }

  e = sox_neffects - 1;
  while (source_e < sox_neffects) {
#define have_imin (e > 0 && e < sox_neffects && sox_effects[e - 1][0].olen - sox_effects[e - 1][0].odone >= sox_effects[e][0].imin)
    if (e == source_e && (draining || !have_imin)) {
      if (drain_effect(e) == SOX_EOF) {
        ++source_e;
        draining = sox_false;
      }
    } else if (have_imin && flow_effect(e) == SOX_EOF) {
      flow_status = SOX_EOF;
      source_e = e;
      draining = sox_true;
    }
    if (e < sox_neffects && sox_effects[e][0].olen > sox_effects[e][0].odone) /* 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 == sox_neffects) != SOX_SUCCESS) {
      flow_status = SOX_EOF; /* Client has requested to stop the flow. */
      break;
    }
  }

  for (f = 0; f < max_flows; ++f) {
    free(ibufc[f]);
    free(obufc[f]);
  }
  free(obufc);
  free(ibufc);

  for (e = 0; e < sox_neffects; ++e)
    free(sox_effects[e][0].obuf);

  return flow_status;
}

sox_size_t sox_effects_clips(void)
{
  unsigned i, f;
  sox_size_t clips = 0;
  for (i = 1; i < sox_neffects - 1; ++i)
    for (f = 0; f < sox_effects[i][0].flows; ++f)
      clips += sox_effects[i][f].clips;
  return clips;
}

sox_size_t sox_stop_effect(sox_size_t e)
{
  unsigned f;
  sox_effect_t * effp = &sox_effects[e][0];
  sox_size_t clips = 0;

  for (f = 0; f < effp->flows; ++f) {
    effp->handler.stop(&sox_effects[e][f]);
    clips += sox_effects[e][f].clips;
  }
  return clips;
}

/* Remove all effects from the chain */
void sox_delete_effects(void)
{
  while (sox_neffects)
    free(sox_effects[--sox_neffects]);
}



/* Effects library: */

sox_effect_fn_t sox_effect_fns[] = {
#define EFFECT(f) sox_##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;
}