boo/soxr/examples/4-split-channels.c

162 lines
5.8 KiB
C

/* SoX Resampler Library Copyright (c) 2007-18 robs@users.sourceforge.net
* Licence for this file: LGPL v2.1 See LICENCE for details. */
/* Example 4: variant of examples 2 & 3, demonstrating I/O with split channels.
*
* Note that, for convenience of the demonstration, split-channel data is
* made available by deinterleaving data sourced from and sent to
* interleaved file-streams; this adds a lot of code to the example that,
* for purposes of understanding how to use split-channels, may safely be
* ignored. In a real application, the channel-data might never be
* interleaved; for example, the split-channel data output from the
* resampler might be sent directly to digital-to-analogue converters.
*
* Note also (not shown in the examples) that split/interleaved channels may
* be used for input and output independently.
*
* Arguments are as example 3.
*/
#include <soxr.h>
#include "examples-common.h"
#define DEINTERLEAVE(T) do { \
unsigned i; \
size_t j; \
T * const * dest = (T * const *)dest0; \
T const * src = src0; \
if (ch == 1) memcpy(dest[0], src, n * sizeof(dest[0][0])); \
else for (j = 0; j < n; ++j) for (i = 0; i < ch; ++i) dest[i][j] = *src++; \
return; \
} while (0)
static void deinterleave(soxr_datatype_t data_type,
void * const * dest0,
void const * src0,
size_t n, unsigned ch)
{
switch (data_type & 3) {
case SOXR_FLOAT32: DEINTERLEAVE(float);
case SOXR_FLOAT64: DEINTERLEAVE(double);
case SOXR_INT32 : DEINTERLEAVE(int32_t);
case SOXR_INT16 : DEINTERLEAVE(int16_t);
default: break;
}
}
#define INTERLEAVE(T) do { \
unsigned i; \
size_t j; \
T * dest = dest0; \
T const * const * src = (T const * const *)src0; \
if (ch == 1) memcpy(dest, src[0], n * sizeof(dest[0])); \
else for (j = 0; j < n; ++j) for (i = 0; i < ch; ++i) *dest++ = src[i][j]; \
return; \
} while (0)
static void interleave(soxr_datatype_t data_type, void * dest0,
void * const * src0, size_t n, unsigned ch)
{
switch (data_type & 3) {
case SOXR_FLOAT32: INTERLEAVE(float);
case SOXR_FLOAT64: INTERLEAVE(double);
case SOXR_INT32 : INTERLEAVE(int32_t);
case SOXR_INT16 : INTERLEAVE(int16_t);
default: break;
}
}
int main(int n, char const * arg[])
{
char const * const arg0 = n? --n, *arg++ : "";
double const irate = n? --n, atof(*arg++) : 96000.;
double const orate = n? --n, atof(*arg++) : 44100.;
unsigned const chans = n? --n, (unsigned)atoi(*arg++) : 1;
soxr_datatype_t const itype = n? --n, (soxr_datatype_t)atoi(*arg++) : 0;
unsigned const ospec = n? --n, (soxr_datatype_t)atoi(*arg++) : 0;
unsigned long const q_recipe= n? --n, strtoul(*arg++, 0, 16) : SOXR_HQ;
unsigned long const q_flags = n? --n, strtoul(*arg++, 0, 16) : 0;
double const passband_end = n? --n, atof(*arg++) : 0;
double const stopband_begin = n? --n, atof(*arg++) : 0;
double const phase_response = n? --n, atof(*arg++) : -1;
int const use_threads = n? --n, atoi(*arg++) : 1;
soxr_datatype_t const otype = ospec & 3;
soxr_quality_spec_t q_spec = soxr_quality_spec(q_recipe, q_flags);
soxr_io_spec_t io_spec=soxr_io_spec(itype|SOXR_SPLIT, otype|SOXR_SPLIT);
soxr_runtime_spec_t const runtime_spec = soxr_runtime_spec(!use_threads);
/* Allocate resampling input and output buffers in proportion to the input
* and output rates: */
#define buf_total_len 15000 /* In samples per channel. */
size_t const osize = soxr_datatype_size(otype) * chans;
size_t const isize = soxr_datatype_size(itype) * chans;
size_t const olen = (size_t)(orate * buf_total_len / (irate + orate) + .5);
size_t const ilen = buf_total_len - olen;
/* For split channels: */
void * * const obuf_ptrs = malloc(sizeof(void *) * chans);
void * * ibuf_ptrs = malloc(sizeof(void *) * chans);
char * const obufs = malloc(osize * olen), * optr = obufs;
char * const ibufs = malloc(isize * ilen), * iptr = ibufs;
/* For interleaved channels: */
char * const obuf = malloc(osize * olen);
char * const ibuf = malloc(isize * ilen);
size_t odone, written, need_input = 1, clips = 0;
soxr_error_t error;
soxr_t soxr;
unsigned i;
/* Overrides (if given): */
if (passband_end > 0) q_spec.passband_end = passband_end / 100;
if (stopband_begin > 0) q_spec.stopband_begin = stopband_begin / 100;
if (phase_response >=0) q_spec.phase_response = phase_response;
io_spec.flags = ospec & ~7u;
soxr = soxr_create(
irate, orate, chans, &error, &io_spec, &q_spec, &runtime_spec);
for (i = 0; i < chans; ++i) {
ibuf_ptrs[i] = iptr;
obuf_ptrs[i] = optr;
iptr += ilen * soxr_datatype_size(itype);
optr += olen * soxr_datatype_size(otype);
}
if (!error) {
USE_STD_STDIO;
do {
size_t ilen1 = 0;
if (need_input) {
if (!(ilen1 = fread(ibuf, isize, ilen, stdin)))
free(ibuf_ptrs), ibuf_ptrs = 0; /* If none available, don't retry. */
else deinterleave(itype, ibuf_ptrs, ibuf, ilen1, chans);
}
error = soxr_process(soxr, ibuf_ptrs, ilen1, NULL, obuf_ptrs, olen, &odone);
interleave(otype, obuf, obuf_ptrs, odone, chans); /* Consume output... */
written = fwrite(obuf, osize, odone, stdout);
need_input = odone < olen && ibuf_ptrs;
} while (!error && (need_input || written));
clips = *soxr_num_clips(soxr); /* Can occur only with integer output. */
}
/* Tidy up: */
soxr_delete(soxr);
free(obuf), free(ibuf), free(obufs), free(ibufs);
free(obuf_ptrs), free(ibuf_ptrs);
/* Diagnostics: */
fprintf(stderr, "%-26s %s; %lu clips; I/O: %s\n",
arg0, soxr_strerror(error), (long unsigned)clips,
ferror(stdin) || ferror(stdout)? strerror(errno) : "no error");
return !!error;
}