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/* $Id$ */
/***
This file is part of polypaudio.
polypaudio 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.
polypaudio 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
General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with polypaudio; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
USA.
***/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <assert.h>
#include <string.h>
#include <samplerate.h>
#include "resampler.h"
#include "sconv.h"
#include "xmalloc.h"
#include "log.h"
struct pa_resampler {
struct pa_sample_spec i_ss, o_ss;
size_t i_fz, o_fz;
struct pa_memblock_stat *memblock_stat;
void *impl_data;
int channels;
enum pa_resample_method resample_method;
void (*impl_free)(struct pa_resampler *r);
void (*impl_set_input_rate)(struct pa_resampler *r, uint32_t rate);
void (*impl_run)(struct pa_resampler *r, const struct pa_memchunk *in, struct pa_memchunk *out);
};
struct impl_libsamplerate {
float* i_buf, *o_buf;
unsigned i_alloc, o_alloc;
pa_convert_to_float32ne_func_t to_float32ne_func;
pa_convert_from_float32ne_func_t from_float32ne_func;
SRC_STATE *src_state;
};
struct impl_trivial {
unsigned o_counter;
unsigned i_counter;
};
static int libsamplerate_init(struct pa_resampler*r);
static int trivial_init(struct pa_resampler*r);
struct pa_resampler* pa_resampler_new(const struct pa_sample_spec *a, const struct pa_sample_spec *b, struct pa_memblock_stat *s, enum pa_resample_method resample_method) {
struct pa_resampler *r = NULL;
assert(a && b && pa_sample_spec_valid(a) && pa_sample_spec_valid(b) && resample_method != PA_RESAMPLER_INVALID);
if (a->channels != b->channels && a->channels != 1 && b->channels != 1)
goto fail;
r = pa_xmalloc(sizeof(struct pa_resampler));
r->impl_data = NULL;
r->memblock_stat = s;
r->resample_method = resample_method;
r->impl_free = NULL;
r->impl_set_input_rate = NULL;
r->impl_run = NULL;
/* Fill sample specs */
r->i_ss = *a;
r->o_ss = *b;
r->i_fz = pa_frame_size(a);
r->o_fz = pa_frame_size(b);
r->channels = a->channels;
if (b->channels < r->channels)
r->channels = b->channels;
/* Choose implementation */
if (a->channels != b->channels || a->format != b->format || resample_method != PA_RESAMPLER_TRIVIAL) {
/* Use the libsamplerate based resampler for the complicated cases */
if (resample_method == PA_RESAMPLER_TRIVIAL)
r->resample_method = PA_RESAMPLER_SRC_ZERO_ORDER_HOLD;
if (libsamplerate_init(r) < 0)
goto fail;
} else {
/* Use our own simple non-fp resampler for the trivial cases and when the user selects it */
if (trivial_init(r) < 0)
goto fail;
}
return r;
fail:
if (r)
pa_xfree(r);
return NULL;
}
void pa_resampler_free(struct pa_resampler *r) {
assert(r);
if (r->impl_free)
r->impl_free(r);
pa_xfree(r);
}
void pa_resampler_set_input_rate(struct pa_resampler *r, uint32_t rate) {
assert(r && rate);
r->i_ss.rate = rate;
if (r->impl_set_input_rate)
r->impl_set_input_rate(r, rate);
}
void pa_resampler_run(struct pa_resampler *r, const struct pa_memchunk *in, struct pa_memchunk *out) {
assert(r && in && out && r->impl_run);
r->impl_run(r, in, out);
}
size_t pa_resampler_request(struct pa_resampler *r, size_t out_length) {
assert(r && (out_length % r->o_fz) == 0);
return (((out_length / r->o_fz)*r->i_ss.rate)/r->o_ss.rate) * r->i_fz;
}
enum pa_resample_method pa_resampler_get_method(struct pa_resampler *r) {
assert(r);
return r->resample_method;
}
/* Parse a libsamplrate compatible resampling implementation */
enum pa_resample_method pa_parse_resample_method(const char *string) {
assert(string);
if (!strcmp(string, "src-sinc-best-quality"))
return PA_RESAMPLER_SRC_SINC_BEST_QUALITY;
else if (!strcmp(string, "src-sinc-medium-quality"))
return PA_RESAMPLER_SRC_SINC_MEDIUM_QUALITY;
else if (!strcmp(string, "src-sinc-fastest"))
return PA_RESAMPLER_SRC_SINC_FASTEST;
else if (!strcmp(string, "src-zero-order-hold"))
return PA_RESAMPLER_SRC_ZERO_ORDER_HOLD;
else if (!strcmp(string, "src-linear"))
return PA_RESAMPLER_SRC_LINEAR;
else if (!strcmp(string, "trivial"))
return PA_RESAMPLER_TRIVIAL;
else
return PA_RESAMPLER_INVALID;
}
/*** libsamplerate based implementation ***/
static void libsamplerate_free(struct pa_resampler *r) {
struct impl_libsamplerate *i;
assert(r && r->impl_data);
i = r->impl_data;
if (i->src_state)
src_delete(i->src_state);
pa_xfree(i->i_buf);
pa_xfree(i->o_buf);
pa_xfree(i);
}
static void libsamplerate_run(struct pa_resampler *r, const struct pa_memchunk *in, struct pa_memchunk *out) {
unsigned i_nchannels, o_nchannels, ins, ons, eff_ins, eff_ons;
float *cbuf;
struct impl_libsamplerate *i;
assert(r && in && out && in->length && in->memblock && (in->length % r->i_fz) == 0 && r->impl_data);
i = r->impl_data;
/* How many input samples? */
ins = in->length/r->i_fz;
/* pa_log("%u / %u = %u\n", in->length, r->i_fz, ins); */
/* How much space for output samples? */
if (i->src_state)
ons = (ins*r->o_ss.rate/r->i_ss.rate)+1024;
else
ons = ins;
/* How many channels? */
if (r->i_ss.channels == r->o_ss.channels) {
i_nchannels = o_nchannels = 1;
eff_ins = ins*r->i_ss.channels; /* effective samples */
eff_ons = ons*r->o_ss.channels;
} else {
i_nchannels = r->i_ss.channels;
o_nchannels = r->o_ss.channels;
eff_ins = ins;
eff_ons = ons;
}
/* pa_log("eff_ins = %u \n", eff_ins); */
out->memblock = pa_memblock_new(out->length = (ons*r->o_fz), r->memblock_stat);
out->index = 0;
assert(out->memblock);
if (i->i_alloc < eff_ins)
i->i_buf = pa_xrealloc(i->i_buf, sizeof(float) * (i->i_alloc = eff_ins));
assert(i->i_buf);
/* pa_log("eff_ins = %u \n", eff_ins); */
i->to_float32ne_func(eff_ins, (uint8_t*) in->memblock->data+in->index, i_nchannels, i->i_buf);
if (i->src_state) {
int ret;
SRC_DATA data;
if (i->o_alloc < eff_ons)
i->o_buf = pa_xrealloc(i->o_buf, sizeof(float) * (i->o_alloc = eff_ons));
assert(i->o_buf);
data.data_in = i->i_buf;
data.input_frames = ins;
data.data_out = i->o_buf;
data.output_frames = ons;
data.src_ratio = (double) r->o_ss.rate / r->i_ss.rate;
data.end_of_input = 0;
ret = src_process(i->src_state, &data);
assert(ret == 0);
assert((unsigned) data.input_frames_used == ins);
cbuf = i->o_buf;
ons = data.output_frames_gen;
if (r->i_ss.channels == r->o_ss.channels)
eff_ons = ons*r->o_ss.channels;
else
eff_ons = ons;
} else
cbuf = i->i_buf;
if (eff_ons)
i->from_float32ne_func(eff_ons, cbuf, (uint8_t*)out->memblock->data+out->index, o_nchannels);
out->length = ons*r->o_fz;
if (!out->length) {
pa_memblock_unref(out->memblock);
out->memblock = NULL;
}
}
static void libsamplerate_set_input_rate(struct pa_resampler *r, uint32_t rate) {
int ret;
struct impl_libsamplerate *i;
assert(r && rate > 0 && r->impl_data);
i = r->impl_data;
ret = src_set_ratio(i->src_state, (double) r->o_ss.rate / r->i_ss.rate);
assert(ret == 0);
}
static int libsamplerate_init(struct pa_resampler *r) {
struct impl_libsamplerate *i = NULL;
int err;
r->impl_data = i = pa_xmalloc(sizeof(struct impl_libsamplerate));
i->to_float32ne_func = pa_get_convert_to_float32ne_function(r->i_ss.format);
i->from_float32ne_func = pa_get_convert_from_float32ne_function(r->o_ss.format);
if (!i->to_float32ne_func || !i->from_float32ne_func)
goto fail;
if (!(i->src_state = src_new(r->resample_method, r->channels, &err)) || !i->src_state)
goto fail;
i->i_buf = i->o_buf = NULL;
i->i_alloc = i->o_alloc = 0;
r->impl_free = libsamplerate_free;
r->impl_set_input_rate = libsamplerate_set_input_rate;
r->impl_run = libsamplerate_run;
return 0;
fail:
pa_xfree(i);
return -1;
}
/* Trivial implementation */
static void trivial_run(struct pa_resampler *r, const struct pa_memchunk *in, struct pa_memchunk *out) {
size_t fz;
unsigned nframes;
struct impl_trivial *i;
assert(r && in && out && r->impl_data);
i = r->impl_data;
fz = r->i_fz;
assert(fz == r->o_fz);
nframes = in->length/fz;
if (r->i_ss.rate == r->o_ss.rate) {
/* In case there's no diefference in sample types, do nothing */
*out = *in;
pa_memblock_ref(out->memblock);
i->o_counter += nframes;
} else {
/* Do real resampling */
size_t l;
unsigned o_index;
/* The length of the new memory block rounded up */
l = ((((nframes+1) * r->o_ss.rate) / r->i_ss.rate) + 1) * fz;
out->index = 0;
out->memblock = pa_memblock_new(l, r->memblock_stat);
for (o_index = 0;; o_index++, i->o_counter++) {
unsigned j;
j = (i->o_counter * r->i_ss.rate / r->o_ss.rate);
j = j > i->i_counter ? j - i->i_counter : 0;
if (j >= nframes)
break;
assert(o_index*fz < out->memblock->length);
memcpy((uint8_t*) out->memblock->data + fz*o_index,
(uint8_t*) in->memblock->data + in->index + fz*j, fz);
}
out->length = o_index*fz;
}
i->i_counter += nframes;
/* Normalize counters */
while (i->i_counter >= r->i_ss.rate) {
i->i_counter -= r->i_ss.rate;
assert(i->o_counter >= r->o_ss.rate);
i->o_counter -= r->o_ss.rate;
}
}
static void trivial_free(struct pa_resampler *r) {
assert(r);
pa_xfree(r->impl_data);
}
static void trivial_set_input_rate(struct pa_resampler *r, uint32_t rate) {
struct impl_trivial *i;
assert(r && rate > 0 && r->impl_data);
i = r->impl_data;
i->i_counter = 0;
i->o_counter = 0;
}
static int trivial_init(struct pa_resampler*r) {
struct impl_trivial *i;
assert(r && r->i_ss.format == r->o_ss.format && r->i_ss.channels == r->o_ss.channels);
r->impl_data = i = pa_xmalloc(sizeof(struct impl_trivial));
i->o_counter = i->i_counter = 0;
r->impl_run = trivial_run;
r->impl_free = trivial_free;
r->impl_set_input_rate = trivial_set_input_rate;
return 0;
}
const char *pa_resample_method_to_string(enum pa_resample_method m) {
static const char * const resample_methods[] = {
"src-sinc-best-quality",
"src-sinc-medium-quality",
"src-sinc-fastest",
"src-zero-order-hold",
"src-linear",
"trivial"
};
if (m < 0 || m >= PA_RESAMPLER_MAX)
return NULL;
return resample_methods[m];
}
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