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/******************************************************************************
*
* Copyright 2022 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
#include <lc3.h>
#include "common.h"
#include "bits.h"
#include "attdet.h"
#include "bwdet.h"
#include "ltpf.h"
#include "mdct.h"
#include "energy.h"
#include "sns.h"
#include "tns.h"
#include "spec.h"
#include "plc.h"
/**
* Frame side data
*/
struct side_data {
enum lc3_bandwidth bw;
bool pitch_present;
lc3_ltpf_data_t ltpf;
lc3_sns_data_t sns;
lc3_tns_data_t tns;
lc3_spec_side_t spec;
};
/* ----------------------------------------------------------------------------
* General
* -------------------------------------------------------------------------- */
/**
* Resolve frame duration in us
* us Frame duration in us
* hrmode High-resolution mode indication
* return Frame duration identifier, or LC3_NUM_DT
*/
static enum lc3_dt resolve_dt(int us, bool hrmode)
{
return LC3_PLUS && us == 2500 ? LC3_DT_2M5 :
LC3_PLUS && us == 5000 ? LC3_DT_5M :
!hrmode && us == 7500 ? LC3_DT_7M5 :
us == 10000 ? LC3_DT_10M : LC3_NUM_DT;
}
/**
* Resolve samplerate in Hz
* hz Samplerate in Hz
* hrmode High-resolution mode indication
* return Sample rate identifier, or LC3_NUM_SRATE
*/
static enum lc3_srate resolve_srate(int hz, bool hrmode)
{
hrmode = LC3_PLUS_HR && hrmode;
return !hrmode && hz == 8000 ? LC3_SRATE_8K :
!hrmode && hz == 16000 ? LC3_SRATE_16K :
!hrmode && hz == 24000 ? LC3_SRATE_24K :
!hrmode && hz == 32000 ? LC3_SRATE_32K :
!hrmode && hz == 48000 ? LC3_SRATE_48K :
hrmode && hz == 48000 ? LC3_SRATE_48K_HR :
hrmode && hz == 96000 ? LC3_SRATE_96K_HR : LC3_NUM_SRATE;
}
/**
* Return the number of PCM samples in a frame
*/
LC3_EXPORT int lc3_hr_frame_samples(bool hrmode, int dt_us, int sr_hz)
{
enum lc3_dt dt = resolve_dt(dt_us, hrmode);
enum lc3_srate sr = resolve_srate(sr_hz, hrmode);
if (dt >= LC3_NUM_DT || sr >= LC3_NUM_SRATE)
return -1;
return lc3_ns(dt, sr);
}
LC3_EXPORT int lc3_frame_samples(int dt_us, int sr_hz)
{
return lc3_hr_frame_samples(false, dt_us, sr_hz);
}
/**
* Return the size of frames or frame blocks, from bitrate
*/
LC3_EXPORT int lc3_hr_frame_block_bytes(
bool hrmode, int dt_us, int sr_hz, int nchannels, int bitrate)
{
enum lc3_dt dt = resolve_dt(dt_us, hrmode);
enum lc3_srate sr = resolve_srate(sr_hz, hrmode);
if (dt >= LC3_NUM_DT || sr >= LC3_NUM_SRATE
|| nchannels < 1 || nchannels > 8 || bitrate < 0)
return -1;
bitrate = LC3_CLIP(bitrate, 0, 8*LC3_HR_MAX_BITRATE);
return LC3_CLIP((bitrate * (int)(1 + dt)) / 3200,
nchannels * lc3_min_frame_bytes(dt, sr),
nchannels * lc3_max_frame_bytes(dt, sr) );
}
LC3_EXPORT int lc3_frame_block_bytes(int dt_us, int nchannels, int bitrate)
{
return lc3_hr_frame_block_bytes(false, dt_us, 8000, nchannels, bitrate);
}
LC3_EXPORT int lc3_hr_frame_bytes(
bool hrmode, int dt_us, int sr_hz, int bitrate)
{
return lc3_hr_frame_block_bytes(hrmode, dt_us, sr_hz, 1, bitrate);
}
LC3_EXPORT int lc3_frame_bytes(int dt_us, int bitrate)
{
return lc3_hr_frame_bytes(false, dt_us, 8000, bitrate);
}
/**
* Resolve the bitrate, from the size of frames or frame blocks
*/
LC3_EXPORT int lc3_hr_resolve_bitrate(
bool hrmode, int dt_us, int sr_hz, int nbytes)
{
enum lc3_dt dt = resolve_dt(dt_us, hrmode);
enum lc3_srate sr = resolve_srate(sr_hz, hrmode);
if (dt >= LC3_NUM_DT || sr >= LC3_NUM_SRATE || nbytes < 0)
return -1;
return LC3_MIN(((int64_t)nbytes * 3200 + dt) / (1 + dt), INT_MAX);
}
LC3_EXPORT int lc3_resolve_bitrate(int dt_us, int nbytes)
{
return lc3_hr_resolve_bitrate(false, dt_us, 8000, nbytes);
}
/**
* Return algorithmic delay, as a number of samples
*/
LC3_EXPORT int lc3_hr_delay_samples(bool hrmode, int dt_us, int sr_hz)
{
enum lc3_dt dt = resolve_dt(dt_us, hrmode);
enum lc3_srate sr = resolve_srate(sr_hz, hrmode);
if (dt >= LC3_NUM_DT || sr >= LC3_NUM_SRATE)
return -1;
return 2 * lc3_nd(dt, sr) - lc3_ns(dt, sr);
}
LC3_EXPORT int lc3_delay_samples(int dt_us, int sr_hz)
{
return lc3_hr_delay_samples(false, dt_us, sr_hz);
}
/* ----------------------------------------------------------------------------
* Encoder
* -------------------------------------------------------------------------- */
/**
* Input PCM Samples from signed 16 bits
* encoder Encoder state
* pcm, stride Input PCM samples, and count between two consecutives
*/
static void load_s16(
struct lc3_encoder *encoder, const void *_pcm, int stride)
{
const int16_t *pcm = _pcm;
enum lc3_dt dt = encoder->dt;
enum lc3_srate sr = encoder->sr_pcm;
int16_t *xt = (int16_t *)encoder->x + encoder->xt_off;
float *xs = encoder->x + encoder->xs_off;
int ns = lc3_ns(dt, sr);
for (int i = 0; i < ns; i++, pcm += stride)
xt[i] = *pcm, xs[i] = *pcm;
}
/**
* Input PCM Samples from signed 24 bits
* encoder Encoder state
* pcm, stride Input PCM samples, and count between two consecutives
*/
static void load_s24(
struct lc3_encoder *encoder, const void *_pcm, int stride)
{
const int32_t *pcm = _pcm;
enum lc3_dt dt = encoder->dt;
enum lc3_srate sr = encoder->sr_pcm;
int16_t *xt = (int16_t *)encoder->x + encoder->xt_off;
float *xs = encoder->x + encoder->xs_off;
int ns = lc3_ns(dt, sr);
for (int i = 0; i < ns; i++, pcm += stride) {
xt[i] = *pcm >> 8;
xs[i] = lc3_ldexpf(*pcm, -8);
}
}
/**
* Input PCM Samples from signed 24 bits packed
* encoder Encoder state
* pcm, stride Input PCM samples, and count between two consecutives
*/
static void load_s24_3le(
struct lc3_encoder *encoder, const void *_pcm, int stride)
{
const uint8_t *pcm = _pcm;
enum lc3_dt dt = encoder->dt;
enum lc3_srate sr = encoder->sr_pcm;
int16_t *xt = (int16_t *)encoder->x + encoder->xt_off;
float *xs = encoder->x + encoder->xs_off;
int ns = lc3_ns(dt, sr);
for (int i = 0; i < ns; i++, pcm += 3*stride) {
int32_t in = ((uint32_t)pcm[0] << 8) |
((uint32_t)pcm[1] << 16) |
((uint32_t)pcm[2] << 24) ;
xt[i] = in >> 16;
xs[i] = lc3_ldexpf(in, -16);
}
}
/**
* Input PCM Samples from float 32 bits
* encoder Encoder state
* pcm, stride Input PCM samples, and count between two consecutives
*/
static void load_float(
struct lc3_encoder *encoder, const void *_pcm, int stride)
{
const float *pcm = _pcm;
enum lc3_dt dt = encoder->dt;
enum lc3_srate sr = encoder->sr_pcm;
int16_t *xt = (int16_t *)encoder->x + encoder->xt_off;
float *xs = encoder->x + encoder->xs_off;
int ns = lc3_ns(dt, sr);
for (int i = 0; i < ns; i++, pcm += stride) {
xs[i] = lc3_ldexpf(*pcm, 15);
xt[i] = LC3_SAT16((int32_t)xs[i]);
}
}
/**
* Frame Analysis
* encoder Encoder state
* nbytes Size in bytes of the frame
* side Return frame data
*/
static void analyze(struct lc3_encoder *encoder,
int nbytes, struct side_data *side)
{
enum lc3_dt dt = encoder->dt;
enum lc3_srate sr = encoder->sr;
enum lc3_srate sr_pcm = encoder->sr_pcm;
int16_t *xt = (int16_t *)encoder->x + encoder->xt_off;
float *xs = encoder->x + encoder->xs_off;
int ns = lc3_ns(dt, sr_pcm);
int nt = lc3_nt(sr_pcm);
float *xd = encoder->x + encoder->xd_off;
float *xf = xs;
/* --- Temporal --- */
bool att = lc3_attdet_run(dt, sr_pcm, nbytes, &encoder->attdet, xt);
side->pitch_present = !encoder->ltpf_bypass &&
lc3_ltpf_analyse(dt, sr_pcm, &encoder->ltpf, xt, &side->ltpf);
memmove(xt - nt, xt + (ns-nt), nt * sizeof(*xt));
/* --- Spectral --- */
float e[LC3_MAX_BANDS];
lc3_mdct_forward(dt, sr_pcm, sr, xs, xd, xf);
bool nn_flag = lc3_energy_compute(dt, sr, xf, e);
if (nn_flag || encoder->ltpf_bypass)
lc3_ltpf_disable(&side->ltpf);
side->bw = lc3_bwdet_run(dt, sr, e);
lc3_sns_analyze(dt, sr, nbytes, e, att, &side->sns, xf, xf);
lc3_tns_analyze(dt, side->bw, nn_flag, nbytes, &side->tns, xf);
lc3_spec_analyze(dt, sr,
nbytes, side->pitch_present, &side->tns,
&encoder->spec, xf, &side->spec);
}
/**
* Encode bitstream
* encoder Encoder state
* side The frame data
* nbytes Target size of the frame (20 to 400)
* buffer Output bitstream buffer of `nbytes` size
*/
static void encode(struct lc3_encoder *encoder,
const struct side_data *side, int nbytes, void *buffer)
{
enum lc3_dt dt = encoder->dt;
enum lc3_srate sr = encoder->sr;
float *xf = encoder->x + encoder->xs_off;
enum lc3_bandwidth bw = side->bw;
lc3_bits_t bits;
lc3_setup_bits(&bits, LC3_BITS_MODE_WRITE, buffer, nbytes);
lc3_bwdet_put_bw(&bits, sr, bw);
lc3_spec_put_side(&bits, dt, sr, &side->spec);
lc3_tns_put_data(&bits, &side->tns);
lc3_put_bit(&bits, side->pitch_present);
lc3_sns_put_data(&bits, &side->sns);
if (side->pitch_present)
lc3_ltpf_put_data(&bits, &side->ltpf);
lc3_spec_encode(&bits, dt, sr, bw, nbytes, &side->spec, xf);
lc3_flush_bits(&bits);
}
/**
* Return size needed for an encoder
*/
LC3_EXPORT unsigned lc3_hr_encoder_size(bool hrmode, int dt_us, int sr_hz)
{
if (resolve_dt(dt_us, hrmode) >= LC3_NUM_DT ||
resolve_srate(sr_hz, hrmode) >= LC3_NUM_SRATE)
return 0;
return sizeof(struct lc3_encoder) +
(LC3_ENCODER_BUFFER_COUNT(dt_us, sr_hz)-1) * sizeof(float);
}
LC3_EXPORT unsigned lc3_encoder_size(int dt_us, int sr_hz)
{
return lc3_hr_encoder_size(false, dt_us, sr_hz);
}
/**
* Setup encoder
*/
LC3_EXPORT struct lc3_encoder *lc3_hr_setup_encoder(
bool hrmode, int dt_us, int sr_hz, int sr_pcm_hz, void *mem)
{
if (sr_pcm_hz <= 0)
sr_pcm_hz = sr_hz;
enum lc3_dt dt = resolve_dt(dt_us, hrmode);
enum lc3_srate sr = resolve_srate(sr_hz, hrmode);
enum lc3_srate sr_pcm = resolve_srate(sr_pcm_hz, hrmode);
if (dt >= LC3_NUM_DT || sr_pcm >= LC3_NUM_SRATE || sr > sr_pcm || !mem)
return NULL;
struct lc3_encoder *encoder = mem;
int ns = lc3_ns(dt, sr_pcm);
int nt = lc3_nt(sr_pcm);
*encoder = (struct lc3_encoder){
.dt = dt, .sr = sr,
.sr_pcm = sr_pcm,
.xt_off = nt,
.xs_off = (nt + ns) / 2,
.xd_off = (nt + ns) / 2 + ns,
};
memset(encoder->x, 0,
LC3_ENCODER_BUFFER_COUNT(dt_us, sr_pcm_hz) * sizeof(float));
return encoder;
}
LC3_EXPORT struct lc3_encoder *lc3_setup_encoder(
int dt_us, int sr_hz, int sr_pcm_hz, void *mem)
{
return lc3_hr_setup_encoder(false, dt_us, sr_hz, sr_pcm_hz, mem);
}
LC3_EXPORT void lc3_encoder_disable_ltpf(
struct lc3_encoder *encoder)
{
encoder->ltpf_bypass = true;
}
/**
* Encode a frame
*/
LC3_EXPORT int lc3_encode(struct lc3_encoder *encoder,
enum lc3_pcm_format fmt, const void *pcm, int stride, int nbytes, void *out)
{
static void (* const load[])(struct lc3_encoder *, const void *, int) = {
[LC3_PCM_FORMAT_S16 ] = load_s16,
[LC3_PCM_FORMAT_S24 ] = load_s24,
[LC3_PCM_FORMAT_S24_3LE] = load_s24_3le,
[LC3_PCM_FORMAT_FLOAT ] = load_float,
};
/* --- Check parameters --- */
if (!encoder || nbytes < lc3_min_frame_bytes(encoder->dt, encoder->sr)
|| nbytes > lc3_max_frame_bytes(encoder->dt, encoder->sr))
return -1;
/* --- Processing --- */
struct side_data side;
load[fmt](encoder, pcm, stride);
analyze(encoder, nbytes, &side);
encode(encoder, &side, nbytes, out);
return 0;
}
/* ----------------------------------------------------------------------------
* Decoder
* -------------------------------------------------------------------------- */
/**
* Output PCM Samples to signed 16 bits
* decoder Decoder state
* pcm, stride Output PCM samples, and count between two consecutives
*/
static void store_s16(
struct lc3_decoder *decoder, void *_pcm, int stride)
{
int16_t *pcm = _pcm;
enum lc3_dt dt = decoder->dt;
enum lc3_srate sr = decoder->sr_pcm;
float *xs = decoder->x + decoder->xs_off;
int ns = lc3_ns(dt, sr);
for ( ; ns > 0; ns--, xs++, pcm += stride) {
int32_t s = *xs >= 0 ? (int)(*xs + 0.5f) : (int)(*xs - 0.5f);
*pcm = LC3_SAT16(s);
}
}
/**
* Output PCM Samples to signed 24 bits
* decoder Decoder state
* pcm, stride Output PCM samples, and count between two consecutives
*/
static void store_s24(
struct lc3_decoder *decoder, void *_pcm, int stride)
{
int32_t *pcm = _pcm;
enum lc3_dt dt = decoder->dt;
enum lc3_srate sr = decoder->sr_pcm;
float *xs = decoder->x + decoder->xs_off;
int ns = lc3_ns(dt, sr);
for ( ; ns > 0; ns--, xs++, pcm += stride) {
int32_t s = *xs >= 0 ? (int32_t)(lc3_ldexpf(*xs, 8) + 0.5f)
: (int32_t)(lc3_ldexpf(*xs, 8) - 0.5f);
*pcm = LC3_SAT24(s);
}
}
/**
* Output PCM Samples to signed 24 bits packed
* decoder Decoder state
* pcm, stride Output PCM samples, and count between two consecutives
*/
static void store_s24_3le(
struct lc3_decoder *decoder, void *_pcm, int stride)
{
uint8_t *pcm = _pcm;
enum lc3_dt dt = decoder->dt;
enum lc3_srate sr = decoder->sr_pcm;
float *xs = decoder->x + decoder->xs_off;
int ns = lc3_ns(dt, sr);
for ( ; ns > 0; ns--, xs++, pcm += 3*stride) {
int32_t s = *xs >= 0 ? (int32_t)(lc3_ldexpf(*xs, 8) + 0.5f)
: (int32_t)(lc3_ldexpf(*xs, 8) - 0.5f);
s = LC3_SAT24(s);
pcm[0] = (s >> 0) & 0xff;
pcm[1] = (s >> 8) & 0xff;
pcm[2] = (s >> 16) & 0xff;
}
}
/**
* Output PCM Samples to float 32 bits
* decoder Decoder state
* pcm, stride Output PCM samples, and count between two consecutives
*/
static void store_float(
struct lc3_decoder *decoder, void *_pcm, int stride)
{
float *pcm = _pcm;
enum lc3_dt dt = decoder->dt;
enum lc3_srate sr = decoder->sr_pcm;
float *xs = decoder->x + decoder->xs_off;
int ns = lc3_ns(dt, sr);
for ( ; ns > 0; ns--, xs++, pcm += stride) {
float s = lc3_ldexpf(*xs, -15);
*pcm = fminf(fmaxf(s, -1.f), 1.f);
}
}
/**
* Decode bitstream
* decoder Decoder state
* data, nbytes Input bitstream buffer
* side Return the side data
* return 0: Ok < 0: Bitsream error detected
*/
static int decode(struct lc3_decoder *decoder,
const void *data, int nbytes, struct side_data *side)
{
enum lc3_dt dt = decoder->dt;
enum lc3_srate sr = decoder->sr;
float *xf = decoder->x + decoder->xs_off;
int ns = lc3_ns(dt, sr);
int ne = lc3_ne(dt, sr);
lc3_bits_t bits;
int ret = 0;
lc3_setup_bits(&bits, LC3_BITS_MODE_READ, (void *)data, nbytes);
if ((ret = lc3_bwdet_get_bw(&bits, sr, &side->bw)) < 0)
return ret;
if ((ret = lc3_spec_get_side(&bits, dt, sr, &side->spec)) < 0)
return ret;
if ((ret = lc3_tns_get_data(&bits, dt, side->bw, nbytes, &side->tns)) < 0)
return ret;
side->pitch_present = lc3_get_bit(&bits);
if ((ret = lc3_sns_get_data(&bits, &side->sns)) < 0)
return ret;
if (side->pitch_present)
lc3_ltpf_get_data(&bits, &side->ltpf);
if ((ret = lc3_spec_decode(&bits, dt, sr,
side->bw, nbytes, &side->spec, xf)) < 0)
return ret;
memset(xf + ne, 0, (ns - ne) * sizeof(float));
return lc3_check_bits(&bits);
}
/**
* Frame synthesis
* decoder Decoder state
* side Frame data, NULL performs PLC
* nbytes Size in bytes of the frame
*/
static void synthesize(struct lc3_decoder *decoder,
const struct side_data *side, int nbytes)
{
enum lc3_dt dt = decoder->dt;
enum lc3_srate sr = decoder->sr;
enum lc3_srate sr_pcm = decoder->sr_pcm;
float *xf = decoder->x + decoder->xs_off;
int ns = lc3_ns(dt, sr_pcm);
int ne = lc3_ne(dt, sr);
float *xg = decoder->x + decoder->xg_off;
float *xs = xf;
float *xd = decoder->x + decoder->xd_off;
float *xh = decoder->x + decoder->xh_off;
if (side) {
enum lc3_bandwidth bw = side->bw;
lc3_plc_suspend(&decoder->plc);
lc3_tns_synthesize(dt, bw, &side->tns, xf);
lc3_sns_synthesize(dt, sr, &side->sns, xf, xg);
lc3_mdct_inverse(dt, sr_pcm, sr, xg, xd, xs);
} else {
lc3_plc_synthesize(dt, sr, &decoder->plc, xg, xf);
memset(xf + ne, 0, (ns - ne) * sizeof(float));
lc3_mdct_inverse(dt, sr_pcm, sr, xf, xd, xs);
}
if (!lc3_hr(sr))
lc3_ltpf_synthesize(dt, sr_pcm, nbytes, &decoder->ltpf,
side && side->pitch_present ? &side->ltpf : NULL, xh, xs);
}
/**
* Update decoder state on decoding completion
* decoder Decoder state
*/
static void complete(struct lc3_decoder *decoder)
{
enum lc3_dt dt = decoder->dt;
enum lc3_srate sr_pcm = decoder->sr_pcm;
int nh = lc3_nh(dt, sr_pcm);
int ns = lc3_ns(dt, sr_pcm);
decoder->xs_off = decoder->xs_off - decoder->xh_off < nh ?
decoder->xs_off + ns : decoder->xh_off;
}
/**
* Return size needed for a decoder
*/
LC3_EXPORT unsigned lc3_hr_decoder_size(bool hrmode, int dt_us, int sr_hz)
{
if (resolve_dt(dt_us, hrmode) >= LC3_NUM_DT ||
resolve_srate(sr_hz, hrmode) >= LC3_NUM_SRATE)
return 0;
return sizeof(struct lc3_decoder) +
(LC3_DECODER_BUFFER_COUNT(dt_us, sr_hz)-1) * sizeof(float);
}
LC3_EXPORT unsigned lc3_decoder_size(int dt_us, int sr_hz)
{
return lc3_hr_decoder_size(false, dt_us, sr_hz);
}
/**
* Setup decoder
*/
LC3_EXPORT struct lc3_decoder *lc3_hr_setup_decoder(
bool hrmode, int dt_us, int sr_hz, int sr_pcm_hz, void *mem)
{
if (sr_pcm_hz <= 0)
sr_pcm_hz = sr_hz;
enum lc3_dt dt = resolve_dt(dt_us, hrmode);
enum lc3_srate sr = resolve_srate(sr_hz, hrmode);
enum lc3_srate sr_pcm = resolve_srate(sr_pcm_hz, hrmode);
if (dt >= LC3_NUM_DT || sr_pcm >= LC3_NUM_SRATE || sr > sr_pcm || !mem)
return NULL;
struct lc3_decoder *decoder = mem;
int nh = lc3_nh(dt, sr_pcm);
int ns = lc3_ns(dt, sr_pcm);
int nd = lc3_nd(dt, sr_pcm);
*decoder = (struct lc3_decoder){
.dt = dt, .sr = sr,
.sr_pcm = sr_pcm,
.xh_off = 0,
.xs_off = nh,
.xd_off = nh + ns,
.xg_off = nh + ns + nd,
};
lc3_plc_reset(&decoder->plc);
memset(decoder->x, 0,
LC3_DECODER_BUFFER_COUNT(dt_us, sr_pcm_hz) * sizeof(float));
return decoder;
}
LC3_EXPORT struct lc3_decoder *lc3_setup_decoder(
int dt_us, int sr_hz, int sr_pcm_hz, void *mem)
{
return lc3_hr_setup_decoder(false, dt_us, sr_hz, sr_pcm_hz, mem);
}
/**
* Decode a frame
*/
LC3_EXPORT int lc3_decode(struct lc3_decoder *decoder,
const void *in, int nbytes, enum lc3_pcm_format fmt, void *pcm, int stride)
{
static void (* const store[])(struct lc3_decoder *, void *, int) = {
[LC3_PCM_FORMAT_S16 ] = store_s16,
[LC3_PCM_FORMAT_S24 ] = store_s24,
[LC3_PCM_FORMAT_S24_3LE] = store_s24_3le,
[LC3_PCM_FORMAT_FLOAT ] = store_float,
};
/* --- Check parameters --- */
if (!decoder)
return -1;
if (in && (nbytes < LC3_MIN_FRAME_BYTES ||
nbytes > lc3_max_frame_bytes(decoder->dt, decoder->sr) ))
return -1;
/* --- Processing --- */
struct side_data side;
int ret = !in || (decode(decoder, in, nbytes, &side) < 0);
synthesize(decoder, ret ? NULL : &side, nbytes);
store[fmt](decoder, pcm, stride);
complete(decoder);
return ret;
}