blob: bbe9098b0158b929e0298efbe9cc7f19a157a61c [file] [log] [blame]
/*
* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
/*
* isacfix.c
*
* This C file contains the functions for the ISAC API
*
*/
#include "modules/audio_coding/codecs/isac/fix/include/isacfix.h"
#include <stdlib.h>
#include "rtc_base/checks.h"
#include "modules/audio_coding/codecs/isac/fix/source/bandwidth_estimator.h"
#include "modules/audio_coding/codecs/isac/fix/source/codec.h"
#include "modules/audio_coding/codecs/isac/fix/source/entropy_coding.h"
#include "modules/audio_coding/codecs/isac/fix/source/filterbank_internal.h"
#include "modules/audio_coding/codecs/isac/fix/source/lpc_masking_model.h"
#include "modules/audio_coding/codecs/isac/fix/source/structs.h"
#include "system_wrappers/include/cpu_features_wrapper.h"
// Declare function pointers.
FilterMaLoopFix WebRtcIsacfix_FilterMaLoopFix;
Spec2Time WebRtcIsacfix_Spec2Time;
Time2Spec WebRtcIsacfix_Time2Spec;
MatrixProduct1 WebRtcIsacfix_MatrixProduct1;
MatrixProduct2 WebRtcIsacfix_MatrixProduct2;
/* This method assumes that |stream_size_bytes| is in valid range,
* i.e. >= 0 && <= STREAM_MAXW16_60MS
*/
static void InitializeDecoderBitstream(size_t stream_size_bytes,
Bitstr_dec* bitstream) {
bitstream->W_upper = 0xFFFFFFFF;
bitstream->streamval = 0;
bitstream->stream_index = 0;
bitstream->full = 1;
bitstream->stream_size = (stream_size_bytes + 1) >> 1;
memset(bitstream->stream, 0, sizeof(bitstream->stream));
}
/**************************************************************************
* WebRtcIsacfix_AssignSize(...)
*
* Functions used when malloc is not allowed
* Returns number of bytes needed to allocate for iSAC struct.
*
*/
int16_t WebRtcIsacfix_AssignSize(int *sizeinbytes) {
*sizeinbytes=sizeof(ISACFIX_SubStruct)*2/sizeof(int16_t);
return(0);
}
/***************************************************************************
* WebRtcIsacfix_Assign(...)
*
* Functions used when malloc is not allowed
* Place struct at given address
*
* If successful, Return 0, else Return -1
*/
int16_t WebRtcIsacfix_Assign(ISACFIX_MainStruct **inst, void *ISACFIX_inst_Addr) {
if (ISACFIX_inst_Addr!=NULL) {
ISACFIX_SubStruct* self = ISACFIX_inst_Addr;
*inst = (ISACFIX_MainStruct*)self;
self->errorcode = 0;
self->initflag = 0;
self->ISACenc_obj.SaveEnc_ptr = NULL;
WebRtcIsacfix_InitBandwidthEstimator(&self->bwestimator_obj);
return(0);
} else {
return(-1);
}
}
#ifndef ISACFIX_NO_DYNAMIC_MEM
/****************************************************************************
* WebRtcIsacfix_Create(...)
*
* This function creates a ISAC instance, which will contain the state
* information for one coding/decoding channel.
*
* Input:
* - *ISAC_main_inst : a pointer to the coder instance.
*
* Return value : 0 - Ok
* -1 - Error
*/
int16_t WebRtcIsacfix_Create(ISACFIX_MainStruct **ISAC_main_inst)
{
ISACFIX_SubStruct *tempo;
tempo = malloc(1 * sizeof(ISACFIX_SubStruct));
*ISAC_main_inst = (ISACFIX_MainStruct *)tempo;
if (*ISAC_main_inst!=NULL) {
(*(ISACFIX_SubStruct**)ISAC_main_inst)->errorcode = 0;
(*(ISACFIX_SubStruct**)ISAC_main_inst)->initflag = 0;
(*(ISACFIX_SubStruct**)ISAC_main_inst)->ISACenc_obj.SaveEnc_ptr = NULL;
WebRtcSpl_Init();
WebRtcIsacfix_InitBandwidthEstimator(&tempo->bwestimator_obj);
return(0);
} else {
return(-1);
}
}
/****************************************************************************
* WebRtcIsacfix_CreateInternal(...)
*
* This function creates the memory that is used to store data in the encoder
*
* Input:
* - *ISAC_main_inst : a pointer to the coder instance.
*
* Return value : 0 - Ok
* -1 - Error
*/
int16_t WebRtcIsacfix_CreateInternal(ISACFIX_MainStruct *ISAC_main_inst)
{
ISACFIX_SubStruct *ISAC_inst;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* Allocate memory for storing encoder data */
ISAC_inst->ISACenc_obj.SaveEnc_ptr = malloc(1 * sizeof(IsacSaveEncoderData));
if (ISAC_inst->ISACenc_obj.SaveEnc_ptr!=NULL) {
return(0);
} else {
return(-1);
}
}
#endif
/****************************************************************************
* WebRtcIsacfix_Free(...)
*
* This function frees the ISAC instance created at the beginning.
*
* Input:
* - ISAC_main_inst : a ISAC instance.
*
* Return value : 0 - Ok
* -1 - Error
*/
int16_t WebRtcIsacfix_Free(ISACFIX_MainStruct *ISAC_main_inst)
{
free(ISAC_main_inst);
return(0);
}
/****************************************************************************
* WebRtcIsacfix_FreeInternal(...)
*
* This function frees the internal memory for storing encoder data.
*
* Input:
* - ISAC_main_inst : a ISAC instance.
*
* Return value : 0 - Ok
* -1 - Error
*/
int16_t WebRtcIsacfix_FreeInternal(ISACFIX_MainStruct *ISAC_main_inst)
{
ISACFIX_SubStruct *ISAC_inst;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* Release memory */
free(ISAC_inst->ISACenc_obj.SaveEnc_ptr);
return(0);
}
/****************************************************************************
* WebRtcIsacfix_InitNeon(...)
*
* This function initializes function pointers for ARM Neon platform.
*/
#if defined(WEBRTC_HAS_NEON)
static void WebRtcIsacfix_InitNeon(void) {
WebRtcIsacfix_AutocorrFix = WebRtcIsacfix_AutocorrNeon;
WebRtcIsacfix_FilterMaLoopFix = WebRtcIsacfix_FilterMaLoopNeon;
WebRtcIsacfix_Spec2Time = WebRtcIsacfix_Spec2TimeNeon;
WebRtcIsacfix_Time2Spec = WebRtcIsacfix_Time2SpecNeon;
WebRtcIsacfix_AllpassFilter2FixDec16 =
WebRtcIsacfix_AllpassFilter2FixDec16Neon;
WebRtcIsacfix_MatrixProduct1 = WebRtcIsacfix_MatrixProduct1Neon;
WebRtcIsacfix_MatrixProduct2 = WebRtcIsacfix_MatrixProduct2Neon;
}
#endif
/****************************************************************************
* WebRtcIsacfix_InitMIPS(...)
*
* This function initializes function pointers for MIPS platform.
*/
#if defined(MIPS32_LE)
static void WebRtcIsacfix_InitMIPS(void) {
WebRtcIsacfix_AutocorrFix = WebRtcIsacfix_AutocorrMIPS;
WebRtcIsacfix_FilterMaLoopFix = WebRtcIsacfix_FilterMaLoopMIPS;
WebRtcIsacfix_Spec2Time = WebRtcIsacfix_Spec2TimeMIPS;
WebRtcIsacfix_Time2Spec = WebRtcIsacfix_Time2SpecMIPS;
WebRtcIsacfix_MatrixProduct1 = WebRtcIsacfix_MatrixProduct1MIPS;
WebRtcIsacfix_MatrixProduct2 = WebRtcIsacfix_MatrixProduct2MIPS;
#if defined(MIPS_DSP_R1_LE)
WebRtcIsacfix_AllpassFilter2FixDec16 =
WebRtcIsacfix_AllpassFilter2FixDec16MIPS;
WebRtcIsacfix_HighpassFilterFixDec32 =
WebRtcIsacfix_HighpassFilterFixDec32MIPS;
#endif
#if defined(MIPS_DSP_R2_LE)
WebRtcIsacfix_CalculateResidualEnergy =
WebRtcIsacfix_CalculateResidualEnergyMIPS;
#endif
}
#endif
static void InitFunctionPointers(void) {
WebRtcIsacfix_AutocorrFix = WebRtcIsacfix_AutocorrC;
WebRtcIsacfix_FilterMaLoopFix = WebRtcIsacfix_FilterMaLoopC;
WebRtcIsacfix_CalculateResidualEnergy =
WebRtcIsacfix_CalculateResidualEnergyC;
WebRtcIsacfix_AllpassFilter2FixDec16 = WebRtcIsacfix_AllpassFilter2FixDec16C;
WebRtcIsacfix_HighpassFilterFixDec32 = WebRtcIsacfix_HighpassFilterFixDec32C;
WebRtcIsacfix_Time2Spec = WebRtcIsacfix_Time2SpecC;
WebRtcIsacfix_Spec2Time = WebRtcIsacfix_Spec2TimeC;
WebRtcIsacfix_MatrixProduct1 = WebRtcIsacfix_MatrixProduct1C;
WebRtcIsacfix_MatrixProduct2 = WebRtcIsacfix_MatrixProduct2C;
#if defined(WEBRTC_HAS_NEON)
WebRtcIsacfix_InitNeon();
#endif
#if defined(MIPS32_LE)
WebRtcIsacfix_InitMIPS();
#endif
}
/****************************************************************************
* WebRtcIsacfix_EncoderInit(...)
*
* This function initializes a ISAC instance prior to the encoder calls.
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - CodingMode : 0 -> Bit rate and frame length are automatically
* adjusted to available bandwidth on
* transmission channel.
* 1 -> User sets a frame length and a target bit
* rate which is taken as the maximum short-term
* average bit rate.
*
* Return value : 0 - Ok
* -1 - Error
*/
int16_t WebRtcIsacfix_EncoderInit(ISACFIX_MainStruct *ISAC_main_inst,
int16_t CodingMode)
{
int k;
int16_t statusInit;
ISACFIX_SubStruct *ISAC_inst;
statusInit = 0;
/* typecast pointer to rela structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* flag encoder init */
ISAC_inst->initflag |= 2;
if (CodingMode == 0)
/* Adaptive mode */
ISAC_inst->ISACenc_obj.new_framelength = INITIAL_FRAMESAMPLES;
else if (CodingMode == 1)
/* Instantaneous mode */
ISAC_inst->ISACenc_obj.new_framelength = 480; /* default for I-mode */
else {
ISAC_inst->errorcode = ISAC_DISALLOWED_CODING_MODE;
statusInit = -1;
}
ISAC_inst->CodingMode = CodingMode;
WebRtcIsacfix_InitMaskingEnc(&ISAC_inst->ISACenc_obj.maskfiltstr_obj);
WebRtcIsacfix_InitPreFilterbank(&ISAC_inst->ISACenc_obj.prefiltbankstr_obj);
WebRtcIsacfix_InitPitchFilter(&ISAC_inst->ISACenc_obj.pitchfiltstr_obj);
WebRtcIsacfix_InitPitchAnalysis(&ISAC_inst->ISACenc_obj.pitchanalysisstr_obj);
WebRtcIsacfix_InitRateModel(&ISAC_inst->ISACenc_obj.rate_data_obj);
ISAC_inst->ISACenc_obj.buffer_index = 0;
ISAC_inst->ISACenc_obj.frame_nb = 0;
ISAC_inst->ISACenc_obj.BottleNeck = 32000; /* default for I-mode */
ISAC_inst->ISACenc_obj.MaxDelay = 10; /* default for I-mode */
ISAC_inst->ISACenc_obj.current_framesamples = 0;
ISAC_inst->ISACenc_obj.s2nr = 0;
ISAC_inst->ISACenc_obj.MaxBits = 0;
ISAC_inst->ISACenc_obj.bitstr_seed = 4447;
ISAC_inst->ISACenc_obj.payloadLimitBytes30 = STREAM_MAXW16_30MS << 1;
ISAC_inst->ISACenc_obj.payloadLimitBytes60 = STREAM_MAXW16_60MS << 1;
ISAC_inst->ISACenc_obj.maxPayloadBytes = STREAM_MAXW16_60MS << 1;
ISAC_inst->ISACenc_obj.maxRateInBytes = STREAM_MAXW16_30MS << 1;
ISAC_inst->ISACenc_obj.enforceFrameSize = 0;
/* Init the bistream data area to zero */
for (k=0; k<STREAM_MAXW16_60MS; k++){
ISAC_inst->ISACenc_obj.bitstr_obj.stream[k] = 0;
}
#ifdef WEBRTC_ISAC_FIX_NB_CALLS_ENABLED
WebRtcIsacfix_InitPostFilterbank(&ISAC_inst->ISACenc_obj.interpolatorstr_obj);
#endif
InitFunctionPointers();
return statusInit;
}
/* Read the given number of bytes of big-endian 16-bit integers from |src| and
write them to |dest| in host endian. If |nbytes| is odd, the number of
output elements is rounded up, and the least significant byte of the last
element is set to 0. */
static void read_be16(const uint8_t* src, size_t nbytes, uint16_t* dest) {
size_t i;
for (i = 0; i < nbytes / 2; ++i)
dest[i] = src[2 * i] << 8 | src[2 * i + 1];
if (nbytes % 2 == 1)
dest[nbytes / 2] = src[nbytes - 1] << 8;
}
/* Read the given number of bytes of host-endian 16-bit integers from |src| and
write them to |dest| in big endian. If |nbytes| is odd, the number of source
elements is rounded up (but only the most significant byte of the last
element is used), and the number of output bytes written will be
nbytes + 1. */
static void write_be16(const uint16_t* src, size_t nbytes, uint8_t* dest) {
size_t i;
for (i = 0; i < nbytes / 2; ++i) {
dest[2 * i] = src[i] >> 8;
dest[2 * i + 1] = src[i];
}
if (nbytes % 2 == 1) {
dest[nbytes - 1] = src[nbytes / 2] >> 8;
dest[nbytes] = 0;
}
}
/****************************************************************************
* WebRtcIsacfix_Encode(...)
*
* This function encodes 10ms frame(s) and inserts it into a package.
* Input speech length has to be 160 samples (10ms). The encoder buffers those
* 10ms frames until it reaches the chosen Framesize (480 or 960 samples
* corresponding to 30 or 60 ms frames), and then proceeds to the encoding.
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - speechIn : input speech vector.
*
* Output:
* - encoded : the encoded data vector
*
* Return value:
* : >0 - Length (in bytes) of coded data
* : 0 - The buffer didn't reach the chosen framesize
* so it keeps buffering speech samples.
* : -1 - Error
*/
int WebRtcIsacfix_Encode(ISACFIX_MainStruct *ISAC_main_inst,
const int16_t *speechIn,
uint8_t* encoded)
{
ISACFIX_SubStruct *ISAC_inst;
int stream_len;
/* typecast pointer to rela structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* check if encoder initiated */
if ((ISAC_inst->initflag & 2) != 2) {
ISAC_inst->errorcode = ISAC_ENCODER_NOT_INITIATED;
return (-1);
}
stream_len = WebRtcIsacfix_EncodeImpl((int16_t*)speechIn,
&ISAC_inst->ISACenc_obj,
&ISAC_inst->bwestimator_obj,
ISAC_inst->CodingMode);
if (stream_len<0) {
ISAC_inst->errorcode = -(int16_t)stream_len;
return -1;
}
write_be16(ISAC_inst->ISACenc_obj.bitstr_obj.stream, (size_t)stream_len,
encoded);
return stream_len;
}
/****************************************************************************
* WebRtcIsacfix_EncodeNb(...)
*
* This function encodes 10ms narrow band (8 kHz sampling) frame(s) and inserts
* it into a package. Input speech length has to be 80 samples (10ms). The encoder
* interpolates into wide-band (16 kHz sampling) buffers those
* 10ms frames until it reaches the chosen Framesize (480 or 960 wide-band samples
* corresponding to 30 or 60 ms frames), and then proceeds to the encoding.
*
* The function is enabled if WEBRTC_ISAC_FIX_NB_CALLS_ENABLED is defined
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - speechIn : input speech vector.
*
* Output:
* - encoded : the encoded data vector
*
* Return value:
* : >0 - Length (in bytes) of coded data
* : 0 - The buffer didn't reach the chosen framesize
* so it keeps buffering speech samples.
* : -1 - Error
*/
#ifdef WEBRTC_ISAC_FIX_NB_CALLS_ENABLED
int16_t WebRtcIsacfix_EncodeNb(ISACFIX_MainStruct *ISAC_main_inst,
const int16_t *speechIn,
int16_t *encoded)
{
ISACFIX_SubStruct *ISAC_inst;
int16_t stream_len;
int16_t speechInWB[FRAMESAMPLES_10ms];
int16_t Vector_Word16_1[FRAMESAMPLES_10ms/2];
int16_t Vector_Word16_2[FRAMESAMPLES_10ms/2];
int k;
/* typecast pointer to rela structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* check if encoder initiated */
if ((ISAC_inst->initflag & 2) != 2) {
ISAC_inst->errorcode = ISAC_ENCODER_NOT_INITIATED;
return (-1);
}
/* Oversample to WB */
/* Form polyphase signals, and compensate for DC offset */
for (k=0;k<FRAMESAMPLES_10ms/2;k++) {
Vector_Word16_1[k] = speechIn[k] + 1;
Vector_Word16_2[k] = speechIn[k];
}
WebRtcIsacfix_FilterAndCombine2(Vector_Word16_1, Vector_Word16_2, speechInWB, &ISAC_inst->ISACenc_obj.interpolatorstr_obj, FRAMESAMPLES_10ms);
/* Encode WB signal */
stream_len = WebRtcIsacfix_EncodeImpl((int16_t*)speechInWB,
&ISAC_inst->ISACenc_obj,
&ISAC_inst->bwestimator_obj,
ISAC_inst->CodingMode);
if (stream_len<0) {
ISAC_inst->errorcode = - stream_len;
return -1;
}
write_be16(ISAC_inst->ISACenc_obj.bitstr_obj.stream,
stream_len,
(uint8_t*)encoded);
return stream_len;
}
#endif /* WEBRTC_ISAC_FIX_NB_CALLS_ENABLED */
/****************************************************************************
* WebRtcIsacfix_GetNewBitStream(...)
*
* This function returns encoded data, with the recieved bwe-index in the
* stream. It should always return a complete packet, i.e. only called once
* even for 60 msec frames
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - bweIndex : index of bandwidth estimate to put in new bitstream
*
* Output:
* - encoded : the encoded data vector
*
* Return value:
* : >0 - Length (in bytes) of coded data
* : -1 - Error
*/
int16_t WebRtcIsacfix_GetNewBitStream(ISACFIX_MainStruct *ISAC_main_inst,
int16_t bweIndex,
float scale,
uint8_t* encoded)
{
ISACFIX_SubStruct *ISAC_inst;
int16_t stream_len;
/* typecast pointer to rela structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* check if encoder initiated */
if ((ISAC_inst->initflag & 2) != 2) {
ISAC_inst->errorcode = ISAC_ENCODER_NOT_INITIATED;
return (-1);
}
stream_len = WebRtcIsacfix_EncodeStoredData(&ISAC_inst->ISACenc_obj,
bweIndex,
scale);
if (stream_len<0) {
ISAC_inst->errorcode = - stream_len;
return -1;
}
write_be16(ISAC_inst->ISACenc_obj.bitstr_obj.stream, stream_len, encoded);
return stream_len;
}
/****************************************************************************
* WebRtcIsacfix_DecoderInit(...)
*
* This function initializes a ISAC instance prior to the decoder calls.
*
* Input:
* - ISAC_main_inst : ISAC instance.
*/
void WebRtcIsacfix_DecoderInit(ISACFIX_MainStruct *ISAC_main_inst)
{
ISACFIX_SubStruct *ISAC_inst;
InitFunctionPointers();
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* flag decoder init */
ISAC_inst->initflag |= 1;
WebRtcIsacfix_InitMaskingDec(&ISAC_inst->ISACdec_obj.maskfiltstr_obj);
WebRtcIsacfix_InitPostFilterbank(&ISAC_inst->ISACdec_obj.postfiltbankstr_obj);
WebRtcIsacfix_InitPitchFilter(&ISAC_inst->ISACdec_obj.pitchfiltstr_obj);
/* TS */
WebRtcIsacfix_InitPlc( &ISAC_inst->ISACdec_obj.plcstr_obj );
#ifdef WEBRTC_ISAC_FIX_NB_CALLS_ENABLED
WebRtcIsacfix_InitPreFilterbank(&ISAC_inst->ISACdec_obj.decimatorstr_obj);
#endif
}
/****************************************************************************
* WebRtcIsacfix_UpdateBwEstimate1(...)
*
* This function updates the estimate of the bandwidth.
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - encoded : encoded ISAC frame(s).
* - packet_size : size of the packet.
* - rtp_seq_number : the RTP number of the packet.
* - arr_ts : the arrival time of the packet (from NetEq)
* in samples.
*
* Return value : 0 - Ok
* -1 - Error
*/
int16_t WebRtcIsacfix_UpdateBwEstimate1(ISACFIX_MainStruct *ISAC_main_inst,
const uint8_t* encoded,
size_t packet_size,
uint16_t rtp_seq_number,
uint32_t arr_ts)
{
ISACFIX_SubStruct *ISAC_inst;
Bitstr_dec streamdata;
int16_t err;
const size_t kRequiredEncodedLenBytes = 10;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* Sanity check of packet length */
if (packet_size == 0) {
/* return error code if the packet length is null or less */
ISAC_inst->errorcode = ISAC_EMPTY_PACKET;
return -1;
} else if (packet_size > (STREAM_MAXW16<<1)) {
/* return error code if length of stream is too long */
ISAC_inst->errorcode = ISAC_LENGTH_MISMATCH;
return -1;
}
/* check if decoder initiated */
if ((ISAC_inst->initflag & 1) != 1) {
ISAC_inst->errorcode = ISAC_DECODER_NOT_INITIATED;
return (-1);
}
InitializeDecoderBitstream(packet_size, &streamdata);
read_be16(encoded, kRequiredEncodedLenBytes, streamdata.stream);
err = WebRtcIsacfix_EstimateBandwidth(&ISAC_inst->bwestimator_obj,
&streamdata,
packet_size,
rtp_seq_number,
0,
arr_ts);
if (err < 0)
{
/* return error code if something went wrong */
ISAC_inst->errorcode = -err;
return -1;
}
return 0;
}
/****************************************************************************
* WebRtcIsacfix_UpdateBwEstimate(...)
*
* This function updates the estimate of the bandwidth.
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - encoded : encoded ISAC frame(s).
* - packet_size : size of the packet.
* - rtp_seq_number : the RTP number of the packet.
* - send_ts : Send Time Stamp from RTP header
* - arr_ts : the arrival time of the packet (from NetEq)
* in samples.
*
* Return value : 0 - Ok
* -1 - Error
*/
int16_t WebRtcIsacfix_UpdateBwEstimate(ISACFIX_MainStruct *ISAC_main_inst,
const uint8_t* encoded,
size_t packet_size,
uint16_t rtp_seq_number,
uint32_t send_ts,
uint32_t arr_ts)
{
ISACFIX_SubStruct *ISAC_inst;
Bitstr_dec streamdata;
int16_t err;
const size_t kRequiredEncodedLenBytes = 10;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* Sanity check of packet length */
if (packet_size == 0) {
/* return error code if the packet length is null or less */
ISAC_inst->errorcode = ISAC_EMPTY_PACKET;
return -1;
} else if (packet_size < kRequiredEncodedLenBytes) {
ISAC_inst->errorcode = ISAC_PACKET_TOO_SHORT;
return -1;
} else if (packet_size > (STREAM_MAXW16<<1)) {
/* return error code if length of stream is too long */
ISAC_inst->errorcode = ISAC_LENGTH_MISMATCH;
return -1;
}
/* check if decoder initiated */
if ((ISAC_inst->initflag & 1) != 1) {
ISAC_inst->errorcode = ISAC_DECODER_NOT_INITIATED;
return (-1);
}
InitializeDecoderBitstream(packet_size, &streamdata);
read_be16(encoded, kRequiredEncodedLenBytes, streamdata.stream);
err = WebRtcIsacfix_EstimateBandwidth(&ISAC_inst->bwestimator_obj,
&streamdata,
packet_size,
rtp_seq_number,
send_ts,
arr_ts);
if (err < 0)
{
/* return error code if something went wrong */
ISAC_inst->errorcode = -err;
return -1;
}
return 0;
}
/****************************************************************************
* WebRtcIsacfix_Decode(...)
*
* This function decodes a ISAC frame. Output speech length
* will be a multiple of 480 samples: 480 or 960 samples,
* depending on the framesize (30 or 60 ms).
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - encoded : encoded ISAC frame(s)
* - len : bytes in encoded vector
*
* Output:
* - decoded : The decoded vector
*
* Return value : >0 - number of samples in decoded vector
* -1 - Error
*/
int WebRtcIsacfix_Decode(ISACFIX_MainStruct* ISAC_main_inst,
const uint8_t* encoded,
size_t len,
int16_t* decoded,
int16_t* speechType)
{
ISACFIX_SubStruct *ISAC_inst;
/* number of samples (480 or 960), output from decoder */
/* that were actually used in the encoder/decoder (determined on the fly) */
size_t number_of_samples;
int declen_int = 0;
size_t declen;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* check if decoder initiated */
if ((ISAC_inst->initflag & 1) != 1) {
ISAC_inst->errorcode = ISAC_DECODER_NOT_INITIATED;
return (-1);
}
/* Sanity check of packet length */
if (len == 0) {
/* return error code if the packet length is null or less */
ISAC_inst->errorcode = ISAC_EMPTY_PACKET;
return -1;
} else if (len > (STREAM_MAXW16<<1)) {
/* return error code if length of stream is too long */
ISAC_inst->errorcode = ISAC_LENGTH_MISMATCH;
return -1;
}
InitializeDecoderBitstream(len, &ISAC_inst->ISACdec_obj.bitstr_obj);
read_be16(encoded, len, ISAC_inst->ISACdec_obj.bitstr_obj.stream);
/* added for NetEq purposes (VAD/DTX related) */
*speechType=1;
declen_int = WebRtcIsacfix_DecodeImpl(decoded, &ISAC_inst->ISACdec_obj,
&number_of_samples);
if (declen_int < 0) {
/* Some error inside the decoder */
ISAC_inst->errorcode = -(int16_t)declen_int;
memset(decoded, 0, sizeof(int16_t) * MAX_FRAMESAMPLES);
return -1;
}
declen = (size_t)declen_int;
/* error check */
if (declen & 1) {
if (len != declen &&
len != declen +
((ISAC_inst->ISACdec_obj.bitstr_obj.stream[declen >> 1]) & 0xFF)) {
ISAC_inst->errorcode = ISAC_LENGTH_MISMATCH;
memset(decoded, 0, sizeof(int16_t) * number_of_samples);
return -1;
}
} else {
if (len != declen &&
len != declen +
((ISAC_inst->ISACdec_obj.bitstr_obj.stream[declen >> 1]) >> 8)) {
ISAC_inst->errorcode = ISAC_LENGTH_MISMATCH;
memset(decoded, 0, sizeof(int16_t) * number_of_samples);
return -1;
}
}
return (int)number_of_samples;
}
/****************************************************************************
* WebRtcIsacfix_DecodeNb(...)
*
* This function decodes a ISAC frame in narrow-band (8 kHz sampling).
* Output speech length will be a multiple of 240 samples: 240 or 480 samples,
* depending on the framesize (30 or 60 ms).
*
* The function is enabled if WEBRTC_ISAC_FIX_NB_CALLS_ENABLED is defined
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - encoded : encoded ISAC frame(s)
* - len : bytes in encoded vector
*
* Output:
* - decoded : The decoded vector
*
* Return value : >0 - number of samples in decoded vector
* -1 - Error
*/
#ifdef WEBRTC_ISAC_FIX_NB_CALLS_ENABLED
int WebRtcIsacfix_DecodeNb(ISACFIX_MainStruct* ISAC_main_inst,
const uint16_t* encoded,
size_t len,
int16_t* decoded,
int16_t* speechType)
{
ISACFIX_SubStruct *ISAC_inst;
/* twice the number of samples (480 or 960), output from decoder */
/* that were actually used in the encoder/decoder (determined on the fly) */
size_t number_of_samples;
int declen_int = 0;
size_t declen;
int16_t dummy[FRAMESAMPLES/2];
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* check if decoder initiated */
if ((ISAC_inst->initflag & 1) != 1) {
ISAC_inst->errorcode = ISAC_DECODER_NOT_INITIATED;
return (-1);
}
if (len == 0) {
/* return error code if the packet length is null or less */
ISAC_inst->errorcode = ISAC_EMPTY_PACKET;
return -1;
} else if (len > (STREAM_MAXW16<<1)) {
/* return error code if length of stream is too long */
ISAC_inst->errorcode = ISAC_LENGTH_MISMATCH;
return -1;
}
InitializeDecoderBitstream(len, &ISAC_inst->ISACdec_obj.bitstr_obj);
read_be16(encoded, len, ISAC_inst->ISACdec_obj.bitstr_obj.stream);
/* added for NetEq purposes (VAD/DTX related) */
*speechType=1;
declen_int = WebRtcIsacfix_DecodeImpl(decoded, &ISAC_inst->ISACdec_obj,
&number_of_samples);
if (declen_int < 0) {
/* Some error inside the decoder */
ISAC_inst->errorcode = -(int16_t)declen_int;
memset(decoded, 0, sizeof(int16_t) * FRAMESAMPLES);
return -1;
}
declen = (size_t)declen_int;
/* error check */
if (declen & 1) {
if (len != declen &&
len != declen +
((ISAC_inst->ISACdec_obj.bitstr_obj.stream[declen >> 1]) & 0xFF)) {
ISAC_inst->errorcode = ISAC_LENGTH_MISMATCH;
memset(decoded, 0, sizeof(int16_t) * number_of_samples);
return -1;
}
} else {
if (len != declen &&
len != declen +
((ISAC_inst->ISACdec_obj.bitstr_obj.stream[declen >>1]) >> 8)) {
ISAC_inst->errorcode = ISAC_LENGTH_MISMATCH;
memset(decoded, 0, sizeof(int16_t) * number_of_samples);
return -1;
}
}
WebRtcIsacfix_SplitAndFilter2(decoded, decoded, dummy, &ISAC_inst->ISACdec_obj.decimatorstr_obj);
if (number_of_samples>FRAMESAMPLES) {
WebRtcIsacfix_SplitAndFilter2(decoded + FRAMESAMPLES, decoded + FRAMESAMPLES/2,
dummy, &ISAC_inst->ISACdec_obj.decimatorstr_obj);
}
return (int)(number_of_samples / 2);
}
#endif /* WEBRTC_ISAC_FIX_NB_CALLS_ENABLED */
/****************************************************************************
* WebRtcIsacfix_DecodePlcNb(...)
*
* This function conducts PLC for ISAC frame(s) in narrow-band (8kHz sampling).
* Output speech length will be "240*noOfLostFrames" samples
* that is equevalent of "30*noOfLostFrames" millisecond.
*
* The function is enabled if WEBRTC_ISAC_FIX_NB_CALLS_ENABLED is defined
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - noOfLostFrames : Number of PLC frames (240 sample=30ms) to produce
*
* Output:
* - decoded : The decoded vector
*
* Return value : Number of samples in decoded PLC vector
*/
#ifdef WEBRTC_ISAC_FIX_NB_CALLS_ENABLED
size_t WebRtcIsacfix_DecodePlcNb(ISACFIX_MainStruct* ISAC_main_inst,
int16_t* decoded,
size_t noOfLostFrames )
{
size_t no_of_samples, declen, k;
int16_t outframeNB[FRAMESAMPLES];
int16_t outframeWB[FRAMESAMPLES];
int16_t dummy[FRAMESAMPLES/2];
ISACFIX_SubStruct *ISAC_inst;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* Limit number of frames to two = 60 msec. Otherwise we exceed data vectors */
if (noOfLostFrames > 2){
noOfLostFrames = 2;
}
k = 0;
declen = 0;
while( noOfLostFrames > 0 )
{
WebRtcIsacfix_DecodePlcImpl(outframeWB, &ISAC_inst->ISACdec_obj,
&no_of_samples);
WebRtcIsacfix_SplitAndFilter2(outframeWB, &(outframeNB[k*240]), dummy, &ISAC_inst->ISACdec_obj.decimatorstr_obj);
declen += no_of_samples;
noOfLostFrames--;
k++;
}
declen>>=1;
for (k=0;k<declen;k++) {
decoded[k] = outframeNB[k];
}
return declen;
}
#endif /* WEBRTC_ISAC_FIX_NB_CALLS_ENABLED */
/****************************************************************************
* WebRtcIsacfix_DecodePlc(...)
*
* This function conducts PLC for ISAC frame(s) in wide-band (16kHz sampling).
* Output speech length will be "480*noOfLostFrames" samples
* that is equevalent of "30*noOfLostFrames" millisecond.
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - noOfLostFrames : Number of PLC frames (480sample = 30ms)
* to produce
*
* Output:
* - decoded : The decoded vector
*
* Return value : Number of samples in decoded PLC vector
*/
size_t WebRtcIsacfix_DecodePlc(ISACFIX_MainStruct* ISAC_main_inst,
int16_t* decoded,
size_t noOfLostFrames)
{
size_t no_of_samples, declen, k;
int16_t outframe16[MAX_FRAMESAMPLES];
ISACFIX_SubStruct *ISAC_inst;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* Limit number of frames to two = 60 msec. Otherwise we exceed data vectors */
if (noOfLostFrames > 2) {
noOfLostFrames = 2;
}
k = 0;
declen = 0;
while( noOfLostFrames > 0 )
{
WebRtcIsacfix_DecodePlcImpl(&(outframe16[k*480]), &ISAC_inst->ISACdec_obj,
&no_of_samples);
declen += no_of_samples;
noOfLostFrames--;
k++;
}
for (k=0;k<declen;k++) {
decoded[k] = outframe16[k];
}
return declen;
}
/****************************************************************************
* WebRtcIsacfix_Control(...)
*
* This function sets the limit on the short-term average bit rate and the
* frame length. Should be used only in Instantaneous mode.
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - rate : limit on the short-term average bit rate,
* in bits/second (between 10000 and 32000)
* - framesize : number of milliseconds per frame (30 or 60)
*
* Return value : 0 - ok
* -1 - Error
*/
int16_t WebRtcIsacfix_Control(ISACFIX_MainStruct *ISAC_main_inst,
int16_t rate,
int framesize)
{
ISACFIX_SubStruct *ISAC_inst;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
if (ISAC_inst->CodingMode == 0)
{
/* in adaptive mode */
ISAC_inst->errorcode = ISAC_MODE_MISMATCH;
return -1;
}
if (rate >= 10000 && rate <= 32000)
ISAC_inst->ISACenc_obj.BottleNeck = rate;
else {
ISAC_inst->errorcode = ISAC_DISALLOWED_BOTTLENECK;
return -1;
}
if (framesize == 30 || framesize == 60)
ISAC_inst->ISACenc_obj.new_framelength = (int16_t)((FS/1000) * framesize);
else {
ISAC_inst->errorcode = ISAC_DISALLOWED_FRAME_LENGTH;
return -1;
}
return 0;
}
void WebRtcIsacfix_SetInitialBweBottleneck(ISACFIX_MainStruct* ISAC_main_inst,
int bottleneck_bits_per_second) {
ISACFIX_SubStruct* inst = (ISACFIX_SubStruct*)ISAC_main_inst;
RTC_DCHECK_GE(bottleneck_bits_per_second, 10000);
RTC_DCHECK_LE(bottleneck_bits_per_second, 32000);
inst->bwestimator_obj.sendBwAvg = ((uint32_t)bottleneck_bits_per_second) << 7;
}
/****************************************************************************
* WebRtcIsacfix_ControlBwe(...)
*
* This function sets the initial values of bottleneck and frame-size if
* iSAC is used in channel-adaptive mode. Through this API, users can
* enforce a frame-size for all values of bottleneck. Then iSAC will not
* automatically change the frame-size.
*
*
* Input:
* - ISAC_main_inst : ISAC instance.
* - rateBPS : initial value of bottleneck in bits/second
* 10000 <= rateBPS <= 32000 is accepted
* For default bottleneck set rateBPS = 0
* - frameSizeMs : number of milliseconds per frame (30 or 60)
* - enforceFrameSize : 1 to enforce the given frame-size through out
* the adaptation process, 0 to let iSAC change
* the frame-size if required.
*
* Return value : 0 - ok
* -1 - Error
*/
int16_t WebRtcIsacfix_ControlBwe(ISACFIX_MainStruct *ISAC_main_inst,
int16_t rateBPS,
int frameSizeMs,
int16_t enforceFrameSize)
{
ISACFIX_SubStruct *ISAC_inst;
/* Typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* check if encoder initiated */
if ((ISAC_inst->initflag & 2) != 2) {
ISAC_inst->errorcode = ISAC_ENCODER_NOT_INITIATED;
return (-1);
}
/* Check that we are in channel-adaptive mode, otherwise, return -1 */
if (ISAC_inst->CodingMode != 0) {
ISAC_inst->errorcode = ISAC_MODE_MISMATCH;
return (-1);
}
/* Set struct variable if enforceFrameSize is set. ISAC will then keep the */
/* chosen frame size. */
ISAC_inst->ISACenc_obj.enforceFrameSize = (enforceFrameSize != 0)? 1:0;
/* Set initial rate, if value between 10000 and 32000, */
/* if rateBPS is 0, keep the default initial bottleneck value (15000) */
if ((rateBPS >= 10000) && (rateBPS <= 32000)) {
ISAC_inst->bwestimator_obj.sendBwAvg = (((uint32_t)rateBPS) << 7);
} else if (rateBPS != 0) {
ISAC_inst->errorcode = ISAC_DISALLOWED_BOTTLENECK;
return -1;
}
/* Set initial framesize. If enforceFrameSize is set the frame size will not change */
if ((frameSizeMs == 30) || (frameSizeMs == 60)) {
ISAC_inst->ISACenc_obj.new_framelength = (int16_t)((FS/1000) * frameSizeMs);
} else {
ISAC_inst->errorcode = ISAC_DISALLOWED_FRAME_LENGTH;
return -1;
}
return 0;
}
/****************************************************************************
* WebRtcIsacfix_GetDownLinkBwIndex(...)
*
* This function returns index representing the Bandwidth estimate from
* other side to this side.
*
* Input:
* - ISAC_main_inst: iSAC struct
*
* Output:
* - rateIndex : Bandwidth estimate to transmit to other side.
*
*/
int16_t WebRtcIsacfix_GetDownLinkBwIndex(ISACFIX_MainStruct* ISAC_main_inst,
int16_t* rateIndex)
{
ISACFIX_SubStruct *ISAC_inst;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* Call function to get Bandwidth Estimate */
*rateIndex = WebRtcIsacfix_GetDownlinkBwIndexImpl(&ISAC_inst->bwestimator_obj);
return 0;
}
/****************************************************************************
* WebRtcIsacfix_UpdateUplinkBw(...)
*
* This function takes an index representing the Bandwidth estimate from
* this side to other side and updates BWE.
*
* Input:
* - ISAC_main_inst: iSAC struct
* - rateIndex : Bandwidth estimate from other side.
*
*/
int16_t WebRtcIsacfix_UpdateUplinkBw(ISACFIX_MainStruct* ISAC_main_inst,
int16_t rateIndex)
{
int16_t err = 0;
ISACFIX_SubStruct *ISAC_inst;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
/* Call function to update BWE with received Bandwidth Estimate */
err = WebRtcIsacfix_UpdateUplinkBwRec(&ISAC_inst->bwestimator_obj, rateIndex);
if (err < 0) {
ISAC_inst->errorcode = -err;
return (-1);
}
return 0;
}
/****************************************************************************
* WebRtcIsacfix_ReadFrameLen(...)
*
* This function returns the length of the frame represented in the packet.
*
* Input:
* - encoded : Encoded bitstream
*
* Output:
* - frameLength : Length of frame in packet (in samples)
*
*/
int16_t WebRtcIsacfix_ReadFrameLen(const uint8_t* encoded,
size_t encoded_len_bytes,
size_t* frameLength)
{
Bitstr_dec streamdata;
int16_t err;
const size_t kRequiredEncodedLenBytes = 10;
if (encoded_len_bytes < kRequiredEncodedLenBytes) {
return -1;
}
InitializeDecoderBitstream(encoded_len_bytes, &streamdata);
read_be16(encoded, kRequiredEncodedLenBytes, streamdata.stream);
/* decode frame length */
err = WebRtcIsacfix_DecodeFrameLen(&streamdata, frameLength);
if (err<0) // error check
return err;
return 0;
}
/****************************************************************************
* WebRtcIsacfix_ReadBwIndex(...)
*
* This function returns the index of the Bandwidth estimate from the bitstream.
*
* Input:
* - encoded : Encoded bitstream
*
* Output:
* - frameLength : Length of frame in packet (in samples)
* - rateIndex : Bandwidth estimate in bitstream
*
*/
int16_t WebRtcIsacfix_ReadBwIndex(const uint8_t* encoded,
size_t encoded_len_bytes,
int16_t* rateIndex)
{
Bitstr_dec streamdata;
int16_t err;
const size_t kRequiredEncodedLenBytes = 10;
if (encoded_len_bytes < kRequiredEncodedLenBytes) {
return -1;
}
InitializeDecoderBitstream(encoded_len_bytes, &streamdata);
read_be16(encoded, kRequiredEncodedLenBytes, streamdata.stream);
/* decode frame length, needed to get to the rateIndex in the bitstream */
size_t frameLength;
err = WebRtcIsacfix_DecodeFrameLen(&streamdata, &frameLength);
if (err<0) // error check
return err;
/* decode BW estimation */
err = WebRtcIsacfix_DecodeSendBandwidth(&streamdata, rateIndex);
if (err<0) // error check
return err;
return 0;
}
/****************************************************************************
* WebRtcIsacfix_GetErrorCode(...)
*
* This function can be used to check the error code of an iSAC instance. When
* a function returns -1 a error code will be set for that instance. The
* function below extract the code of the last error that occured in the
* specified instance.
*
* Input:
* - ISAC_main_inst : ISAC instance
*
* Return value : Error code
*/
int16_t WebRtcIsacfix_GetErrorCode(ISACFIX_MainStruct *ISAC_main_inst)
{
ISACFIX_SubStruct *ISAC_inst;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
return ISAC_inst->errorcode;
}
/****************************************************************************
* WebRtcIsacfix_GetUplinkBw(...)
*
* This function returns the inst quantized iSAC send bitrate
*
* Input:
* - ISAC_main_inst : iSAC instance
*
* Return value : bitrate
*/
int32_t WebRtcIsacfix_GetUplinkBw(ISACFIX_MainStruct *ISAC_main_inst)
{
ISACFIX_SubStruct *ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
BwEstimatorstr * bw = (BwEstimatorstr*)&(ISAC_inst->bwestimator_obj);
return (int32_t) WebRtcIsacfix_GetUplinkBandwidth(bw);
}
/****************************************************************************
* WebRtcIsacfix_GetNewFrameLen(...)
*
* This function return the next frame length (in samples) of iSAC.
*
* Input:
* - ISAC_main_inst : iSAC instance
*
* Return value : frame lenght in samples
*/
int16_t WebRtcIsacfix_GetNewFrameLen(ISACFIX_MainStruct *ISAC_main_inst)
{
ISACFIX_SubStruct *ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
return ISAC_inst->ISACenc_obj.new_framelength;
}
/****************************************************************************
* WebRtcIsacfix_SetMaxPayloadSize(...)
*
* This function sets a limit for the maximum payload size of iSAC. The same
* value is used both for 30 and 60 msec packets.
* The absolute max will be valid until next time the function is called.
* NOTE! This function may override the function WebRtcIsacfix_SetMaxRate()
*
* Input:
* - ISAC_main_inst : iSAC instance
* - maxPayloadBytes : maximum size of the payload in bytes
* valid values are between 100 and 400 bytes
*
*
* Return value : 0 if sucessful
* -1 if error happens
*/
int16_t WebRtcIsacfix_SetMaxPayloadSize(ISACFIX_MainStruct *ISAC_main_inst,
int16_t maxPayloadBytes)
{
ISACFIX_SubStruct *ISAC_inst;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
if((maxPayloadBytes < 100) || (maxPayloadBytes > 400))
{
/* maxPayloadBytes is out of valid range */
return -1;
}
else
{
/* Set new absolute max, which will not change unless this function
is called again with a new value */
ISAC_inst->ISACenc_obj.maxPayloadBytes = maxPayloadBytes;
/* Set new maximum values for 30 and 60 msec packets */
if (maxPayloadBytes < ISAC_inst->ISACenc_obj.maxRateInBytes) {
ISAC_inst->ISACenc_obj.payloadLimitBytes30 = maxPayloadBytes;
} else {
ISAC_inst->ISACenc_obj.payloadLimitBytes30 = ISAC_inst->ISACenc_obj.maxRateInBytes;
}
if ( maxPayloadBytes < (ISAC_inst->ISACenc_obj.maxRateInBytes << 1)) {
ISAC_inst->ISACenc_obj.payloadLimitBytes60 = maxPayloadBytes;
} else {
ISAC_inst->ISACenc_obj.payloadLimitBytes60 = (ISAC_inst->ISACenc_obj.maxRateInBytes << 1);
}
}
return 0;
}
/****************************************************************************
* WebRtcIsacfix_SetMaxRate(...)
*
* This function sets the maximum rate which the codec may not exceed for a
* singel packet. The maximum rate is set in bits per second.
* The codec has an absolute maximum rate of 53400 bits per second (200 bytes
* per 30 msec).
* It is possible to set a maximum rate between 32000 and 53400 bits per second.
*
* The rate limit is valid until next time the function is called.
*
* NOTE! Packet size will never go above the value set if calling
* WebRtcIsacfix_SetMaxPayloadSize() (default max packet size is 400 bytes).
*
* Input:
* - ISAC_main_inst : iSAC instance
* - maxRateInBytes : maximum rate in bits per second,
* valid values are 32000 to 53400 bits
*
* Return value : 0 if sucessful
* -1 if error happens
*/
int16_t WebRtcIsacfix_SetMaxRate(ISACFIX_MainStruct *ISAC_main_inst,
int32_t maxRate)
{
ISACFIX_SubStruct *ISAC_inst;
int16_t maxRateInBytes;
/* typecast pointer to real structure */
ISAC_inst = (ISACFIX_SubStruct *)ISAC_main_inst;
if((maxRate < 32000) || (maxRate > 53400))
{
/* maxRate is out of valid range */
return -1;
}
else
{
/* Calculate maximum number of bytes per 30 msec packets for the given
maximum rate. Multiply with 30/1000 to get number of bits per 30 msec,
divide by 8 to get number of bytes per 30 msec:
maxRateInBytes = floor((maxRate * 30/1000) / 8); */
maxRateInBytes = (int16_t)( WebRtcSpl_DivW32W16ResW16(WEBRTC_SPL_MUL(maxRate, 3), 800) );
/* Store the value for usage in the WebRtcIsacfix_SetMaxPayloadSize-function */
ISAC_inst->ISACenc_obj.maxRateInBytes = maxRateInBytes;
/* For 30 msec packets: if the new limit is below the maximum
payload size, set a new limit */
if (maxRateInBytes < ISAC_inst->ISACenc_obj.maxPayloadBytes) {
ISAC_inst->ISACenc_obj.payloadLimitBytes30 = maxRateInBytes;
} else {
ISAC_inst->ISACenc_obj.payloadLimitBytes30 = ISAC_inst->ISACenc_obj.maxPayloadBytes;
}
/* For 60 msec packets: if the new limit (times 2) is below the
maximum payload size, set a new limit */
if ( (maxRateInBytes << 1) < ISAC_inst->ISACenc_obj.maxPayloadBytes) {
ISAC_inst->ISACenc_obj.payloadLimitBytes60 = (maxRateInBytes << 1);
} else {
ISAC_inst->ISACenc_obj.payloadLimitBytes60 = ISAC_inst->ISACenc_obj.maxPayloadBytes;
}
}
return 0;
}
/****************************************************************************
* WebRtcIsacfix_version(...)
*
* This function returns the version number.
*
* Output:
* - version : Pointer to character string
*
*/
void WebRtcIsacfix_version(char *version)
{
strcpy(version, "3.6.0");
}
void WebRtcIsacfix_GetBandwidthInfo(ISACFIX_MainStruct* ISAC_main_inst,
IsacBandwidthInfo* bwinfo) {
ISACFIX_SubStruct* inst = (ISACFIX_SubStruct*)ISAC_main_inst;
RTC_DCHECK_NE(0, inst->initflag & 1); // Decoder initialized.
WebRtcIsacfixBw_GetBandwidthInfo(&inst->bwestimator_obj, bwinfo);
}
void WebRtcIsacfix_SetBandwidthInfo(ISACFIX_MainStruct* ISAC_main_inst,
const IsacBandwidthInfo* bwinfo) {
ISACFIX_SubStruct* inst = (ISACFIX_SubStruct*)ISAC_main_inst;
RTC_DCHECK_NE(0, inst->initflag & 2); // Encoder initialized.
WebRtcIsacfixBw_SetBandwidthInfo(&inst->bwestimator_obj, bwinfo);
}