435 lines
22 KiB
C
435 lines
22 KiB
C
/***********************************************************************
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Copyright (c) 2006-2011, Skype Limited. All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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- Redistributions of source code must retain the above copyright notice,
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this list of conditions and the following disclaimer.
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- Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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- Neither the name of Internet Society, IETF or IETF Trust, nor the
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names of specific contributors, may be used to endorse or promote
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products derived from this software without specific prior written
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permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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POSSIBILITY OF SUCH DAMAGE.
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***********************************************************************/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include <stdlib.h>
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#include "main_FLP.h"
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#include "tuning_parameters.h"
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/* Low Bitrate Redundancy (LBRR) encoding. Reuse all parameters but encode with lower bitrate */
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static OPUS_INLINE void silk_LBRR_encode_FLP(
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silk_encoder_state_FLP *psEnc, /* I/O Encoder state FLP */
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silk_encoder_control_FLP *psEncCtrl, /* I/O Encoder control FLP */
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const silk_float xfw[], /* I Input signal */
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opus_int condCoding /* I The type of conditional coding used so far for this frame */
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);
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void silk_encode_do_VAD_FLP(
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silk_encoder_state_FLP *psEnc, /* I/O Encoder state FLP */
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opus_int activity /* I Decision of Opus voice activity detector */
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)
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{
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const opus_int activity_threshold = SILK_FIX_CONST( SPEECH_ACTIVITY_DTX_THRES, 8 );
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/****************************/
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/* Voice Activity Detection */
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/****************************/
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silk_VAD_GetSA_Q8( &psEnc->sCmn, psEnc->sCmn.inputBuf + 1, psEnc->sCmn.arch );
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/* If Opus VAD is inactive and Silk VAD is active: lower Silk VAD to just under the threshold */
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if( activity == VAD_NO_ACTIVITY && psEnc->sCmn.speech_activity_Q8 >= activity_threshold ) {
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psEnc->sCmn.speech_activity_Q8 = activity_threshold - 1;
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}
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/**************************************************/
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/* Convert speech activity into VAD and DTX flags */
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/**************************************************/
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if( psEnc->sCmn.speech_activity_Q8 < activity_threshold ) {
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psEnc->sCmn.indices.signalType = TYPE_NO_VOICE_ACTIVITY;
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psEnc->sCmn.noSpeechCounter++;
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if( psEnc->sCmn.noSpeechCounter <= NB_SPEECH_FRAMES_BEFORE_DTX ) {
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psEnc->sCmn.inDTX = 0;
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} else if( psEnc->sCmn.noSpeechCounter > MAX_CONSECUTIVE_DTX + NB_SPEECH_FRAMES_BEFORE_DTX ) {
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psEnc->sCmn.noSpeechCounter = NB_SPEECH_FRAMES_BEFORE_DTX;
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psEnc->sCmn.inDTX = 0;
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}
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psEnc->sCmn.VAD_flags[ psEnc->sCmn.nFramesEncoded ] = 0;
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} else {
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psEnc->sCmn.noSpeechCounter = 0;
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psEnc->sCmn.inDTX = 0;
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psEnc->sCmn.indices.signalType = TYPE_UNVOICED;
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psEnc->sCmn.VAD_flags[ psEnc->sCmn.nFramesEncoded ] = 1;
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}
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}
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/****************/
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/* Encode frame */
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/****************/
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opus_int silk_encode_frame_FLP(
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silk_encoder_state_FLP *psEnc, /* I/O Encoder state FLP */
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opus_int32 *pnBytesOut, /* O Number of payload bytes; */
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ec_enc *psRangeEnc, /* I/O compressor data structure */
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opus_int condCoding, /* I The type of conditional coding to use */
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opus_int maxBits, /* I If > 0: maximum number of output bits */
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opus_int useCBR /* I Flag to force constant-bitrate operation */
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)
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{
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silk_encoder_control_FLP sEncCtrl;
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opus_int i, iter, maxIter, found_upper, found_lower, ret = 0;
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silk_float *x_frame, *res_pitch_frame;
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silk_float res_pitch[ 2 * MAX_FRAME_LENGTH + LA_PITCH_MAX ];
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ec_enc sRangeEnc_copy, sRangeEnc_copy2;
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silk_nsq_state sNSQ_copy, sNSQ_copy2;
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opus_int32 seed_copy, nBits, nBits_lower, nBits_upper, gainMult_lower, gainMult_upper;
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opus_int32 gainsID, gainsID_lower, gainsID_upper;
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opus_int16 gainMult_Q8;
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opus_int16 ec_prevLagIndex_copy;
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opus_int ec_prevSignalType_copy;
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opus_int8 LastGainIndex_copy2;
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opus_int32 pGains_Q16[ MAX_NB_SUBFR ];
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opus_uint8 ec_buf_copy[ 1275 ];
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opus_int gain_lock[ MAX_NB_SUBFR ] = {0};
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opus_int16 best_gain_mult[ MAX_NB_SUBFR ];
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opus_int best_sum[ MAX_NB_SUBFR ];
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/* This is totally unnecessary but many compilers (including gcc) are too dumb to realise it */
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LastGainIndex_copy2 = nBits_lower = nBits_upper = gainMult_lower = gainMult_upper = 0;
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psEnc->sCmn.indices.Seed = psEnc->sCmn.frameCounter++ & 3;
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/**************************************************************/
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/* Set up Input Pointers, and insert frame in input buffer */
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/**************************************************************/
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/* pointers aligned with start of frame to encode */
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x_frame = psEnc->x_buf + psEnc->sCmn.ltp_mem_length; /* start of frame to encode */
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res_pitch_frame = res_pitch + psEnc->sCmn.ltp_mem_length; /* start of pitch LPC residual frame */
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/***************************************/
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/* Ensure smooth bandwidth transitions */
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/***************************************/
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silk_LP_variable_cutoff( &psEnc->sCmn.sLP, psEnc->sCmn.inputBuf + 1, psEnc->sCmn.frame_length );
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/*******************************************/
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/* Copy new frame to front of input buffer */
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/*******************************************/
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silk_short2float_array( x_frame + LA_SHAPE_MS * psEnc->sCmn.fs_kHz, psEnc->sCmn.inputBuf + 1, psEnc->sCmn.frame_length );
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/* Add tiny signal to avoid high CPU load from denormalized floating point numbers */
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for( i = 0; i < 8; i++ ) {
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x_frame[ LA_SHAPE_MS * psEnc->sCmn.fs_kHz + i * ( psEnc->sCmn.frame_length >> 3 ) ] += ( 1 - ( i & 2 ) ) * 1e-6f;
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}
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if( !psEnc->sCmn.prefillFlag ) {
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/*****************************************/
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/* Find pitch lags, initial LPC analysis */
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/*****************************************/
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silk_find_pitch_lags_FLP( psEnc, &sEncCtrl, res_pitch, x_frame, psEnc->sCmn.arch );
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/************************/
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/* Noise shape analysis */
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/************************/
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silk_noise_shape_analysis_FLP( psEnc, &sEncCtrl, res_pitch_frame, x_frame );
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/***************************************************/
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/* Find linear prediction coefficients (LPC + LTP) */
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/***************************************************/
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silk_find_pred_coefs_FLP( psEnc, &sEncCtrl, res_pitch_frame, x_frame, condCoding );
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/****************************************/
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/* Process gains */
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/****************************************/
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silk_process_gains_FLP( psEnc, &sEncCtrl, condCoding );
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/****************************************/
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/* Low Bitrate Redundant Encoding */
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/****************************************/
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silk_LBRR_encode_FLP( psEnc, &sEncCtrl, x_frame, condCoding );
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/* Loop over quantizer and entroy coding to control bitrate */
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maxIter = 6;
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gainMult_Q8 = SILK_FIX_CONST( 1, 8 );
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found_lower = 0;
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found_upper = 0;
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gainsID = silk_gains_ID( psEnc->sCmn.indices.GainsIndices, psEnc->sCmn.nb_subfr );
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gainsID_lower = -1;
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gainsID_upper = -1;
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/* Copy part of the input state */
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silk_memcpy( &sRangeEnc_copy, psRangeEnc, sizeof( ec_enc ) );
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silk_memcpy( &sNSQ_copy, &psEnc->sCmn.sNSQ, sizeof( silk_nsq_state ) );
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seed_copy = psEnc->sCmn.indices.Seed;
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ec_prevLagIndex_copy = psEnc->sCmn.ec_prevLagIndex;
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ec_prevSignalType_copy = psEnc->sCmn.ec_prevSignalType;
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for( iter = 0; ; iter++ ) {
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if( gainsID == gainsID_lower ) {
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nBits = nBits_lower;
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} else if( gainsID == gainsID_upper ) {
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nBits = nBits_upper;
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} else {
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/* Restore part of the input state */
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if( iter > 0 ) {
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silk_memcpy( psRangeEnc, &sRangeEnc_copy, sizeof( ec_enc ) );
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silk_memcpy( &psEnc->sCmn.sNSQ, &sNSQ_copy, sizeof( silk_nsq_state ) );
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psEnc->sCmn.indices.Seed = seed_copy;
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psEnc->sCmn.ec_prevLagIndex = ec_prevLagIndex_copy;
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psEnc->sCmn.ec_prevSignalType = ec_prevSignalType_copy;
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}
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/*****************************************/
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/* Noise shaping quantization */
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/*****************************************/
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silk_NSQ_wrapper_FLP( psEnc, &sEncCtrl, &psEnc->sCmn.indices, &psEnc->sCmn.sNSQ, psEnc->sCmn.pulses, x_frame );
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if ( iter == maxIter && !found_lower ) {
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silk_memcpy( &sRangeEnc_copy2, psRangeEnc, sizeof( ec_enc ) );
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}
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/****************************************/
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/* Encode Parameters */
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/****************************************/
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silk_encode_indices( &psEnc->sCmn, psRangeEnc, psEnc->sCmn.nFramesEncoded, 0, condCoding );
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/****************************************/
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/* Encode Excitation Signal */
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/****************************************/
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silk_encode_pulses( psRangeEnc, psEnc->sCmn.indices.signalType, psEnc->sCmn.indices.quantOffsetType,
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psEnc->sCmn.pulses, psEnc->sCmn.frame_length );
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nBits = ec_tell( psRangeEnc );
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/* If we still bust after the last iteration, do some damage control. */
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if ( iter == maxIter && !found_lower && nBits > maxBits ) {
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silk_memcpy( psRangeEnc, &sRangeEnc_copy2, sizeof( ec_enc ) );
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/* Keep gains the same as the last frame. */
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psEnc->sShape.LastGainIndex = sEncCtrl.lastGainIndexPrev;
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for ( i = 0; i < psEnc->sCmn.nb_subfr; i++ ) {
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psEnc->sCmn.indices.GainsIndices[ i ] = 4;
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}
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if (condCoding != CODE_CONDITIONALLY) {
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psEnc->sCmn.indices.GainsIndices[ 0 ] = sEncCtrl.lastGainIndexPrev;
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}
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psEnc->sCmn.ec_prevLagIndex = ec_prevLagIndex_copy;
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psEnc->sCmn.ec_prevSignalType = ec_prevSignalType_copy;
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/* Clear all pulses. */
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for ( i = 0; i < psEnc->sCmn.frame_length; i++ ) {
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psEnc->sCmn.pulses[ i ] = 0;
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}
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silk_encode_indices( &psEnc->sCmn, psRangeEnc, psEnc->sCmn.nFramesEncoded, 0, condCoding );
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silk_encode_pulses( psRangeEnc, psEnc->sCmn.indices.signalType, psEnc->sCmn.indices.quantOffsetType,
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psEnc->sCmn.pulses, psEnc->sCmn.frame_length );
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nBits = ec_tell( psRangeEnc );
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}
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if( useCBR == 0 && iter == 0 && nBits <= maxBits ) {
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break;
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}
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}
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if( iter == maxIter ) {
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if( found_lower && ( gainsID == gainsID_lower || nBits > maxBits ) ) {
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/* Restore output state from earlier iteration that did meet the bitrate budget */
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silk_memcpy( psRangeEnc, &sRangeEnc_copy2, sizeof( ec_enc ) );
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celt_assert( sRangeEnc_copy2.offs <= 1275 );
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silk_memcpy( psRangeEnc->buf, ec_buf_copy, sRangeEnc_copy2.offs );
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silk_memcpy( &psEnc->sCmn.sNSQ, &sNSQ_copy2, sizeof( silk_nsq_state ) );
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psEnc->sShape.LastGainIndex = LastGainIndex_copy2;
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}
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break;
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}
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if( nBits > maxBits ) {
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if( found_lower == 0 && iter >= 2 ) {
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/* Adjust the quantizer's rate/distortion tradeoff and discard previous "upper" results */
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sEncCtrl.Lambda = silk_max_float(sEncCtrl.Lambda*1.5f, 1.5f);
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/* Reducing dithering can help us hit the target. */
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psEnc->sCmn.indices.quantOffsetType = 0;
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found_upper = 0;
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gainsID_upper = -1;
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} else {
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found_upper = 1;
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nBits_upper = nBits;
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gainMult_upper = gainMult_Q8;
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gainsID_upper = gainsID;
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}
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} else if( nBits < maxBits - 5 ) {
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found_lower = 1;
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nBits_lower = nBits;
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gainMult_lower = gainMult_Q8;
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if( gainsID != gainsID_lower ) {
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gainsID_lower = gainsID;
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/* Copy part of the output state */
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silk_memcpy( &sRangeEnc_copy2, psRangeEnc, sizeof( ec_enc ) );
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celt_assert( psRangeEnc->offs <= 1275 );
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silk_memcpy( ec_buf_copy, psRangeEnc->buf, psRangeEnc->offs );
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silk_memcpy( &sNSQ_copy2, &psEnc->sCmn.sNSQ, sizeof( silk_nsq_state ) );
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LastGainIndex_copy2 = psEnc->sShape.LastGainIndex;
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}
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} else {
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/* Within 5 bits of budget: close enough */
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break;
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}
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if ( !found_lower && nBits > maxBits ) {
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int j;
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for ( i = 0; i < psEnc->sCmn.nb_subfr; i++ ) {
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int sum=0;
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for ( j = i*psEnc->sCmn.subfr_length; j < (i+1)*psEnc->sCmn.subfr_length; j++ ) {
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sum += abs( psEnc->sCmn.pulses[j] );
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}
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if ( iter == 0 || (sum < best_sum[i] && !gain_lock[i]) ) {
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best_sum[i] = sum;
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best_gain_mult[i] = gainMult_Q8;
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} else {
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gain_lock[i] = 1;
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}
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}
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}
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if( ( found_lower & found_upper ) == 0 ) {
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/* Adjust gain according to high-rate rate/distortion curve */
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if( nBits > maxBits ) {
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if (gainMult_Q8 < 16384) {
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gainMult_Q8 *= 2;
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} else {
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gainMult_Q8 = 32767;
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}
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} else {
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opus_int32 gain_factor_Q16;
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gain_factor_Q16 = silk_log2lin( silk_LSHIFT( nBits - maxBits, 7 ) / psEnc->sCmn.frame_length + SILK_FIX_CONST( 16, 7 ) );
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gainMult_Q8 = silk_SMULWB( gain_factor_Q16, gainMult_Q8 );
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}
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} else {
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/* Adjust gain by interpolating */
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gainMult_Q8 = gainMult_lower + ( ( gainMult_upper - gainMult_lower ) * ( maxBits - nBits_lower ) ) / ( nBits_upper - nBits_lower );
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/* New gain multplier must be between 25% and 75% of old range (note that gainMult_upper < gainMult_lower) */
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if( gainMult_Q8 > silk_ADD_RSHIFT32( gainMult_lower, gainMult_upper - gainMult_lower, 2 ) ) {
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gainMult_Q8 = silk_ADD_RSHIFT32( gainMult_lower, gainMult_upper - gainMult_lower, 2 );
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} else
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if( gainMult_Q8 < silk_SUB_RSHIFT32( gainMult_upper, gainMult_upper - gainMult_lower, 2 ) ) {
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gainMult_Q8 = silk_SUB_RSHIFT32( gainMult_upper, gainMult_upper - gainMult_lower, 2 );
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}
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}
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for( i = 0; i < psEnc->sCmn.nb_subfr; i++ ) {
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opus_int16 tmp;
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if ( gain_lock[i] ) {
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tmp = best_gain_mult[i];
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} else {
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tmp = gainMult_Q8;
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}
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pGains_Q16[ i ] = silk_LSHIFT_SAT32( silk_SMULWB( sEncCtrl.GainsUnq_Q16[ i ], tmp ), 8 );
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}
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/* Quantize gains */
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psEnc->sShape.LastGainIndex = sEncCtrl.lastGainIndexPrev;
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silk_gains_quant( psEnc->sCmn.indices.GainsIndices, pGains_Q16,
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&psEnc->sShape.LastGainIndex, condCoding == CODE_CONDITIONALLY, psEnc->sCmn.nb_subfr );
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/* Unique identifier of gains vector */
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gainsID = silk_gains_ID( psEnc->sCmn.indices.GainsIndices, psEnc->sCmn.nb_subfr );
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/* Overwrite unquantized gains with quantized gains and convert back to Q0 from Q16 */
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for( i = 0; i < psEnc->sCmn.nb_subfr; i++ ) {
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sEncCtrl.Gains[ i ] = pGains_Q16[ i ] / 65536.0f;
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}
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}
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}
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/* Update input buffer */
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silk_memmove( psEnc->x_buf, &psEnc->x_buf[ psEnc->sCmn.frame_length ],
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( psEnc->sCmn.ltp_mem_length + LA_SHAPE_MS * psEnc->sCmn.fs_kHz ) * sizeof( silk_float ) );
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/* Exit without entropy coding */
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if( psEnc->sCmn.prefillFlag ) {
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/* No payload */
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*pnBytesOut = 0;
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return ret;
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}
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/* Parameters needed for next frame */
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psEnc->sCmn.prevLag = sEncCtrl.pitchL[ psEnc->sCmn.nb_subfr - 1 ];
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psEnc->sCmn.prevSignalType = psEnc->sCmn.indices.signalType;
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/****************************************/
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/* Finalize payload */
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/****************************************/
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psEnc->sCmn.first_frame_after_reset = 0;
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/* Payload size */
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*pnBytesOut = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
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return ret;
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}
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/* Low-Bitrate Redundancy (LBRR) encoding. Reuse all parameters but encode excitation at lower bitrate */
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static OPUS_INLINE void silk_LBRR_encode_FLP(
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silk_encoder_state_FLP *psEnc, /* I/O Encoder state FLP */
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silk_encoder_control_FLP *psEncCtrl, /* I/O Encoder control FLP */
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const silk_float xfw[], /* I Input signal */
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opus_int condCoding /* I The type of conditional coding used so far for this frame */
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)
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{
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opus_int k;
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opus_int32 Gains_Q16[ MAX_NB_SUBFR ];
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silk_float TempGains[ MAX_NB_SUBFR ];
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SideInfoIndices *psIndices_LBRR = &psEnc->sCmn.indices_LBRR[ psEnc->sCmn.nFramesEncoded ];
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silk_nsq_state sNSQ_LBRR;
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/*******************************************/
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/* Control use of inband LBRR */
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/*******************************************/
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if( psEnc->sCmn.LBRR_enabled && psEnc->sCmn.speech_activity_Q8 > SILK_FIX_CONST( LBRR_SPEECH_ACTIVITY_THRES, 8 ) ) {
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psEnc->sCmn.LBRR_flags[ psEnc->sCmn.nFramesEncoded ] = 1;
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/* Copy noise shaping quantizer state and quantization indices from regular encoding */
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silk_memcpy( &sNSQ_LBRR, &psEnc->sCmn.sNSQ, sizeof( silk_nsq_state ) );
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silk_memcpy( psIndices_LBRR, &psEnc->sCmn.indices, sizeof( SideInfoIndices ) );
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|
|
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/* Save original gains */
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silk_memcpy( TempGains, psEncCtrl->Gains, psEnc->sCmn.nb_subfr * sizeof( silk_float ) );
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|
|
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if( psEnc->sCmn.nFramesEncoded == 0 || psEnc->sCmn.LBRR_flags[ psEnc->sCmn.nFramesEncoded - 1 ] == 0 ) {
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/* First frame in packet or previous frame not LBRR coded */
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psEnc->sCmn.LBRRprevLastGainIndex = psEnc->sShape.LastGainIndex;
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|
|
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/* Increase Gains to get target LBRR rate */
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psIndices_LBRR->GainsIndices[ 0 ] += psEnc->sCmn.LBRR_GainIncreases;
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psIndices_LBRR->GainsIndices[ 0 ] = silk_min_int( psIndices_LBRR->GainsIndices[ 0 ], N_LEVELS_QGAIN - 1 );
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|
}
|
|
|
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/* Decode to get gains in sync with decoder */
|
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silk_gains_dequant( Gains_Q16, psIndices_LBRR->GainsIndices,
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&psEnc->sCmn.LBRRprevLastGainIndex, condCoding == CODE_CONDITIONALLY, psEnc->sCmn.nb_subfr );
|
|
|
|
/* Overwrite unquantized gains with quantized gains and convert back to Q0 from Q16 */
|
|
for( k = 0; k < psEnc->sCmn.nb_subfr; k++ ) {
|
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psEncCtrl->Gains[ k ] = Gains_Q16[ k ] * ( 1.0f / 65536.0f );
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|
}
|
|
|
|
/*****************************************/
|
|
/* Noise shaping quantization */
|
|
/*****************************************/
|
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silk_NSQ_wrapper_FLP( psEnc, psEncCtrl, psIndices_LBRR, &sNSQ_LBRR,
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psEnc->sCmn.pulses_LBRR[ psEnc->sCmn.nFramesEncoded ], xfw );
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|
|
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/* Restore original gains */
|
|
silk_memcpy( psEncCtrl->Gains, TempGains, psEnc->sCmn.nb_subfr * sizeof( silk_float ) );
|
|
}
|
|
}
|