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398 lines
14 KiB
C
398 lines
14 KiB
C
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/*
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* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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/******************************************************************
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iLBC Speech Coder ANSI-C Source Code
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WebRtcIlbcfix_CbSearch.c
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******************************************************************/
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#include "defines.h"
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#include "gain_quant.h"
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#include "filtered_cb_vecs.h"
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#include "constants.h"
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#include "cb_mem_energy.h"
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#include "interpolate_samples.h"
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#include "cb_mem_energy_augmentation.h"
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#include "cb_search_core.h"
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#include "energy_inverse.h"
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#include "augmented_cb_corr.h"
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#include "cb_update_best_index.h"
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#include "create_augmented_vec.h"
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/*----------------------------------------------------------------*
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* Search routine for codebook encoding and gain quantization.
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*----------------------------------------------------------------*/
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void WebRtcIlbcfix_CbSearch(
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iLBC_Enc_Inst_t *iLBCenc_inst,
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/* (i) the encoder state structure */
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int16_t *index, /* (o) Codebook indices */
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int16_t *gain_index, /* (o) Gain quantization indices */
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int16_t *intarget, /* (i) Target vector for encoding */
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int16_t *decResidual,/* (i) Decoded residual for codebook construction */
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int16_t lMem, /* (i) Length of buffer */
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int16_t lTarget, /* (i) Length of vector */
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int16_t *weightDenum,/* (i) weighting filter coefficients in Q12 */
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int16_t block /* (i) the subblock number */
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) {
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int16_t i, j, stage, range;
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int16_t *pp, scale, tmp;
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int16_t bits, temp1, temp2;
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int16_t base_size;
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int32_t codedEner, targetEner;
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int16_t gains[CB_NSTAGES+1];
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int16_t *cb_vecPtr;
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int16_t indexOffset, sInd, eInd;
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int32_t CritMax=0;
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int16_t shTotMax=WEBRTC_SPL_WORD16_MIN;
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int16_t bestIndex=0;
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int16_t bestGain=0;
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int16_t indexNew, CritNewSh;
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int32_t CritNew;
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int32_t *cDotPtr;
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int16_t noOfZeros;
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int16_t *gainPtr;
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int32_t t32, tmpW32;
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int16_t *WebRtcIlbcfix_kGainSq5_ptr;
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/* Stack based */
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int16_t CBbuf[CB_MEML+LPC_FILTERORDER+CB_HALFFILTERLEN];
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int32_t cDot[128];
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int32_t Crit[128];
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int16_t targetVec[SUBL+LPC_FILTERORDER];
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int16_t cbvectors[CB_MEML + 1]; /* Adding one extra position for
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Coverity warnings. */
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int16_t codedVec[SUBL];
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int16_t interpSamples[20*4];
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int16_t interpSamplesFilt[20*4];
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int16_t energyW16[CB_EXPAND*128];
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int16_t energyShifts[CB_EXPAND*128];
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int16_t *inverseEnergy=energyW16; /* Reuse memory */
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int16_t *inverseEnergyShifts=energyShifts; /* Reuse memory */
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int16_t *buf = &CBbuf[LPC_FILTERORDER];
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int16_t *target = &targetVec[LPC_FILTERORDER];
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int16_t *aug_vec = (int16_t*)cDot; /* length [SUBL], reuse memory */
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/* Determine size of codebook sections */
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base_size=lMem-lTarget+1;
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if (lTarget==SUBL) {
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base_size=lMem-19;
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}
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/* weighting of the CB memory */
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noOfZeros=lMem-WebRtcIlbcfix_kFilterRange[block];
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WebRtcSpl_MemSetW16(&buf[-LPC_FILTERORDER], 0, noOfZeros+LPC_FILTERORDER);
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WebRtcSpl_FilterARFastQ12(
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decResidual+noOfZeros, buf+noOfZeros,
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weightDenum, LPC_FILTERORDER+1, WebRtcIlbcfix_kFilterRange[block]);
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/* weighting of the target vector */
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WEBRTC_SPL_MEMCPY_W16(&target[-LPC_FILTERORDER], buf+noOfZeros+WebRtcIlbcfix_kFilterRange[block]-LPC_FILTERORDER, LPC_FILTERORDER);
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WebRtcSpl_FilterARFastQ12(
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intarget, target,
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weightDenum, LPC_FILTERORDER+1, lTarget);
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/* Store target, towards the end codedVec is calculated as
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the initial target minus the remaining target */
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WEBRTC_SPL_MEMCPY_W16(codedVec, target, lTarget);
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/* Find the highest absolute value to calculate proper
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vector scale factor (so that it uses 12 bits) */
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temp1 = WebRtcSpl_MaxAbsValueW16(buf, (int16_t)lMem);
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temp2 = WebRtcSpl_MaxAbsValueW16(target, (int16_t)lTarget);
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if ((temp1>0)&&(temp2>0)) {
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temp1 = WEBRTC_SPL_MAX(temp1, temp2);
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scale = WebRtcSpl_GetSizeInBits(WEBRTC_SPL_MUL_16_16(temp1, temp1));
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} else {
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/* temp1 or temp2 is negative (maximum was -32768) */
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scale = 30;
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}
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/* Scale to so that a mul-add 40 times does not overflow */
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scale = scale - 25;
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scale = WEBRTC_SPL_MAX(0, scale);
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/* Compute energy of the original target */
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targetEner = WebRtcSpl_DotProductWithScale(target, target, lTarget, scale);
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/* Prepare search over one more codebook section. This section
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is created by filtering the original buffer with a filter. */
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WebRtcIlbcfix_FilteredCbVecs(cbvectors, buf, lMem, WebRtcIlbcfix_kFilterRange[block]);
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range = WebRtcIlbcfix_kSearchRange[block][0];
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if(lTarget == SUBL) {
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/* Create the interpolated samples and store them for use in all stages */
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/* First section, non-filtered half of the cb */
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WebRtcIlbcfix_InterpolateSamples(interpSamples, buf, lMem);
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/* Second section, filtered half of the cb */
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WebRtcIlbcfix_InterpolateSamples(interpSamplesFilt, cbvectors, lMem);
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/* Compute the CB vectors' energies for the first cb section (non-filtered) */
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WebRtcIlbcfix_CbMemEnergyAugmentation(interpSamples, buf,
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scale, 20, energyW16, energyShifts);
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/* Compute the CB vectors' energies for the second cb section (filtered cb) */
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WebRtcIlbcfix_CbMemEnergyAugmentation(interpSamplesFilt, cbvectors,
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scale, (int16_t)(base_size+20), energyW16, energyShifts);
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/* Compute the CB vectors' energies and store them in the vector
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* energyW16. Also the corresponding shift values are stored. The
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* energy values are used in all three stages. */
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WebRtcIlbcfix_CbMemEnergy(range, buf, cbvectors, lMem,
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lTarget, energyW16+20, energyShifts+20, scale, base_size);
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} else {
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/* Compute the CB vectors' energies and store them in the vector
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* energyW16. Also the corresponding shift values are stored. The
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* energy values are used in all three stages. */
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WebRtcIlbcfix_CbMemEnergy(range, buf, cbvectors, lMem,
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lTarget, energyW16, energyShifts, scale, base_size);
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/* Set the energy positions 58-63 and 122-127 to zero
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(otherwise they are uninitialized) */
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WebRtcSpl_MemSetW16(energyW16+range, 0, (base_size-range));
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WebRtcSpl_MemSetW16(energyW16+range+base_size, 0, (base_size-range));
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}
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/* Calculate Inverse Energy (energyW16 is already normalized
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and will contain the inverse energy in Q29 after this call */
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WebRtcIlbcfix_EnergyInverse(energyW16, base_size*CB_EXPAND);
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/* The gain value computed in the previous stage is used
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* as an upper limit to what the next stage gain value
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* is allowed to be. In stage 0, 16384 (1.0 in Q14) is used as
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* the upper limit. */
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gains[0] = 16384;
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for (stage=0; stage<CB_NSTAGES; stage++) {
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/* Set up memories */
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range = WebRtcIlbcfix_kSearchRange[block][stage];
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/* initialize search measures */
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CritMax=0;
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shTotMax=-100;
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bestIndex=0;
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bestGain=0;
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/* loop over lags 40+ in the first codebook section, full search */
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cb_vecPtr = buf+lMem-lTarget;
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/* Calculate all the cross correlations (augmented part of CB) */
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if (lTarget==SUBL) {
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WebRtcIlbcfix_AugmentedCbCorr(target, buf+lMem,
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interpSamples, cDot,
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20, 39, scale);
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cDotPtr=&cDot[20];
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} else {
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cDotPtr=cDot;
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}
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/* Calculate all the cross correlations (main part of CB) */
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WebRtcSpl_CrossCorrelation(cDotPtr, target, cb_vecPtr, lTarget, range, scale, -1);
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/* Adjust the search range for the augmented vectors */
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if (lTarget==SUBL) {
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range=WebRtcIlbcfix_kSearchRange[block][stage]+20;
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} else {
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range=WebRtcIlbcfix_kSearchRange[block][stage];
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}
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indexOffset=0;
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/* Search for best index in this part of the vector */
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WebRtcIlbcfix_CbSearchCore(
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cDot, range, stage, inverseEnergy,
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inverseEnergyShifts, Crit,
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&indexNew, &CritNew, &CritNewSh);
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/* Update the global best index and the corresponding gain */
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WebRtcIlbcfix_CbUpdateBestIndex(
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CritNew, CritNewSh, (int16_t)(indexNew+indexOffset), cDot[indexNew+indexOffset],
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inverseEnergy[indexNew+indexOffset], inverseEnergyShifts[indexNew+indexOffset],
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&CritMax, &shTotMax, &bestIndex, &bestGain);
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sInd=bestIndex-(int16_t)(CB_RESRANGE>>1);
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eInd=sInd+CB_RESRANGE;
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if (sInd<0) {
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eInd-=sInd;
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sInd=0;
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}
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if (eInd>=range) {
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eInd=range-1;
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sInd=eInd-CB_RESRANGE;
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}
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range = WebRtcIlbcfix_kSearchRange[block][stage];
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if (lTarget==SUBL) {
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i=sInd;
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if (sInd<20) {
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WebRtcIlbcfix_AugmentedCbCorr(target, cbvectors+lMem,
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interpSamplesFilt, cDot,
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(int16_t)(sInd+20), (int16_t)(WEBRTC_SPL_MIN(39, (eInd+20))), scale);
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i=20;
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}
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cDotPtr=&cDot[WEBRTC_SPL_MAX(0,(20-sInd))];
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cb_vecPtr = cbvectors+lMem-20-i;
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/* Calculate the cross correlations (main part of the filtered CB) */
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WebRtcSpl_CrossCorrelation(cDotPtr, target, cb_vecPtr, lTarget, (int16_t)(eInd-i+1), scale, -1);
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} else {
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cDotPtr = cDot;
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cb_vecPtr = cbvectors+lMem-lTarget-sInd;
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/* Calculate the cross correlations (main part of the filtered CB) */
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WebRtcSpl_CrossCorrelation(cDotPtr, target, cb_vecPtr, lTarget, (int16_t)(eInd-sInd+1), scale, -1);
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}
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/* Adjust the search range for the augmented vectors */
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indexOffset=base_size+sInd;
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/* Search for best index in this part of the vector */
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WebRtcIlbcfix_CbSearchCore(
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cDot, (int16_t)(eInd-sInd+1), stage, inverseEnergy+indexOffset,
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inverseEnergyShifts+indexOffset, Crit,
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&indexNew, &CritNew, &CritNewSh);
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/* Update the global best index and the corresponding gain */
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WebRtcIlbcfix_CbUpdateBestIndex(
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CritNew, CritNewSh, (int16_t)(indexNew+indexOffset), cDot[indexNew],
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inverseEnergy[indexNew+indexOffset], inverseEnergyShifts[indexNew+indexOffset],
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&CritMax, &shTotMax, &bestIndex, &bestGain);
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index[stage] = bestIndex;
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bestGain = WebRtcIlbcfix_GainQuant(bestGain,
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(int16_t)WEBRTC_SPL_ABS_W16(gains[stage]), stage, &gain_index[stage]);
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/* Extract the best (according to measure) codebook vector
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Also adjust the index, so that the augmented vectors are last.
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Above these vectors were first...
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*/
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if(lTarget==(STATE_LEN-iLBCenc_inst->state_short_len)) {
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if(index[stage]<base_size) {
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pp=buf+lMem-lTarget-index[stage];
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} else {
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pp=cbvectors+lMem-lTarget-
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index[stage]+base_size;
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}
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} else {
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if (index[stage]<base_size) {
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if (index[stage]>=20) {
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/* Adjust index and extract vector */
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index[stage]-=20;
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pp=buf+lMem-lTarget-index[stage];
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} else {
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/* Adjust index and extract vector */
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index[stage]+=(base_size-20);
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WebRtcIlbcfix_CreateAugmentedVec((int16_t)(index[stage]-base_size+40),
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buf+lMem, aug_vec);
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pp = aug_vec;
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}
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} else {
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if ((index[stage] - base_size) >= 20) {
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/* Adjust index and extract vector */
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index[stage]-=20;
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pp=cbvectors+lMem-lTarget-
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index[stage]+base_size;
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} else {
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/* Adjust index and extract vector */
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index[stage]+=(base_size-20);
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WebRtcIlbcfix_CreateAugmentedVec((int16_t)(index[stage]-2*base_size+40),
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cbvectors+lMem, aug_vec);
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pp = aug_vec;
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}
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}
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}
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/* Subtract the best codebook vector, according
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to measure, from the target vector */
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WebRtcSpl_AddAffineVectorToVector(target, pp, (int16_t)(-bestGain), (int32_t)8192, (int16_t)14, (int)lTarget);
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/* record quantized gain */
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gains[stage+1] = bestGain;
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} /* end of Main Loop. for (stage=0;... */
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/* Calculte the coded vector (original target - what's left) */
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for (i=0;i<lTarget;i++) {
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codedVec[i]-=target[i];
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}
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/* Gain adjustment for energy matching */
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codedEner = WebRtcSpl_DotProductWithScale(codedVec, codedVec, lTarget, scale);
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j=gain_index[0];
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temp1 = (int16_t)WebRtcSpl_NormW32(codedEner);
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temp2 = (int16_t)WebRtcSpl_NormW32(targetEner);
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if(temp1 < temp2) {
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bits = 16 - temp1;
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} else {
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bits = 16 - temp2;
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}
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tmp = (int16_t) WEBRTC_SPL_MUL_16_16_RSFT(gains[1],gains[1], 14);
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targetEner = WEBRTC_SPL_MUL_16_16(
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WEBRTC_SPL_SHIFT_W32(targetEner, -bits), tmp);
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tmpW32 = ((int32_t)(gains[1]-1))<<1;
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/* Pointer to the table that contains
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gain_sq5TblFIX * gain_sq5TblFIX in Q14 */
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gainPtr=(int16_t*)WebRtcIlbcfix_kGainSq5Sq+gain_index[0];
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temp1 = (int16_t)WEBRTC_SPL_SHIFT_W32(codedEner, -bits);
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WebRtcIlbcfix_kGainSq5_ptr = (int16_t*)&WebRtcIlbcfix_kGainSq5[j];
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/* targetEner and codedEner are in Q(-2*scale) */
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for (i=gain_index[0];i<32;i++) {
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/* Change the index if
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(codedEnergy*gainTbl[i]*gainTbl[i])<(targetEn*gain[0]*gain[0]) AND
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gainTbl[i] < 2*gain[0]
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*/
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t32 = WEBRTC_SPL_MUL_16_16(temp1, (*gainPtr));
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t32 = t32 - targetEner;
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||
|
if (t32 < 0) {
|
||
|
if ((*WebRtcIlbcfix_kGainSq5_ptr) < tmpW32) {
|
||
|
j=i;
|
||
|
WebRtcIlbcfix_kGainSq5_ptr = (int16_t*)&WebRtcIlbcfix_kGainSq5[i];
|
||
|
}
|
||
|
}
|
||
|
gainPtr++;
|
||
|
}
|
||
|
gain_index[0]=j;
|
||
|
|
||
|
return;
|
||
|
}
|