231 lines
6.6 KiB
C
231 lines
6.6 KiB
C
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/******************************************************************
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iLBC Speech Coder ANSI-C Source Code
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createCB.c
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Copyright (C) The Internet Society (2004).
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All Rights Reserved.
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******************************************************************/
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#include "iLBC_define.h"
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#include "constants.h"
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#include <string.h>
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#include <math.h>
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/*----------------------------------------------------------------*
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* Construct an additional codebook vector by filtering the
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* initial codebook buffer. This vector is then used to expand
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* the codebook with an additional section.
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*---------------------------------------------------------------*/
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void filteredCBvecs(
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float *cbvectors, /* (o) Codebook vectors for the
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higher section */
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float *mem, /* (i) Buffer to create codebook
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vector from */
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int lMem /* (i) Length of buffer */
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){
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int j, k;
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float *pp, *pp1;
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float tempbuff2[CB_MEML+CB_FILTERLEN];
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float *pos;
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memset(tempbuff2, 0, (CB_HALFFILTERLEN-1)*sizeof(float));
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memcpy(&tempbuff2[CB_HALFFILTERLEN-1], mem, lMem*sizeof(float));
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memset(&tempbuff2[lMem+CB_HALFFILTERLEN-1], 0,
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(CB_HALFFILTERLEN+1)*sizeof(float));
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/* Create codebook vector for higher section by filtering */
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/* do filtering */
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pos=cbvectors;
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memset(pos, 0, lMem*sizeof(float));
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for (k=0; k<lMem; k++) {
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pp=&tempbuff2[k];
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pp1=&cbfiltersTbl[CB_FILTERLEN-1];
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for (j=0;j<CB_FILTERLEN;j++) {
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(*pos)+=(*pp++)*(*pp1--);
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}
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pos++;
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}
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}
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/*----------------------------------------------------------------*
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* Search the augmented part of the codebook to find the best
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* measure.
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*----------------------------------------------------------------*/
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void searchAugmentedCB(
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int low, /* (i) Start index for the search */
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int high, /* (i) End index for the search */
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int stage, /* (i) Current stage */
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int startIndex, /* (i) Codebook index for the first
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aug vector */
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float *target, /* (i) Target vector for encoding */
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float *buffer, /* (i) Pointer to the end of the buffer for
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augmented codebook construction */
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float *max_measure, /* (i/o) Currently maximum measure */
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int *best_index,/* (o) Currently the best index */
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float *gain, /* (o) Currently the best gain */
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float *energy, /* (o) Energy of augmented codebook
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vectors */
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float *invenergy/* (o) Inv energy of augmented codebook
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vectors */
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) {
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int icount, ilow, j, tmpIndex;
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float *pp, *ppo, *ppi, *ppe, crossDot, alfa;
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float weighted, measure, nrjRecursive;
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float ftmp;
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/* Compute the energy for the first (low-5)
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noninterpolated samples */
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nrjRecursive = (float) 0.0;
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pp = buffer - low + 1;
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for (j=0; j<(low-5); j++) {
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nrjRecursive += ( (*pp)*(*pp) );
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pp++;
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}
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ppe = buffer - low;
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for (icount=low; icount<=high; icount++) {
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/* Index of the codebook vector used for retrieving
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energy values */
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tmpIndex = startIndex+icount-20;
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ilow = icount-4;
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/* Update the energy recursively to save complexity */
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nrjRecursive = nrjRecursive + (*ppe)*(*ppe);
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ppe--;
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energy[tmpIndex] = nrjRecursive;
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/* Compute cross dot product for the first (low-5)
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samples */
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crossDot = (float) 0.0;
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pp = buffer-icount;
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for (j=0; j<ilow; j++) {
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crossDot += target[j]*(*pp++);
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}
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/* interpolation */
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alfa = (float) 0.2;
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ppo = buffer-4;
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ppi = buffer-icount-4;
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for (j=ilow; j<icount; j++) {
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weighted = ((float)1.0-alfa)*(*ppo)+alfa*(*ppi);
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ppo++;
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ppi++;
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energy[tmpIndex] += weighted*weighted;
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crossDot += target[j]*weighted;
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alfa += (float)0.2;
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}
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/* Compute energy and cross dot product for the
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remaining samples */
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pp = buffer - icount;
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for (j=icount; j<SUBL; j++) {
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energy[tmpIndex] += (*pp)*(*pp);
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crossDot += target[j]*(*pp++);
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}
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if (energy[tmpIndex]>0.0) {
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invenergy[tmpIndex]=(float)1.0/(energy[tmpIndex]+EPS);
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} else {
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invenergy[tmpIndex] = (float) 0.0;
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}
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if (stage==0) {
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measure = (float)-10000000.0;
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if (crossDot > 0.0) {
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measure = crossDot*crossDot*invenergy[tmpIndex];
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}
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}
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else {
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measure = crossDot*crossDot*invenergy[tmpIndex];
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}
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/* check if measure is better */
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ftmp = crossDot*invenergy[tmpIndex];
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if ((measure>*max_measure) && (fabs(ftmp)<CB_MAXGAIN)) {
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*best_index = tmpIndex;
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*max_measure = measure;
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*gain = ftmp;
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}
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}
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}
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/*----------------------------------------------------------------*
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* Recreate a specific codebook vector from the augmented part.
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*
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*----------------------------------------------------------------*/
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void createAugmentedVec(
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int index, /* (i) Index for the augmented vector
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to be created */
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float *buffer, /* (i) Pointer to the end of the buffer for
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augmented codebook construction */
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float *cbVec/* (o) The constructed codebook vector */
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) {
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int ilow, j;
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float *pp, *ppo, *ppi, alfa, alfa1, weighted;
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ilow = index-5;
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/* copy the first noninterpolated part */
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pp = buffer-index;
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memcpy(cbVec,pp,sizeof(float)*index);
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/* interpolation */
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alfa1 = (float)0.2;
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alfa = 0.0;
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ppo = buffer-5;
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ppi = buffer-index-5;
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for (j=ilow; j<index; j++) {
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weighted = ((float)1.0-alfa)*(*ppo)+alfa*(*ppi);
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ppo++;
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ppi++;
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cbVec[j] = weighted;
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alfa += alfa1;
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}
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/* copy the second noninterpolated part */
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pp = buffer - index;
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memcpy(cbVec+index,pp,sizeof(float)*(SUBL-index));
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}
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