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- /******************************************************************
- iLBC Speech Coder ANSI-C Source Code
- enhancer.c
- Copyright (C) The Internet Society (2004).
- All Rights Reserved.
- ******************************************************************/
- #include <math.h>
- #include <string.h>
- #include "iLBC_define.h"
- #include "constants.h"
- #include "filter.h"
- /*----------------------------------------------------------------*
- * Find index in array such that the array element with said
- * index is the element of said array closest to "value"
- * according to the squared-error criterion
- *---------------------------------------------------------------*/
- void NearestNeighbor(
- int *index, /* (o) index of array element closest
- to value */
- float *array, /* (i) data array */
- float value,/* (i) value */
- int arlength/* (i) dimension of data array */
- ){
- int i;
- float bestcrit,crit;
- crit=array[0]-value;
- bestcrit=crit*crit;
- *index=0;
- for (i=1; i<arlength; i++) {
- crit=array[i]-value;
- crit=crit*crit;
- if (crit<bestcrit) {
- bestcrit=crit;
- *index=i;
- }
- }
- }
- /*----------------------------------------------------------------*
- * compute cross correlation between sequences
- *---------------------------------------------------------------*/
- void mycorr1(
- float* corr, /* (o) correlation of seq1 and seq2 */
- float* seq1, /* (i) first sequence */
- int dim1, /* (i) dimension first seq1 */
- const float *seq2, /* (i) second sequence */
- int dim2 /* (i) dimension seq2 */
- ){
- int i,j;
- for (i=0; i<=dim1-dim2; i++) {
- corr[i]=0.0;
- for (j=0; j<dim2; j++) {
- corr[i] += seq1[i+j] * seq2[j];
- }
- }
- }
- /*----------------------------------------------------------------*
- * upsample finite array assuming zeros outside bounds
- *---------------------------------------------------------------*/
- void enh_upsample(
- float* useq1, /* (o) upsampled output sequence */
- float* seq1,/* (i) unupsampled sequence */
- int dim1, /* (i) dimension seq1 */
- int hfl /* (i) polyphase filter length=2*hfl+1 */
- ){
- float *pu,*ps;
- int i,j,k,q,filterlength,hfl2;
- const float *polyp[ENH_UPS0]; /* pointers to
- polyphase columns */
- const float *pp;
- /* define pointers for filter */
- filterlength=2*hfl+1;
- if ( filterlength > dim1 ) {
- hfl2=(int) (dim1/2);
- for (j=0; j<ENH_UPS0; j++) {
- polyp[j]=polyphaserTbl+j*filterlength+hfl-hfl2;
- }
- hfl=hfl2;
- filterlength=2*hfl+1;
- }
- else {
- for (j=0; j<ENH_UPS0; j++) {
- polyp[j]=polyphaserTbl+j*filterlength;
- }
- }
- /* filtering: filter overhangs left side of sequence */
- pu=useq1;
- for (i=hfl; i<filterlength; i++) {
- for (j=0; j<ENH_UPS0; j++) {
- *pu=0.0;
- pp = polyp[j];
- ps = seq1+i;
- for (k=0; k<=i; k++) {
- *pu += *ps-- * *pp++;
- }
- pu++;
- }
- }
- /* filtering: simple convolution=inner products */
- for (i=filterlength; i<dim1; i++) {
- for (j=0;j<ENH_UPS0; j++){
- *pu=0.0;
- pp = polyp[j];
- ps = seq1+i;
- for (k=0; k<filterlength; k++) {
- *pu += *ps-- * *pp++;
- }
- pu++;
- }
- }
- /* filtering: filter overhangs right side of sequence */
- for (q=1; q<=hfl; q++) {
- for (j=0; j<ENH_UPS0; j++) {
- *pu=0.0;
- pp = polyp[j]+q;
- ps = seq1+dim1-1;
- for (k=0; k<filterlength-q; k++) {
- *pu += *ps-- * *pp++;
- }
- pu++;
- }
- }
- }
- /*----------------------------------------------------------------*
- * find segment starting near idata+estSegPos that has highest
- * correlation with idata+centerStartPos through
- * idata+centerStartPos+ENH_BLOCKL-1 segment is found at a
- * resolution of ENH_UPSO times the original of the original
- * sampling rate
- *---------------------------------------------------------------*/
- void refiner(
- float *seg, /* (o) segment array */
- float *updStartPos, /* (o) updated start point */
- float* idata, /* (i) original data buffer */
- int idatal, /* (i) dimension of idata */
- int centerStartPos, /* (i) beginning center segment */
- float estSegPos,/* (i) estimated beginning other segment */
- float period /* (i) estimated pitch period */
- ){
- int estSegPosRounded,searchSegStartPos,searchSegEndPos,corrdim;
- int tloc,tloc2,i,st,en,fraction;
- float vect[ENH_VECTL],corrVec[ENH_CORRDIM],maxv;
- float corrVecUps[ENH_CORRDIM*ENH_UPS0];
- /* defining array bounds */
- estSegPosRounded=(int)(estSegPos - 0.5);
- searchSegStartPos=estSegPosRounded-ENH_SLOP;
- if (searchSegStartPos<0) {
- searchSegStartPos=0;
- }
- searchSegEndPos=estSegPosRounded+ENH_SLOP;
- if (searchSegEndPos+ENH_BLOCKL >= idatal) {
- searchSegEndPos=idatal-ENH_BLOCKL-1;
- }
- corrdim=searchSegEndPos-searchSegStartPos+1;
- /* compute upsampled correlation (corr33) and find
- location of max */
- mycorr1(corrVec,idata+searchSegStartPos,
- corrdim+ENH_BLOCKL-1,idata+centerStartPos,ENH_BLOCKL);
- enh_upsample(corrVecUps,corrVec,corrdim,ENH_FL0);
- tloc=0; maxv=corrVecUps[0];
- for (i=1; i<ENH_UPS0*corrdim; i++) {
- if (corrVecUps[i]>maxv) {
- tloc=i;
- maxv=corrVecUps[i];
- }
- }
- /* make vector can be upsampled without ever running outside
- bounds */
- *updStartPos= (float)searchSegStartPos +
- (float)tloc/(float)ENH_UPS0+(float)1.0;
- tloc2=(int)(tloc/ENH_UPS0);
- if (tloc>tloc2*ENH_UPS0) {
- tloc2++;
- }
- st=searchSegStartPos+tloc2-ENH_FL0;
- if (st<0) {
- memset(vect,0,-st*sizeof(float));
- memcpy(&vect[-st],idata, (ENH_VECTL+st)*sizeof(float));
- }
- else {
- en=st+ENH_VECTL;
- if (en>idatal) {
- memcpy(vect, &idata[st],
- (ENH_VECTL-(en-idatal))*sizeof(float));
- memset(&vect[ENH_VECTL-(en-idatal)], 0,
- (en-idatal)*sizeof(float));
- }
- else {
- memcpy(vect, &idata[st], ENH_VECTL*sizeof(float));
- }
- }
- fraction=tloc2*ENH_UPS0-tloc;
- /* compute the segment (this is actually a convolution) */
- mycorr1(seg,vect,ENH_VECTL,polyphaserTbl+(2*ENH_FL0+1)*fraction,
- 2*ENH_FL0+1);
- }
- /*----------------------------------------------------------------*
- * find the smoothed output data
- *---------------------------------------------------------------*/
- void smath(
- float *odata, /* (o) smoothed output */
- float *sseq,/* (i) said second sequence of waveforms */
- int hl, /* (i) 2*hl+1 is sseq dimension */
- float alpha0/* (i) max smoothing energy fraction */
- ){
- int i,k;
- float w00,w10,w11,A,B,C,*psseq,err,errs;
- float surround[BLOCKL_MAX]; /* shape contributed by other than
- current */
- float wt[2*ENH_HL+1]; /* waveform weighting to get
- surround shape */
- float denom;
- /* create shape of contribution from all waveforms except the
- current one */
- for (i=1; i<=2*hl+1; i++) {
- wt[i-1] = (float)0.5*(1 - (float)cos(2*PI*i/(2*hl+2)));
- }
- wt[hl]=0.0; /* for clarity, not used */
- for (i=0; i<ENH_BLOCKL; i++) {
- surround[i]=sseq[i]*wt[0];
- }
- for (k=1; k<hl; k++) {
- psseq=sseq+k*ENH_BLOCKL;
- for(i=0;i<ENH_BLOCKL; i++) {
- surround[i]+=psseq[i]*wt[k];
- }
- }
- for (k=hl+1; k<=2*hl; k++) {
- psseq=sseq+k*ENH_BLOCKL;
- for(i=0;i<ENH_BLOCKL; i++) {
- surround[i]+=psseq[i]*wt[k];
- }
- }
- /* compute some inner products */
- w00 = w10 = w11 = 0.0;
- psseq=sseq+hl*ENH_BLOCKL; /* current block */
- for (i=0; i<ENH_BLOCKL;i++) {
- w00+=psseq[i]*psseq[i];
- w11+=surround[i]*surround[i];
- w10+=surround[i]*psseq[i];
- }
- if (fabs(w11) < 1.0) {
- w11=1.0;
- }
- C = (float)sqrt( w00/w11);
- /* first try enhancement without power-constraint */
- errs=0.0;
- psseq=sseq+hl*ENH_BLOCKL;
- for (i=0; i<ENH_BLOCKL; i++) {
- odata[i]=C*surround[i];
- err=psseq[i]-odata[i];
- errs+=err*err;
- }
- /* if constraint violated by first try, add constraint */
- if (errs > alpha0 * w00) {
- if ( w00 < 1) {
- w00=1;
- }
- denom = (w11*w00-w10*w10)/(w00*w00);
- if (denom > 0.0001) { /* eliminates numerical problems
- for if smooth */
- A = (float)sqrt( (alpha0- alpha0*alpha0/4)/denom);
- B = -alpha0/2 - A * w10/w00;
- B = B+1;
- }
- else { /* essentially no difference between cycles;
- smoothing not needed */
- A= 0.0;
- B= 1.0;
- }
- /* create smoothed sequence */
- psseq=sseq+hl*ENH_BLOCKL;
- for (i=0; i<ENH_BLOCKL; i++) {
- odata[i]=A*surround[i]+B*psseq[i];
- }
- }
- }
- /*----------------------------------------------------------------*
- * get the pitch-synchronous sample sequence
- *---------------------------------------------------------------*/
- void getsseq(
- float *sseq, /* (o) the pitch-synchronous sequence */
- float *idata, /* (i) original data */
- int idatal, /* (i) dimension of data */
- int centerStartPos, /* (i) where current block starts */
- float *period, /* (i) rough-pitch-period array */
- float *plocs, /* (i) where periods of period array
- are taken */
- int periodl, /* (i) dimension period array */
- int hl /* (i) 2*hl+1 is the number of sequences */
- ){
- int i,centerEndPos,q;
- float blockStartPos[2*ENH_HL+1];
- int lagBlock[2*ENH_HL+1];
- float plocs2[ENH_PLOCSL];
- float *psseq;
- centerEndPos=centerStartPos+ENH_BLOCKL-1;
- /* present */
- NearestNeighbor(lagBlock+hl,plocs,
- (float)0.5*(centerStartPos+centerEndPos),periodl);
- blockStartPos[hl]=(float)centerStartPos;
- psseq=sseq+ENH_BLOCKL*hl;
- memcpy(psseq, idata+centerStartPos, ENH_BLOCKL*sizeof(float));
- /* past */
- for (q=hl-1; q>=0; q--) {
- blockStartPos[q]=blockStartPos[q+1]-period[lagBlock[q+1]];
- NearestNeighbor(lagBlock+q,plocs,
- blockStartPos[q]+
- ENH_BLOCKL_HALF-period[lagBlock[q+1]], periodl);
- if (blockStartPos[q]-ENH_OVERHANG>=0) {
- refiner(sseq+q*ENH_BLOCKL, blockStartPos+q, idata,
- idatal, centerStartPos, blockStartPos[q],
- period[lagBlock[q+1]]);
- } else {
- psseq=sseq+q*ENH_BLOCKL;
- memset(psseq, 0, ENH_BLOCKL*sizeof(float));
- }
- }
- /* future */
- for (i=0; i<periodl; i++) {
- plocs2[i]=plocs[i]-period[i];
- }
- for (q=hl+1; q<=2*hl; q++) {
- NearestNeighbor(lagBlock+q,plocs2,
- blockStartPos[q-1]+ENH_BLOCKL_HALF,periodl);
- blockStartPos[q]=blockStartPos[q-1]+period[lagBlock[q]];
- if (blockStartPos[q]+ENH_BLOCKL+ENH_OVERHANG<idatal) {
- refiner(sseq+ENH_BLOCKL*q, blockStartPos+q, idata,
- idatal, centerStartPos, blockStartPos[q],
- period[lagBlock[q]]);
- }
- else {
- psseq=sseq+q*ENH_BLOCKL;
- memset(psseq, 0, ENH_BLOCKL*sizeof(float));
- }
- }
- }
- /*----------------------------------------------------------------*
- * perform enhancement on idata+centerStartPos through
- * idata+centerStartPos+ENH_BLOCKL-1
- *---------------------------------------------------------------*/
- void enhancer(
- float *odata, /* (o) smoothed block, dimension blockl */
- float *idata, /* (i) data buffer used for enhancing */
- int idatal, /* (i) dimension idata */
- int centerStartPos, /* (i) first sample current block
- within idata */
- float alpha0, /* (i) max correction-energy-fraction
- (in [0,1]) */
- float *period, /* (i) pitch period array */
- float *plocs, /* (i) locations where period array
- values valid */
- int periodl /* (i) dimension of period and plocs */
- ){
- float sseq[(2*ENH_HL+1)*ENH_BLOCKL];
- /* get said second sequence of segments */
- getsseq(sseq,idata,idatal,centerStartPos,period,
- plocs,periodl,ENH_HL);
- /* compute the smoothed output from said second sequence */
- smath(odata,sseq,ENH_HL,alpha0);
- }
- /*----------------------------------------------------------------*
- * cross correlation
- *---------------------------------------------------------------*/
- float xCorrCoef(
- float *target, /* (i) first array */
- float *regressor, /* (i) second array */
- int subl /* (i) dimension arrays */
- ){
- int i;
- float ftmp1, ftmp2;
- ftmp1 = 0.0;
- ftmp2 = 0.0;
- for (i=0; i<subl; i++) {
- ftmp1 += target[i]*regressor[i];
- ftmp2 += regressor[i]*regressor[i];
- }
- if (ftmp1 > 0.0) {
- return (float)(ftmp1*ftmp1/ftmp2);
- }
- else {
- return (float)0.0;
- }
- }
- /*----------------------------------------------------------------*
- * interface for enhancer
- *---------------------------------------------------------------*/
- int enhancerInterface(
- float *out, /* (o) enhanced signal */
- float *in, /* (i) unenhanced signal */
- iLBC_Dec_Inst_t *iLBCdec_inst /* (i) buffers etc */
- ){
- float *enh_buf, *enh_period;
- int iblock, isample;
- int lag=0, ilag, i, ioffset;
- float cc, maxcc;
- float ftmp1, ftmp2;
- float *inPtr, *enh_bufPtr1, *enh_bufPtr2;
- float plc_pred[ENH_BLOCKL];
- float lpState[6], downsampled[(ENH_NBLOCKS*ENH_BLOCKL+120)/2];
- int inLen=ENH_NBLOCKS*ENH_BLOCKL+120;
- int start, plc_blockl, inlag;
- enh_buf=iLBCdec_inst->enh_buf;
- enh_period=iLBCdec_inst->enh_period;
- memmove(enh_buf, &enh_buf[iLBCdec_inst->blockl],
- (ENH_BUFL-iLBCdec_inst->blockl)*sizeof(float));
- memcpy(&enh_buf[ENH_BUFL-iLBCdec_inst->blockl], in,
- iLBCdec_inst->blockl*sizeof(float));
- if (iLBCdec_inst->mode==30)
- plc_blockl=ENH_BLOCKL;
- else
- plc_blockl=40;
- /* when 20 ms frame, move processing one block */
- ioffset=0;
- if (iLBCdec_inst->mode==20) ioffset=1;
- i=3-ioffset;
- memmove(enh_period, &enh_period[i],
- (ENH_NBLOCKS_TOT-i)*sizeof(float));
- /* Set state information to the 6 samples right before
- the samples to be downsampled. */
- memcpy(lpState,
- enh_buf+(ENH_NBLOCKS_EXTRA+ioffset)*ENH_BLOCKL-126,
- 6*sizeof(float));
- /* Down sample a factor 2 to save computations */
- DownSample(enh_buf+(ENH_NBLOCKS_EXTRA+ioffset)*ENH_BLOCKL-120,
- lpFilt_coefsTbl, inLen-ioffset*ENH_BLOCKL,
- lpState, downsampled);
- /* Estimate the pitch in the down sampled domain. */
- for (iblock = 0; iblock<ENH_NBLOCKS-ioffset; iblock++) {
- lag = 10;
- maxcc = xCorrCoef(downsampled+60+iblock*
- ENH_BLOCKL_HALF, downsampled+60+iblock*
- ENH_BLOCKL_HALF-lag, ENH_BLOCKL_HALF);
- for (ilag=11; ilag<60; ilag++) {
- cc = xCorrCoef(downsampled+60+iblock*
- ENH_BLOCKL_HALF, downsampled+60+iblock*
- ENH_BLOCKL_HALF-ilag, ENH_BLOCKL_HALF);
- if (cc > maxcc) {
- maxcc = cc;
- lag = ilag;
- }
- }
- /* Store the estimated lag in the non-downsampled domain */
- enh_period[iblock+ENH_NBLOCKS_EXTRA+ioffset] = (float)lag*2;
- }
- /* PLC was performed on the previous packet */
- if (iLBCdec_inst->prev_enh_pl==1) {
- inlag=(int)enh_period[ENH_NBLOCKS_EXTRA+ioffset];
- lag = inlag-1;
- maxcc = xCorrCoef(in, in+lag, plc_blockl);
- for (ilag=inlag; ilag<=inlag+1; ilag++) {
- cc = xCorrCoef(in, in+ilag, plc_blockl);
- if (cc > maxcc) {
- maxcc = cc;
- lag = ilag;
- }
- }
- enh_period[ENH_NBLOCKS_EXTRA+ioffset-1]=(float)lag;
- /* compute new concealed residual for the old lookahead,
- mix the forward PLC with a backward PLC from
- the new frame */
- inPtr=&in[lag-1];
- enh_bufPtr1=&plc_pred[plc_blockl-1];
- if (lag>plc_blockl) {
- start=plc_blockl;
- } else {
- start=lag;
- }
- for (isample = start; isample>0; isample--) {
- *enh_bufPtr1-- = *inPtr--;
- }
- enh_bufPtr2=&enh_buf[ENH_BUFL-1-iLBCdec_inst->blockl];
- for (isample = (plc_blockl-1-lag); isample>=0; isample--) {
- *enh_bufPtr1-- = *enh_bufPtr2--;
- }
- /* limit energy change */
- ftmp2=0.0;
- ftmp1=0.0;
- for (i=0;i<plc_blockl;i++) {
- ftmp2+=enh_buf[ENH_BUFL-1-iLBCdec_inst->blockl-i]*
- enh_buf[ENH_BUFL-1-iLBCdec_inst->blockl-i];
- ftmp1+=plc_pred[i]*plc_pred[i];
- }
- ftmp1=(float)sqrt(ftmp1/(float)plc_blockl);
- ftmp2=(float)sqrt(ftmp2/(float)plc_blockl);
- if (ftmp1>(float)2.0*ftmp2 && ftmp1>0.0) {
- for (i=0;i<plc_blockl-10;i++) {
- plc_pred[i]*=(float)2.0*ftmp2/ftmp1;
- }
- for (i=plc_blockl-10;i<plc_blockl;i++) {
- plc_pred[i]*=(float)(i-plc_blockl+10)*
- ((float)1.0-(float)2.0*ftmp2/ftmp1)/(float)(10)+
- (float)2.0*ftmp2/ftmp1;
- }
- }
- enh_bufPtr1=&enh_buf[ENH_BUFL-1-iLBCdec_inst->blockl];
- for (i=0; i<plc_blockl; i++) {
- ftmp1 = (float) (i+1) / (float) (plc_blockl+1);
- *enh_bufPtr1 *= ftmp1;
- *enh_bufPtr1 += ((float)1.0-ftmp1)*
- plc_pred[plc_blockl-1-i];
- enh_bufPtr1--;
- }
- }
- if (iLBCdec_inst->mode==20) {
- /* Enhancer with 40 samples delay */
- for (iblock = 0; iblock<2; iblock++) {
- enhancer(out+iblock*ENH_BLOCKL, enh_buf,
- ENH_BUFL, (5+iblock)*ENH_BLOCKL+40,
- ENH_ALPHA0, enh_period, enh_plocsTbl,
- ENH_NBLOCKS_TOT);
- }
- } else if (iLBCdec_inst->mode==30) {
- /* Enhancer with 80 samples delay */
- for (iblock = 0; iblock<3; iblock++) {
- enhancer(out+iblock*ENH_BLOCKL, enh_buf,
- ENH_BUFL, (4+iblock)*ENH_BLOCKL,
- ENH_ALPHA0, enh_period, enh_plocsTbl,
- ENH_NBLOCKS_TOT);
- }
- }
- return (lag*2);
- }
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