Mercurial > hg > audiostuff
view intercom/ilbc/getCBvec.c @ 6:22a74b01a099 default tip
implement more meaningful test program
| author | Peter Meerwald <pmeerw@cosy.sbg.ac.at> |
|---|---|
| date | Fri, 25 Jun 2010 16:14:50 +0200 |
| parents | 13be24d74cd2 |
| children |
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/****************************************************************** iLBC Speech Coder ANSI-C Source Code getCBvec.c Copyright (C) The Internet Society (2004). All Rights Reserved. ******************************************************************/ #include "iLBC_define.h" #include "constants.h" #include <string.h> /*----------------------------------------------------------------* * Construct codebook vector for given index. *---------------------------------------------------------------*/ void getCBvec(float *cbvec, /* (o) Constructed codebook vector */ float *mem, /* (i) Codebook buffer */ int index, /* (i) Codebook index */ int lMem, /* (i) Length of codebook buffer */ int cbveclen /* (i) Codebook vector length */ ) { int j, k, n, memInd, sFilt; float tmpbuf[CB_MEML]; int base_size; int ilow, ihigh; float alfa, alfa1; /* Determine size of codebook sections */ base_size = lMem - cbveclen + 1; if (cbveclen == SUBL) { base_size += cbveclen / 2; } /* No filter -> First codebook section */ if (index < lMem - cbveclen + 1) { /* first non-interpolated vectors */ k = index + cbveclen; /* get vector */ memcpy(cbvec, mem + lMem - k, cbveclen * sizeof(float)); } else if (index < base_size) { k = 2 * (index - (lMem - cbveclen + 1)) + cbveclen; ihigh = k / 2; ilow = ihigh - 5; /* Copy first noninterpolated part */ memcpy(cbvec, mem + lMem - k / 2, ilow * sizeof(float)); /* interpolation */ alfa1 = (float) 0.2; alfa = 0.0; for (j = ilow; j < ihigh; j++) { cbvec[j] = ((float) 1.0 - alfa) * mem[lMem - k / 2 + j] + alfa * mem[lMem - k + j]; alfa += alfa1; } /* Copy second noninterpolated part */ memcpy(cbvec + ihigh, mem + lMem - k + ihigh, (cbveclen - ihigh) * sizeof(float)); } /* Higher codebook section based on filtering */ else { /* first non-interpolated vectors */ if (index - base_size < lMem - cbveclen + 1) { float tempbuff2[CB_MEML + CB_FILTERLEN + 1]; float *pos; float *pp, *pp1; memset(tempbuff2, 0, CB_HALFFILTERLEN * sizeof(float)); memcpy(&tempbuff2[CB_HALFFILTERLEN], mem, lMem * sizeof(float)); memset(&tempbuff2[lMem + CB_HALFFILTERLEN], 0, (CB_HALFFILTERLEN + 1) * sizeof(float)); k = index - base_size + cbveclen; sFilt = lMem - k; memInd = sFilt + 1 - CB_HALFFILTERLEN; /* do filtering */ pos = cbvec; memset(pos, 0, cbveclen * sizeof(float)); for (n = 0; n < cbveclen; n++) { pp = &tempbuff2[memInd + n + CB_HALFFILTERLEN]; pp1 = &cbfiltersTbl[CB_FILTERLEN - 1]; for (j = 0; j < CB_FILTERLEN; j++) { (*pos) += (*pp++) * (*pp1--); } pos++; } } /* interpolated vectors */ else { float tempbuff2[CB_MEML + CB_FILTERLEN + 1]; float *pos; float *pp, *pp1; int i; memset(tempbuff2, 0, CB_HALFFILTERLEN * sizeof(float)); memcpy(&tempbuff2[CB_HALFFILTERLEN], mem, lMem * sizeof(float)); memset(&tempbuff2[lMem + CB_HALFFILTERLEN], 0, (CB_HALFFILTERLEN + 1) * sizeof(float)); k = 2 * (index - base_size - (lMem - cbveclen + 1)) + cbveclen; sFilt = lMem - k; memInd = sFilt + 1 - CB_HALFFILTERLEN; /* do filtering */ pos = &tmpbuf[sFilt]; memset(pos, 0, k * sizeof(float)); for (i = 0; i < k; i++) { pp = &tempbuff2[memInd + i + CB_HALFFILTERLEN]; pp1 = &cbfiltersTbl[CB_FILTERLEN - 1]; for (j = 0; j < CB_FILTERLEN; j++) { (*pos) += (*pp++) * (*pp1--); } pos++; } ihigh = k / 2; ilow = ihigh - 5; /* Copy first noninterpolated part */ memcpy(cbvec, tmpbuf + lMem - k / 2, ilow * sizeof(float)); /* interpolation */ alfa1 = (float) 0.2; alfa = 0.0; for (j = ilow; j < ihigh; j++) { cbvec[j] = ((float) 1.0 - alfa) * tmpbuf[lMem - k / 2 + j] + alfa * tmpbuf[lMem - k + j]; alfa += alfa1; } /* Copy second noninterpolated part */ memcpy(cbvec + ihigh, tmpbuf + lMem - k + ihigh, (cbveclen - ihigh) * sizeof(float)); } } }