Mercurial > hg > audiostuff
view intercom/ilbc/FrameClassify.c @ 2:13be24d74cd2
import intercom-0.4.1
| author | Peter Meerwald <pmeerw@cosy.sbg.ac.at> |
|---|---|
| date | Fri, 25 Jun 2010 09:57:52 +0200 |
| parents | |
| children |
line wrap: on
line source
/****************************************************************** iLBC Speech Coder ANSI-C Source Code FrameClassify.c Copyright (C) The Internet Society (2004). All Rights Reserved. ******************************************************************/ #include "iLBC_define.h" /*---------------------------------------------------------------* * Classification of subframes to localize start state *--------------------------------------------------------------*/ int FrameClassify( /* index to the max-energy sub-frame */ iLBC_Enc_Inst_t * iLBCenc_inst, /* (i/o) the encoder state structure */ float *residual /* (i) lpc residual signal */ ) { float max_ssqEn, fssqEn[NSUB_MAX], bssqEn[NSUB_MAX], *pp; int n, l, max_ssqEn_n; const float ssqEn_win[NSUB_MAX - 1] = { (float) 0.8, (float) 0.9, (float) 1.0, (float) 0.9, (float) 0.8 }; const float sampEn_win[5] = { (float) 1.0 / (float) 6.0, (float) 2.0 / (float) 6.0, (float) 3.0 / (float) 6.0, (float) 4.0 / (float) 6.0, (float) 5.0 / (float) 6.0 }; /* init the front and back energies to zero */ memset(fssqEn, 0, NSUB_MAX * sizeof(float)); memset(bssqEn, 0, NSUB_MAX * sizeof(float)); /* Calculate front of first seqence */ n = 0; pp = residual; for (l = 0; l < 5; l++) { fssqEn[n] += sampEn_win[l] * (*pp) * (*pp); pp++; } for (l = 5; l < SUBL; l++) { fssqEn[n] += (*pp) * (*pp); pp++; } /* Calculate front and back of all middle sequences */ for (n = 1; n < iLBCenc_inst->nsub - 1; n++) { pp = residual + n * SUBL; for (l = 0; l < 5; l++) { fssqEn[n] += sampEn_win[l] * (*pp) * (*pp); bssqEn[n] += (*pp) * (*pp); pp++; } for (l = 5; l < SUBL - 5; l++) { fssqEn[n] += (*pp) * (*pp); bssqEn[n] += (*pp) * (*pp); pp++; } for (l = SUBL - 5; l < SUBL; l++) { fssqEn[n] += (*pp) * (*pp); bssqEn[n] += sampEn_win[SUBL - l - 1] * (*pp) * (*pp); pp++; } } /* Calculate back of last seqence */ n = iLBCenc_inst->nsub - 1; pp = residual + n * SUBL; for (l = 0; l < SUBL - 5; l++) { bssqEn[n] += (*pp) * (*pp); pp++; } for (l = SUBL - 5; l < SUBL; l++) { bssqEn[n] += sampEn_win[SUBL - l - 1] * (*pp) * (*pp); pp++; } /* find the index to the weighted 80 sample with most energy */ if (iLBCenc_inst->mode == 20) l = 1; else l = 0; max_ssqEn = (fssqEn[0] + bssqEn[1]) * ssqEn_win[l]; max_ssqEn_n = 1; for (n = 2; n < iLBCenc_inst->nsub; n++) { l++; if ((fssqEn[n - 1] + bssqEn[n]) * ssqEn_win[l] > max_ssqEn) { max_ssqEn = (fssqEn[n - 1] + bssqEn[n]) * ssqEn_win[l]; max_ssqEn_n = n; } } return max_ssqEn_n; }