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-rw-r--r--net/asterisk14/files/ilbc_enable.diff7599
1 files changed, 0 insertions, 7599 deletions
diff --git a/net/asterisk14/files/ilbc_enable.diff b/net/asterisk14/files/ilbc_enable.diff
deleted file mode 100644
index a2a3c4f73d7..00000000000
--- a/net/asterisk14/files/ilbc_enable.diff
+++ /dev/null
@@ -1,7599 +0,0 @@
-
-$FreeBSD$
-
---- menuselect-tree
-+++ menuselect-tree
-@@ -269,7 +269,6 @@
- <depend>gsm</depend>
- </member>
- <member name="codec_ilbc" displayname="iLBC Coder/Decoder" remove_on_change="codecs/codec_ilbc.o codecs/codec_ilbc.so">
-- <defaultenabled>no</defaultenabled>
- </member>
- <member name="codec_lpc10" displayname="LPC10 2.4kbps Coder/Decoder" remove_on_change="codecs/codec_lpc10.o codecs/codec_lpc10.so">
- </member>
-diff -druN codecs/ilbc.orig/FrameClassify.c codecs/ilbc/FrameClassify.c
---- codecs/ilbc.orig/FrameClassify.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/FrameClassify.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,110 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ FrameClassify.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include "iLBC_define.h"
-+#include "FrameClassify.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;
-+}
-+
-+
-diff -druN codecs/ilbc.orig/FrameClassify.h codecs/ilbc/FrameClassify.h
---- codecs/ilbc.orig/FrameClassify.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/FrameClassify.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,26 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ FrameClassify.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+
-+
-+#ifndef __iLBC_FRAMECLASSIFY_H
-+#define __iLBC_FRAMECLASSIFY_H
-+
-+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 */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/LPCdecode.c codecs/ilbc/LPCdecode.c
---- codecs/ilbc.orig/LPCdecode.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/LPCdecode.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,152 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ LPC_decode.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+#include <string.h>
-+
-+#include "helpfun.h"
-+#include "lsf.h"
-+#include "iLBC_define.h"
-+#include "LPCdecode.h"
-+#include "constants.h"
-+
-+/*---------------------------------------------------------------*
-+ * interpolation of lsf coefficients for the decoder
-+ *--------------------------------------------------------------*/
-+
-+void LSFinterpolate2a_dec(
-+ float *a, /* (o) lpc coefficients for a sub-frame */
-+ float *lsf1, /* (i) first lsf coefficient vector */
-+
-+
-+ float *lsf2, /* (i) second lsf coefficient vector */
-+ float coef, /* (i) interpolation weight */
-+ int length /* (i) length of lsf vectors */
-+){
-+ float lsftmp[LPC_FILTERORDER];
-+
-+ interpolate(lsftmp, lsf1, lsf2, coef, length);
-+ lsf2a(a, lsftmp);
-+}
-+
-+/*---------------------------------------------------------------*
-+ * obtain dequantized lsf coefficients from quantization index
-+ *--------------------------------------------------------------*/
-+
-+void SimplelsfDEQ(
-+ float *lsfdeq, /* (o) dequantized lsf coefficients */
-+ int *index, /* (i) quantization index */
-+ int lpc_n /* (i) number of LPCs */
-+){
-+ int i, j, pos, cb_pos;
-+
-+ /* decode first LSF */
-+
-+ pos = 0;
-+ cb_pos = 0;
-+ for (i = 0; i < LSF_NSPLIT; i++) {
-+ for (j = 0; j < dim_lsfCbTbl[i]; j++) {
-+ lsfdeq[pos + j] = lsfCbTbl[cb_pos +
-+ (long)(index[i])*dim_lsfCbTbl[i] + j];
-+ }
-+ pos += dim_lsfCbTbl[i];
-+ cb_pos += size_lsfCbTbl[i]*dim_lsfCbTbl[i];
-+ }
-+
-+ if (lpc_n>1) {
-+
-+ /* decode last LSF */
-+
-+ pos = 0;
-+ cb_pos = 0;
-+ for (i = 0; i < LSF_NSPLIT; i++) {
-+ for (j = 0; j < dim_lsfCbTbl[i]; j++) {
-+ lsfdeq[LPC_FILTERORDER + pos + j] =
-+ lsfCbTbl[cb_pos +
-+ (long)(index[LSF_NSPLIT + i])*
-+ dim_lsfCbTbl[i] + j];
-+ }
-+ pos += dim_lsfCbTbl[i];
-+ cb_pos += size_lsfCbTbl[i]*dim_lsfCbTbl[i];
-+ }
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+
-+
-+ * obtain synthesis and weighting filters form lsf coefficients
-+ *---------------------------------------------------------------*/
-+
-+void DecoderInterpolateLSF(
-+ float *syntdenum, /* (o) synthesis filter coefficients */
-+ float *weightdenum, /* (o) weighting denumerator
-+ coefficients */
-+ float *lsfdeq, /* (i) dequantized lsf coefficients */
-+ int length, /* (i) length of lsf coefficient vector */
-+ iLBC_Dec_Inst_t *iLBCdec_inst
-+ /* (i) the decoder state structure */
-+){
-+ int i, pos, lp_length;
-+ float lp[LPC_FILTERORDER + 1], *lsfdeq2;
-+
-+ lsfdeq2 = lsfdeq + length;
-+ lp_length = length + 1;
-+
-+ if (iLBCdec_inst->mode==30) {
-+ /* sub-frame 1: Interpolation between old and first */
-+
-+ LSFinterpolate2a_dec(lp, iLBCdec_inst->lsfdeqold, lsfdeq,
-+ lsf_weightTbl_30ms[0], length);
-+ memcpy(syntdenum,lp,lp_length*sizeof(float));
-+ bwexpand(weightdenum, lp, LPC_CHIRP_WEIGHTDENUM,
-+ lp_length);
-+
-+ /* sub-frames 2 to 6: interpolation between first
-+ and last LSF */
-+
-+ pos = lp_length;
-+ for (i = 1; i < 6; i++) {
-+ LSFinterpolate2a_dec(lp, lsfdeq, lsfdeq2,
-+ lsf_weightTbl_30ms[i], length);
-+ memcpy(syntdenum + pos,lp,lp_length*sizeof(float));
-+ bwexpand(weightdenum + pos, lp,
-+ LPC_CHIRP_WEIGHTDENUM, lp_length);
-+ pos += lp_length;
-+ }
-+ }
-+ else {
-+ pos = 0;
-+ for (i = 0; i < iLBCdec_inst->nsub; i++) {
-+ LSFinterpolate2a_dec(lp, iLBCdec_inst->lsfdeqold,
-+ lsfdeq, lsf_weightTbl_20ms[i], length);
-+ memcpy(syntdenum+pos,lp,lp_length*sizeof(float));
-+ bwexpand(weightdenum+pos, lp, LPC_CHIRP_WEIGHTDENUM,
-+ lp_length);
-+ pos += lp_length;
-+ }
-+ }
-+
-+ /* update memory */
-+
-+
-+
-+ if (iLBCdec_inst->mode==30)
-+ memcpy(iLBCdec_inst->lsfdeqold, lsfdeq2,
-+ length*sizeof(float));
-+ else
-+ memcpy(iLBCdec_inst->lsfdeqold, lsfdeq,
-+ length*sizeof(float));
-+
-+}
-+
-+
-diff -druN codecs/ilbc.orig/LPCdecode.h codecs/ilbc/LPCdecode.h
---- codecs/ilbc.orig/LPCdecode.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/LPCdecode.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,44 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ LPC_decode.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_LPC_DECODE_H
-+#define __iLBC_LPC_DECODE_H
-+
-+void LSFinterpolate2a_dec(
-+
-+
-+ float *a, /* (o) lpc coefficients for a sub-frame */
-+ float *lsf1, /* (i) first lsf coefficient vector */
-+ float *lsf2, /* (i) second lsf coefficient vector */
-+ float coef, /* (i) interpolation weight */
-+ int length /* (i) length of lsf vectors */
-+);
-+
-+void SimplelsfDEQ(
-+ float *lsfdeq, /* (o) dequantized lsf coefficients */
-+ int *index, /* (i) quantization index */
-+ int lpc_n /* (i) number of LPCs */
-+);
-+
-+void DecoderInterpolateLSF(
-+ float *syntdenum, /* (o) synthesis filter coefficients */
-+ float *weightdenum, /* (o) weighting denumerator
-+ coefficients */
-+ float *lsfdeq, /* (i) dequantized lsf coefficients */
-+ int length, /* (i) length of lsf coefficient vector */
-+ iLBC_Dec_Inst_t *iLBCdec_inst
-+ /* (i) the decoder state structure */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/LPCencode.c codecs/ilbc/LPCencode.c
---- codecs/ilbc.orig/LPCencode.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/LPCencode.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,228 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ LPCencode.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <string.h>
-+
-+
-+
-+#include "iLBC_define.h"
-+#include "LPCencode.h"
-+#include "helpfun.h"
-+#include "lsf.h"
-+#include "constants.h"
-+
-+/*----------------------------------------------------------------*
-+ * lpc analysis (subrutine to LPCencode)
-+ *---------------------------------------------------------------*/
-+
-+static void SimpleAnalysis(
-+ float *lsf, /* (o) lsf coefficients */
-+ float *data, /* (i) new data vector */
-+ iLBC_Enc_Inst_t *iLBCenc_inst
-+ /* (i/o) the encoder state structure */
-+){
-+ int k, is;
-+ float temp[BLOCKL_MAX], lp[LPC_FILTERORDER + 1];
-+ float lp2[LPC_FILTERORDER + 1];
-+ float r[LPC_FILTERORDER + 1];
-+
-+ is=LPC_LOOKBACK+BLOCKL_MAX-iLBCenc_inst->blockl;
-+ memcpy(iLBCenc_inst->lpc_buffer+is,data,
-+ iLBCenc_inst->blockl*sizeof(float));
-+
-+ /* No lookahead, last window is asymmetric */
-+
-+ for (k = 0; k < iLBCenc_inst->lpc_n; k++) {
-+
-+ is = LPC_LOOKBACK;
-+
-+ if (k < (iLBCenc_inst->lpc_n - 1)) {
-+ window(temp, lpc_winTbl,
-+ iLBCenc_inst->lpc_buffer, BLOCKL_MAX);
-+ } else {
-+ window(temp, lpc_asymwinTbl,
-+ iLBCenc_inst->lpc_buffer + is, BLOCKL_MAX);
-+ }
-+
-+ autocorr(r, temp, BLOCKL_MAX, LPC_FILTERORDER);
-+ window(r, r, lpc_lagwinTbl, LPC_FILTERORDER + 1);
-+
-+ levdurb(lp, temp, r, LPC_FILTERORDER);
-+ bwexpand(lp2, lp, LPC_CHIRP_SYNTDENUM, LPC_FILTERORDER+1);
-+
-+ a2lsf(lsf + k*LPC_FILTERORDER, lp2);
-+ }
-+ is=LPC_LOOKBACK+BLOCKL_MAX-iLBCenc_inst->blockl;
-+ memmove(iLBCenc_inst->lpc_buffer,
-+ iLBCenc_inst->lpc_buffer+LPC_LOOKBACK+BLOCKL_MAX-is,
-+ is*sizeof(float));
-+}
-+
-+/*----------------------------------------------------------------*
-+
-+
-+ * lsf interpolator and conversion from lsf to a coefficients
-+ * (subrutine to SimpleInterpolateLSF)
-+ *---------------------------------------------------------------*/
-+
-+static void LSFinterpolate2a_enc(
-+ float *a, /* (o) lpc coefficients */
-+ float *lsf1,/* (i) first set of lsf coefficients */
-+ float *lsf2,/* (i) second set of lsf coefficients */
-+ float coef, /* (i) weighting coefficient to use between
-+ lsf1 and lsf2 */
-+ long length /* (i) length of coefficient vectors */
-+){
-+ float lsftmp[LPC_FILTERORDER];
-+
-+ interpolate(lsftmp, lsf1, lsf2, coef, length);
-+ lsf2a(a, lsftmp);
-+}
-+
-+/*----------------------------------------------------------------*
-+ * lsf interpolator (subrutine to LPCencode)
-+ *---------------------------------------------------------------*/
-+
-+static void SimpleInterpolateLSF(
-+ float *syntdenum, /* (o) the synthesis filter denominator
-+ resulting from the quantized
-+ interpolated lsf */
-+ float *weightdenum, /* (o) the weighting filter denominator
-+ resulting from the unquantized
-+ interpolated lsf */
-+ float *lsf, /* (i) the unquantized lsf coefficients */
-+ float *lsfdeq, /* (i) the dequantized lsf coefficients */
-+ float *lsfold, /* (i) the unquantized lsf coefficients of
-+ the previous signal frame */
-+ float *lsfdeqold, /* (i) the dequantized lsf coefficients of
-+ the previous signal frame */
-+ int length, /* (i) should equate LPC_FILTERORDER */
-+ iLBC_Enc_Inst_t *iLBCenc_inst
-+ /* (i/o) the encoder state structure */
-+){
-+ int i, pos, lp_length;
-+ float lp[LPC_FILTERORDER + 1], *lsf2, *lsfdeq2;
-+
-+ lsf2 = lsf + length;
-+ lsfdeq2 = lsfdeq + length;
-+ lp_length = length + 1;
-+
-+ if (iLBCenc_inst->mode==30) {
-+ /* sub-frame 1: Interpolation between old and first
-+ set of lsf coefficients */
-+
-+ LSFinterpolate2a_enc(lp, lsfdeqold, lsfdeq,
-+ lsf_weightTbl_30ms[0], length);
-+ memcpy(syntdenum,lp,lp_length*sizeof(float));
-+ LSFinterpolate2a_enc(lp, lsfold, lsf,
-+
-+
-+ lsf_weightTbl_30ms[0], length);
-+ bwexpand(weightdenum, lp, LPC_CHIRP_WEIGHTDENUM, lp_length);
-+
-+ /* sub-frame 2 to 6: Interpolation between first
-+ and second set of lsf coefficients */
-+
-+ pos = lp_length;
-+ for (i = 1; i < iLBCenc_inst->nsub; i++) {
-+ LSFinterpolate2a_enc(lp, lsfdeq, lsfdeq2,
-+ lsf_weightTbl_30ms[i], length);
-+ memcpy(syntdenum + pos,lp,lp_length*sizeof(float));
-+
-+ LSFinterpolate2a_enc(lp, lsf, lsf2,
-+ lsf_weightTbl_30ms[i], length);
-+ bwexpand(weightdenum + pos, lp,
-+ LPC_CHIRP_WEIGHTDENUM, lp_length);
-+ pos += lp_length;
-+ }
-+ }
-+ else {
-+ pos = 0;
-+ for (i = 0; i < iLBCenc_inst->nsub; i++) {
-+ LSFinterpolate2a_enc(lp, lsfdeqold, lsfdeq,
-+ lsf_weightTbl_20ms[i], length);
-+ memcpy(syntdenum+pos,lp,lp_length*sizeof(float));
-+ LSFinterpolate2a_enc(lp, lsfold, lsf,
-+ lsf_weightTbl_20ms[i], length);
-+ bwexpand(weightdenum+pos, lp,
-+ LPC_CHIRP_WEIGHTDENUM, lp_length);
-+ pos += lp_length;
-+ }
-+ }
-+
-+ /* update memory */
-+
-+ if (iLBCenc_inst->mode==30) {
-+ memcpy(lsfold, lsf2, length*sizeof(float));
-+ memcpy(lsfdeqold, lsfdeq2, length*sizeof(float));
-+ }
-+ else {
-+ memcpy(lsfold, lsf, length*sizeof(float));
-+ memcpy(lsfdeqold, lsfdeq, length*sizeof(float));
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * lsf quantizer (subrutine to LPCencode)
-+ *---------------------------------------------------------------*/
-+
-+static void SimplelsfQ(
-+ float *lsfdeq, /* (o) dequantized lsf coefficients
-+ (dimension FILTERORDER) */
-+ int *index, /* (o) quantization index */
-+ float *lsf, /* (i) the lsf coefficient vector to be
-+
-+
-+ quantized (dimension FILTERORDER ) */
-+ int lpc_n /* (i) number of lsf sets to quantize */
-+){
-+ /* Quantize first LSF with memoryless split VQ */
-+ SplitVQ(lsfdeq, index, lsf, lsfCbTbl, LSF_NSPLIT,
-+ dim_lsfCbTbl, size_lsfCbTbl);
-+
-+ if (lpc_n==2) {
-+ /* Quantize second LSF with memoryless split VQ */
-+ SplitVQ(lsfdeq + LPC_FILTERORDER, index + LSF_NSPLIT,
-+ lsf + LPC_FILTERORDER, lsfCbTbl, LSF_NSPLIT,
-+ dim_lsfCbTbl, size_lsfCbTbl);
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * lpc encoder
-+ *---------------------------------------------------------------*/
-+
-+void LPCencode(
-+ float *syntdenum, /* (i/o) synthesis filter coefficients
-+ before/after encoding */
-+ float *weightdenum, /* (i/o) weighting denumerator
-+ coefficients before/after
-+ encoding */
-+ int *lsf_index, /* (o) lsf quantization index */
-+ float *data, /* (i) lsf coefficients to quantize */
-+ iLBC_Enc_Inst_t *iLBCenc_inst
-+ /* (i/o) the encoder state structure */
-+){
-+ float lsf[LPC_FILTERORDER * LPC_N_MAX];
-+ float lsfdeq[LPC_FILTERORDER * LPC_N_MAX];
-+ int change=0;
-+
-+ SimpleAnalysis(lsf, data, iLBCenc_inst);
-+ SimplelsfQ(lsfdeq, lsf_index, lsf, iLBCenc_inst->lpc_n);
-+ change=LSF_check(lsfdeq, LPC_FILTERORDER, iLBCenc_inst->lpc_n);
-+ SimpleInterpolateLSF(syntdenum, weightdenum,
-+ lsf, lsfdeq, iLBCenc_inst->lsfold,
-+ iLBCenc_inst->lsfdeqold, LPC_FILTERORDER, iLBCenc_inst);
-+}
-+
-+
-+
-diff -druN codecs/ilbc.orig/LPCencode.h codecs/ilbc/LPCencode.h
---- codecs/ilbc.orig/LPCencode.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/LPCencode.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,29 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ LPCencode.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_LPCENCOD_H
-+#define __iLBC_LPCENCOD_H
-+
-+void LPCencode(
-+ float *syntdenum, /* (i/o) synthesis filter coefficients
-+ before/after encoding */
-+ float *weightdenum, /* (i/o) weighting denumerator coefficients
-+ before/after encoding */
-+ int *lsf_index, /* (o) lsf quantization index */
-+ float *data, /* (i) lsf coefficients to quantize */
-+ iLBC_Enc_Inst_t *iLBCenc_inst
-+ /* (i/o) the encoder state structure */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/Makefile codecs/ilbc/Makefile
---- codecs/ilbc.orig/Makefile 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/Makefile 2007-10-29 15:12:16.000000000 -0700
-@@ -0,0 +1,20 @@
-+LIB=libilbc.a
-+CFLAGS+=-fPIC
-+
-+OBJS=anaFilter.o iCBSearch.o packing.o \
-+ constants.o gainquant.o iLBC_decode.o StateConstructW.o \
-+ createCB.o getCBvec.o iLBC_encode.o StateSearchW.o doCPLC.o \
-+ helpfun.o syntFilter.o enhancer.o hpInput.o LPCdecode.o \
-+ filter.o hpOutput.o LPCencode.o FrameClassify.o iCBConstruct.o lsf.o
-+
-+include $(ASTTOPDIR)/Makefile.rules
-+
-+all: $(LIB)
-+
-+$(LIB): $(OBJS)
-+ $(ECHO_PREFIX) echo " [AR] $^ -> $@"
-+ $(CMD_PREFIX) $(AR) cr $@ $^
-+ $(CMD_PREFIX) $(RANLIB) $@
-+
-+clean:
-+ rm -f $(LIB) *.o .*.d *.s *.i
-diff -druN codecs/ilbc.orig/StateConstructW.c codecs/ilbc/StateConstructW.c
---- codecs/ilbc.orig/StateConstructW.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/StateConstructW.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,76 @@
-+
-+/******************************************************************
-+
-+
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ StateConstructW.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+#include <string.h>
-+
-+#include "iLBC_define.h"
-+#include "StateConstructW.h"
-+#include "constants.h"
-+#include "filter.h"
-+
-+/*----------------------------------------------------------------*
-+ * decoding of the start state
-+ *---------------------------------------------------------------*/
-+
-+void StateConstructW(
-+ int idxForMax, /* (i) 6-bit index for the quantization of
-+ max amplitude */
-+ int *idxVec, /* (i) vector of quantization indexes */
-+ float *syntDenum, /* (i) synthesis filter denumerator */
-+ float *out, /* (o) the decoded state vector */
-+ int len /* (i) length of a state vector */
-+){
-+ float maxVal, tmpbuf[LPC_FILTERORDER+2*STATE_LEN], *tmp,
-+ numerator[LPC_FILTERORDER+1];
-+ float foutbuf[LPC_FILTERORDER+2*STATE_LEN], *fout;
-+ int k,tmpi;
-+
-+ /* decoding of the maximum value */
-+
-+ maxVal = state_frgqTbl[idxForMax];
-+ maxVal = (float)pow(10,maxVal)/(float)4.5;
-+
-+ /* initialization of buffers and coefficients */
-+
-+ memset(tmpbuf, 0, LPC_FILTERORDER*sizeof(float));
-+ memset(foutbuf, 0, LPC_FILTERORDER*sizeof(float));
-+ for (k=0; k<LPC_FILTERORDER; k++) {
-+ numerator[k]=syntDenum[LPC_FILTERORDER-k];
-+ }
-+ numerator[LPC_FILTERORDER]=syntDenum[0];
-+ tmp = &tmpbuf[LPC_FILTERORDER];
-+ fout = &foutbuf[LPC_FILTERORDER];
-+
-+ /* decoding of the sample values */
-+
-+ for (k=0; k<len; k++) {
-+ tmpi = len-1-k;
-+ /* maxVal = 1/scal */
-+
-+
-+ tmp[k] = maxVal*state_sq3Tbl[idxVec[tmpi]];
-+ }
-+
-+ /* circular convolution with all-pass filter */
-+
-+ memset(tmp+len, 0, len*sizeof(float));
-+ ZeroPoleFilter(tmp, numerator, syntDenum, 2*len,
-+ LPC_FILTERORDER, fout);
-+ for (k=0;k<len;k++) {
-+ out[k] = fout[len-1-k]+fout[2*len-1-k];
-+ }
-+}
-+
-+
-diff -druN codecs/ilbc.orig/StateConstructW.h codecs/ilbc/StateConstructW.h
---- codecs/ilbc.orig/StateConstructW.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/StateConstructW.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,27 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ StateConstructW.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_STATECONSTRUCTW_H
-+#define __iLBC_STATECONSTRUCTW_H
-+
-+void StateConstructW(
-+ int idxForMax, /* (i) 6-bit index for the quantization of
-+ max amplitude */
-+ int *idxVec, /* (i) vector of quantization indexes */
-+ float *syntDenum, /* (i) synthesis filter denumerator */
-+ float *out, /* (o) the decoded state vector */
-+ int len /* (i) length of a state vector */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/StateSearchW.c codecs/ilbc/StateSearchW.c
---- codecs/ilbc.orig/StateSearchW.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/StateSearchW.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,194 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ StateSearchW.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+#include <string.h>
-+
-+#include "iLBC_define.h"
-+#include "StateSearchW.h"
-+#include "constants.h"
-+#include "filter.h"
-+#include "helpfun.h"
-+
-+/*----------------------------------------------------------------*
-+ * predictive noise shaping encoding of scaled start state
-+ * (subrutine for StateSearchW)
-+ *---------------------------------------------------------------*/
-+
-+void AbsQuantW(
-+ iLBC_Enc_Inst_t *iLBCenc_inst,
-+ /* (i) Encoder instance */
-+ float *in, /* (i) vector to encode */
-+ float *syntDenum, /* (i) denominator of synthesis filter */
-+ float *weightDenum, /* (i) denominator of weighting filter */
-+ int *out, /* (o) vector of quantizer indexes */
-+ int len, /* (i) length of vector to encode and
-+ vector of quantizer indexes */
-+ int state_first /* (i) position of start state in the
-+ 80 vec */
-+){
-+ float *syntOut;
-+ float syntOutBuf[LPC_FILTERORDER+STATE_SHORT_LEN_30MS];
-+ float toQ, xq;
-+ int n;
-+ int index;
-+
-+ /* initialization of buffer for filtering */
-+
-+ memset(syntOutBuf, 0, LPC_FILTERORDER*sizeof(float));
-+
-+
-+
-+ /* initialization of pointer for filtering */
-+
-+ syntOut = &syntOutBuf[LPC_FILTERORDER];
-+
-+ /* synthesis and weighting filters on input */
-+
-+ if (state_first) {
-+ AllPoleFilter (in, weightDenum, SUBL, LPC_FILTERORDER);
-+ } else {
-+ AllPoleFilter (in, weightDenum,
-+ iLBCenc_inst->state_short_len-SUBL,
-+ LPC_FILTERORDER);
-+ }
-+
-+ /* encoding loop */
-+
-+ for (n=0; n<len; n++) {
-+
-+ /* time update of filter coefficients */
-+
-+ if ((state_first)&&(n==SUBL)){
-+ syntDenum += (LPC_FILTERORDER+1);
-+ weightDenum += (LPC_FILTERORDER+1);
-+
-+ /* synthesis and weighting filters on input */
-+ AllPoleFilter (&in[n], weightDenum, len-n,
-+ LPC_FILTERORDER);
-+
-+ } else if ((state_first==0)&&
-+ (n==(iLBCenc_inst->state_short_len-SUBL))) {
-+ syntDenum += (LPC_FILTERORDER+1);
-+ weightDenum += (LPC_FILTERORDER+1);
-+
-+ /* synthesis and weighting filters on input */
-+ AllPoleFilter (&in[n], weightDenum, len-n,
-+ LPC_FILTERORDER);
-+
-+ }
-+
-+ /* prediction of synthesized and weighted input */
-+
-+ syntOut[n] = 0.0;
-+ AllPoleFilter (&syntOut[n], weightDenum, 1,
-+ LPC_FILTERORDER);
-+
-+ /* quantization */
-+
-+ toQ = in[n]-syntOut[n];
-+ sort_sq(&xq, &index, toQ, state_sq3Tbl, 8);
-+ out[n]=index;
-+ syntOut[n] = state_sq3Tbl[out[n]];
-+
-+ /* update of the prediction filter */
-+
-+
-+
-+ AllPoleFilter(&syntOut[n], weightDenum, 1,
-+ LPC_FILTERORDER);
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * encoding of start state
-+ *---------------------------------------------------------------*/
-+
-+void StateSearchW(
-+ iLBC_Enc_Inst_t *iLBCenc_inst,
-+ /* (i) Encoder instance */
-+ float *residual,/* (i) target residual vector */
-+ float *syntDenum, /* (i) lpc synthesis filter */
-+ float *weightDenum, /* (i) weighting filter denuminator */
-+ int *idxForMax, /* (o) quantizer index for maximum
-+ amplitude */
-+ int *idxVec, /* (o) vector of quantization indexes */
-+ int len, /* (i) length of all vectors */
-+ int state_first /* (i) position of start state in the
-+ 80 vec */
-+){
-+ float dtmp, maxVal;
-+ float tmpbuf[LPC_FILTERORDER+2*STATE_SHORT_LEN_30MS];
-+ float *tmp, numerator[1+LPC_FILTERORDER];
-+ float foutbuf[LPC_FILTERORDER+2*STATE_SHORT_LEN_30MS], *fout;
-+ int k;
-+ float qmax, scal;
-+
-+ /* initialization of buffers and filter coefficients */
-+
-+ memset(tmpbuf, 0, LPC_FILTERORDER*sizeof(float));
-+ memset(foutbuf, 0, LPC_FILTERORDER*sizeof(float));
-+ for (k=0; k<LPC_FILTERORDER; k++) {
-+ numerator[k]=syntDenum[LPC_FILTERORDER-k];
-+ }
-+ numerator[LPC_FILTERORDER]=syntDenum[0];
-+ tmp = &tmpbuf[LPC_FILTERORDER];
-+ fout = &foutbuf[LPC_FILTERORDER];
-+
-+ /* circular convolution with the all-pass filter */
-+
-+ memcpy(tmp, residual, len*sizeof(float));
-+ memset(tmp+len, 0, len*sizeof(float));
-+ ZeroPoleFilter(tmp, numerator, syntDenum, 2*len,
-+ LPC_FILTERORDER, fout);
-+ for (k=0; k<len; k++) {
-+ fout[k] += fout[k+len];
-+ }
-+
-+ /* identification of the maximum amplitude value */
-+
-+ maxVal = fout[0];
-+
-+
-+ for (k=1; k<len; k++) {
-+
-+ if (fout[k]*fout[k] > maxVal*maxVal){
-+ maxVal = fout[k];
-+ }
-+ }
-+ maxVal=(float)fabs(maxVal);
-+
-+ /* encoding of the maximum amplitude value */
-+
-+ if (maxVal < 10.0) {
-+ maxVal = 10.0;
-+ }
-+ maxVal = (float)log10(maxVal);
-+ sort_sq(&dtmp, idxForMax, maxVal, state_frgqTbl, 64);
-+
-+ /* decoding of the maximum amplitude representation value,
-+ and corresponding scaling of start state */
-+
-+ maxVal=state_frgqTbl[*idxForMax];
-+ qmax = (float)pow(10,maxVal);
-+ scal = (float)(4.5)/qmax;
-+ for (k=0; k<len; k++){
-+ fout[k] *= scal;
-+ }
-+
-+ /* predictive noise shaping encoding of scaled start state */
-+
-+ AbsQuantW(iLBCenc_inst, fout,syntDenum,
-+ weightDenum,idxVec, len, state_first);
-+}
-+
-+
-diff -druN codecs/ilbc.orig/StateSearchW.h codecs/ilbc/StateSearchW.h
---- codecs/ilbc.orig/StateSearchW.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/StateSearchW.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,48 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ StateSearchW.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_STATESEARCHW_H
-+#define __iLBC_STATESEARCHW_H
-+
-+void AbsQuantW(
-+ iLBC_Enc_Inst_t *iLBCenc_inst,
-+ /* (i) Encoder instance */
-+ float *in, /* (i) vector to encode */
-+ float *syntDenum, /* (i) denominator of synthesis filter */
-+ float *weightDenum, /* (i) denominator of weighting filter */
-+ int *out, /* (o) vector of quantizer indexes */
-+ int len, /* (i) length of vector to encode and
-+ vector of quantizer indexes */
-+ int state_first /* (i) position of start state in the
-+ 80 vec */
-+);
-+
-+void StateSearchW(
-+ iLBC_Enc_Inst_t *iLBCenc_inst,
-+ /* (i) Encoder instance */
-+ float *residual,/* (i) target residual vector */
-+ float *syntDenum, /* (i) lpc synthesis filter */
-+ float *weightDenum, /* (i) weighting filter denuminator */
-+ int *idxForMax, /* (o) quantizer index for maximum
-+ amplitude */
-+ int *idxVec, /* (o) vector of quantization indexes */
-+ int len, /* (i) length of all vectors */
-+ int state_first /* (i) position of start state in the
-+
-+
-+ 80 vec */
-+);
-+
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/anaFilter.c codecs/ilbc/anaFilter.c
---- codecs/ilbc.orig/anaFilter.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/anaFilter.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,71 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ anaFilter.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <string.h>
-+#include "anaFilter.h"
-+#include "iLBC_define.h"
-+
-+/*----------------------------------------------------------------*
-+ * LP analysis filter.
-+
-+
-+ *---------------------------------------------------------------*/
-+
-+void anaFilter(
-+ float *In, /* (i) Signal to be filtered */
-+ float *a, /* (i) LP parameters */
-+ int len,/* (i) Length of signal */
-+ float *Out, /* (o) Filtered signal */
-+ float *mem /* (i/o) Filter state */
-+){
-+ int i, j;
-+ float *po, *pi, *pm, *pa;
-+
-+ po = Out;
-+
-+ /* Filter first part using memory from past */
-+
-+ for (i=0; i<LPC_FILTERORDER; i++) {
-+ pi = &In[i];
-+ pm = &mem[LPC_FILTERORDER-1];
-+ pa = a;
-+ *po=0.0;
-+ for (j=0; j<=i; j++) {
-+ *po+=(*pa++)*(*pi--);
-+ }
-+ for (j=i+1; j<LPC_FILTERORDER+1; j++) {
-+
-+ *po+=(*pa++)*(*pm--);
-+ }
-+ po++;
-+ }
-+
-+ /* Filter last part where the state is entierly
-+ in the input vector */
-+
-+ for (i=LPC_FILTERORDER; i<len; i++) {
-+ pi = &In[i];
-+ pa = a;
-+ *po=0.0;
-+ for (j=0; j<LPC_FILTERORDER+1; j++) {
-+ *po+=(*pa++)*(*pi--);
-+ }
-+ po++;
-+ }
-+
-+ /* Update state vector */
-+
-+ memcpy(mem, &In[len-LPC_FILTERORDER],
-+ LPC_FILTERORDER*sizeof(float));
-+}
-+
-+
-diff -druN codecs/ilbc.orig/anaFilter.h codecs/ilbc/anaFilter.h
---- codecs/ilbc.orig/anaFilter.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/anaFilter.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,26 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ anaFilter.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_ANAFILTER_H
-+#define __iLBC_ANAFILTER_H
-+
-+void anaFilter(
-+ float *In, /* (i) Signal to be filtered */
-+ float *a, /* (i) LP parameters */
-+ int len,/* (i) Length of signal */
-+ float *Out, /* (o) Filtered signal */
-+ float *mem /* (i/o) Filter state */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/constants.c codecs/ilbc/constants.c
---- codecs/ilbc.orig/constants.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/constants.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,729 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ constants.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include "iLBC_define.h"
-+
-+/* ULP bit allocation */
-+
-+ /* 20 ms frame */
-+
-+const iLBC_ULP_Inst_t ULP_20msTbl = {
-+ /* LSF */
-+ { {6,0,0,0,0}, {7,0,0,0,0}, {7,0,0,0,0},
-+ {0,0,0,0,0}, {0,0,0,0,0}, {0,0,0,0,0}},
-+ /* Start state location, gain and samples */
-+ {2,0,0,0,0},
-+ {1,0,0,0,0},
-+ {6,0,0,0,0},
-+ {0,1,2,0,0},
-+ /* extra CB index and extra CB gain */
-+ {{6,0,1,0,0}, {0,0,7,0,0}, {0,0,7,0,0}},
-+ {{2,0,3,0,0}, {1,1,2,0,0}, {0,0,3,0,0}},
-+ /* CB index and CB gain */
-+ { {{7,0,1,0,0}, {0,0,7,0,0}, {0,0,7,0,0}},
-+ {{0,0,8,0,0}, {0,0,8,0,0}, {0,0,8,0,0}},
-+ {{0,0,0,0,0}, {0,0,0,0,0}, {0,0,0,0,0}},
-+ {{0,0,0,0,0}, {0,0,0,0,0}, {0,0,0,0,0}}},
-+ { {{1,2,2,0,0}, {1,1,2,0,0}, {0,0,3,0,0}},
-+ {{1,1,3,0,0}, {0,2,2,0,0}, {0,0,3,0,0}},
-+ {{0,0,0,0,0}, {0,0,0,0,0}, {0,0,0,0,0}},
-+ {{0,0,0,0,0}, {0,0,0,0,0}, {0,0,0,0,0}}}
-+};
-+
-+ /* 30 ms frame */
-+
-+const iLBC_ULP_Inst_t ULP_30msTbl = {
-+ /* LSF */
-+ { {6,0,0,0,0}, {7,0,0,0,0}, {7,0,0,0,0},
-+
-+
-+ {6,0,0,0,0}, {7,0,0,0,0}, {7,0,0,0,0}},
-+ /* Start state location, gain and samples */
-+ {3,0,0,0,0},
-+ {1,0,0,0,0},
-+ {6,0,0,0,0},
-+ {0,1,2,0,0},
-+ /* extra CB index and extra CB gain */
-+ {{4,2,1,0,0}, {0,0,7,0,0}, {0,0,7,0,0}},
-+ {{1,1,3,0,0}, {1,1,2,0,0}, {0,0,3,0,0}},
-+ /* CB index and CB gain */
-+ { {{6,1,1,0,0}, {0,0,7,0,0}, {0,0,7,0,0}},
-+ {{0,7,1,0,0}, {0,0,8,0,0}, {0,0,8,0,0}},
-+ {{0,7,1,0,0}, {0,0,8,0,0}, {0,0,8,0,0}},
-+ {{0,7,1,0,0}, {0,0,8,0,0}, {0,0,8,0,0}}},
-+ { {{1,2,2,0,0}, {1,2,1,0,0}, {0,0,3,0,0}},
-+ {{0,2,3,0,0}, {0,2,2,0,0}, {0,0,3,0,0}},
-+ {{0,1,4,0,0}, {0,1,3,0,0}, {0,0,3,0,0}},
-+ {{0,1,4,0,0}, {0,1,3,0,0}, {0,0,3,0,0}}}
-+};
-+
-+/* HP Filters */
-+
-+float hpi_zero_coefsTbl[3] = {
-+ (float)0.92727436, (float)-1.8544941, (float)0.92727436
-+};
-+float hpi_pole_coefsTbl[3] = {
-+ (float)1.0, (float)-1.9059465, (float)0.9114024
-+};
-+float hpo_zero_coefsTbl[3] = {
-+ (float)0.93980581, (float)-1.8795834, (float)0.93980581
-+};
-+float hpo_pole_coefsTbl[3] = {
-+ (float)1.0, (float)-1.9330735, (float)0.93589199
-+};
-+
-+/* LP Filter */
-+
-+float lpFilt_coefsTbl[FILTERORDER_DS]={
-+ (float)-0.066650, (float)0.125000, (float)0.316650,
-+ (float)0.414063, (float)0.316650,
-+ (float)0.125000, (float)-0.066650
-+};
-+
-+/* State quantization tables */
-+
-+float state_sq3Tbl[8] = {
-+ (float)-3.719849, (float)-2.177490, (float)-1.130005,
-+ (float)-0.309692, (float)0.444214, (float)1.329712,
-+ (float)2.436279, (float)3.983887
-+};
-+
-+float state_frgqTbl[64] = {
-+ (float)1.000085, (float)1.071695, (float)1.140395,
-+ (float)1.206868, (float)1.277188, (float)1.351503,
-+
-+
-+ (float)1.429380, (float)1.500727, (float)1.569049,
-+ (float)1.639599, (float)1.707071, (float)1.781531,
-+ (float)1.840799, (float)1.901550, (float)1.956695,
-+ (float)2.006750, (float)2.055474, (float)2.102787,
-+ (float)2.142819, (float)2.183592, (float)2.217962,
-+ (float)2.257177, (float)2.295739, (float)2.332967,
-+ (float)2.369248, (float)2.402792, (float)2.435080,
-+ (float)2.468598, (float)2.503394, (float)2.539284,
-+ (float)2.572944, (float)2.605036, (float)2.636331,
-+ (float)2.668939, (float)2.698780, (float)2.729101,
-+ (float)2.759786, (float)2.789834, (float)2.818679,
-+ (float)2.848074, (float)2.877470, (float)2.906899,
-+ (float)2.936655, (float)2.967804, (float)3.000115,
-+ (float)3.033367, (float)3.066355, (float)3.104231,
-+ (float)3.141499, (float)3.183012, (float)3.222952,
-+ (float)3.265433, (float)3.308441, (float)3.350823,
-+ (float)3.395275, (float)3.442793, (float)3.490801,
-+ (float)3.542514, (float)3.604064, (float)3.666050,
-+ (float)3.740994, (float)3.830749, (float)3.938770,
-+ (float)4.101764
-+};
-+
-+/* CB tables */
-+
-+int search_rangeTbl[5][CB_NSTAGES]={{58,58,58}, {108,44,44},
-+ {108,108,108}, {108,108,108}, {108,108,108}};
-+int stMemLTbl=85;
-+int memLfTbl[NASUB_MAX]={147,147,147,147};
-+
-+/* expansion filter(s) */
-+
-+float cbfiltersTbl[CB_FILTERLEN]={
-+ (float)-0.034180, (float)0.108887, (float)-0.184326,
-+ (float)0.806152, (float)0.713379, (float)-0.144043,
-+ (float)0.083740, (float)-0.033691
-+};
-+
-+/* Gain Quantization */
-+
-+float gain_sq3Tbl[8]={
-+ (float)-1.000000, (float)-0.659973, (float)-0.330017,
-+ (float)0.000000, (float)0.250000, (float)0.500000,
-+ (float)0.750000, (float)1.00000};
-+
-+float gain_sq4Tbl[16]={
-+ (float)-1.049988, (float)-0.900024, (float)-0.750000,
-+ (float)-0.599976, (float)-0.450012, (float)-0.299988,
-+ (float)-0.150024, (float)0.000000, (float)0.150024,
-+ (float)0.299988, (float)0.450012, (float)0.599976,
-+ (float)0.750000, (float)0.900024, (float)1.049988,
-+ (float)1.200012};
-+
-+float gain_sq5Tbl[32]={
-+ (float)0.037476, (float)0.075012, (float)0.112488,
-+
-+
-+ (float)0.150024, (float)0.187500, (float)0.224976,
-+ (float)0.262512, (float)0.299988, (float)0.337524,
-+ (float)0.375000, (float)0.412476, (float)0.450012,
-+ (float)0.487488, (float)0.525024, (float)0.562500,
-+ (float)0.599976, (float)0.637512, (float)0.674988,
-+ (float)0.712524, (float)0.750000, (float)0.787476,
-+ (float)0.825012, (float)0.862488, (float)0.900024,
-+ (float)0.937500, (float)0.974976, (float)1.012512,
-+ (float)1.049988, (float)1.087524, (float)1.125000,
-+ (float)1.162476, (float)1.200012};
-+
-+/* Enhancer - Upsamling a factor 4 (ENH_UPS0 = 4) */
-+float polyphaserTbl[ENH_UPS0*(2*ENH_FL0+1)]={
-+ (float)0.000000, (float)0.000000, (float)0.000000,
-+(float)1.000000,
-+ (float)0.000000, (float)0.000000, (float)0.000000,
-+ (float)0.015625, (float)-0.076904, (float)0.288330,
-+(float)0.862061,
-+ (float)-0.106445, (float)0.018799, (float)-0.015625,
-+ (float)0.023682, (float)-0.124268, (float)0.601563,
-+(float)0.601563,
-+ (float)-0.124268, (float)0.023682, (float)-0.023682,
-+ (float)0.018799, (float)-0.106445, (float)0.862061,
-+(float)0.288330,
-+ (float)-0.076904, (float)0.015625, (float)-0.018799};
-+
-+float enh_plocsTbl[ENH_NBLOCKS_TOT] = {(float)40.0, (float)120.0,
-+ (float)200.0, (float)280.0, (float)360.0,
-+ (float)440.0, (float)520.0, (float)600.0};
-+
-+/* LPC analysis and quantization */
-+
-+int dim_lsfCbTbl[LSF_NSPLIT] = {3, 3, 4};
-+int size_lsfCbTbl[LSF_NSPLIT] = {64,128,128};
-+
-+
-+float lsfmeanTbl[LPC_FILTERORDER] = {
-+ (float)0.281738, (float)0.445801, (float)0.663330,
-+ (float)0.962524, (float)1.251831, (float)1.533081,
-+ (float)1.850586, (float)2.137817, (float)2.481445,
-+ (float)2.777344};
-+
-+float lsf_weightTbl_30ms[6] = {(float)(1.0/2.0), (float)1.0,
-+(float)(2.0/3.0),
-+ (float)(1.0/3.0), (float)0.0, (float)0.0};
-+
-+float lsf_weightTbl_20ms[4] = {(float)(3.0/4.0), (float)(2.0/4.0),
-+ (float)(1.0/4.0), (float)(0.0)};
-+
-+/* Hanning LPC window */
-+float lpc_winTbl[BLOCKL_MAX]={
-+ (float)0.000183, (float)0.000671, (float)0.001526,
-+ (float)0.002716, (float)0.004242, (float)0.006104,
-+ (float)0.008301, (float)0.010834, (float)0.013702,
-+
-+
-+ (float)0.016907, (float)0.020416, (float)0.024261,
-+ (float)0.028442, (float)0.032928, (float)0.037750,
-+ (float)0.042877, (float)0.048309, (float)0.054047,
-+ (float)0.060089, (float)0.066437, (float)0.073090,
-+ (float)0.080017, (float)0.087219, (float)0.094727,
-+ (float)0.102509, (float)0.110535, (float)0.118835,
-+ (float)0.127411, (float)0.136230, (float)0.145294,
-+ (float)0.154602, (float)0.164154, (float)0.173920,
-+ (float)0.183899, (float)0.194122, (float)0.204529,
-+ (float)0.215149, (float)0.225952, (float)0.236938,
-+ (float)0.248108, (float)0.259460, (float)0.270966,
-+ (float)0.282654, (float)0.294464, (float)0.306396,
-+ (float)0.318481, (float)0.330688, (float)0.343018,
-+ (float)0.355438, (float)0.367981, (float)0.380585,
-+ (float)0.393280, (float)0.406067, (float)0.418884,
-+ (float)0.431763, (float)0.444702, (float)0.457672,
-+ (float)0.470673, (float)0.483704, (float)0.496735,
-+ (float)0.509766, (float)0.522797, (float)0.535828,
-+ (float)0.548798, (float)0.561768, (float)0.574677,
-+ (float)0.587524, (float)0.600342, (float)0.613068,
-+ (float)0.625732, (float)0.638306, (float)0.650787,
-+ (float)0.663147, (float)0.675415, (float)0.687561,
-+ (float)0.699585, (float)0.711487, (float)0.723206,
-+ (float)0.734802, (float)0.746216, (float)0.757477,
-+ (float)0.768585, (float)0.779480, (float)0.790192,
-+ (float)0.800720, (float)0.811005, (float)0.821106,
-+ (float)0.830994, (float)0.840668, (float)0.850067,
-+ (float)0.859253, (float)0.868225, (float)0.876892,
-+ (float)0.885345, (float)0.893524, (float)0.901428,
-+ (float)0.909058, (float)0.916412, (float)0.923492,
-+ (float)0.930267, (float)0.936768, (float)0.942963,
-+ (float)0.948853, (float)0.954437, (float)0.959717,
-+ (float)0.964691, (float)0.969360, (float)0.973694,
-+ (float)0.977692, (float)0.981384, (float)0.984741,
-+ (float)0.987762, (float)0.990479, (float)0.992828,
-+ (float)0.994873, (float)0.996552, (float)0.997925,
-+ (float)0.998932, (float)0.999603, (float)0.999969,
-+ (float)0.999969, (float)0.999603, (float)0.998932,
-+ (float)0.997925, (float)0.996552, (float)0.994873,
-+ (float)0.992828, (float)0.990479, (float)0.987762,
-+ (float)0.984741, (float)0.981384, (float)0.977692,
-+ (float)0.973694, (float)0.969360, (float)0.964691,
-+ (float)0.959717, (float)0.954437, (float)0.948853,
-+ (float)0.942963, (float)0.936768, (float)0.930267,
-+ (float)0.923492, (float)0.916412, (float)0.909058,
-+ (float)0.901428, (float)0.893524, (float)0.885345,
-+ (float)0.876892, (float)0.868225, (float)0.859253,
-+ (float)0.850067, (float)0.840668, (float)0.830994,
-+ (float)0.821106, (float)0.811005, (float)0.800720,
-+ (float)0.790192, (float)0.779480, (float)0.768585,
-+ (float)0.757477, (float)0.746216, (float)0.734802,
-+ (float)0.723206, (float)0.711487, (float)0.699585,
-+ (float)0.687561, (float)0.675415, (float)0.663147,
-+ (float)0.650787, (float)0.638306, (float)0.625732,
-+
-+
-+ (float)0.613068, (float)0.600342, (float)0.587524,
-+ (float)0.574677, (float)0.561768, (float)0.548798,
-+ (float)0.535828, (float)0.522797, (float)0.509766,
-+ (float)0.496735, (float)0.483704, (float)0.470673,
-+ (float)0.457672, (float)0.444702, (float)0.431763,
-+ (float)0.418884, (float)0.406067, (float)0.393280,
-+ (float)0.380585, (float)0.367981, (float)0.355438,
-+ (float)0.343018, (float)0.330688, (float)0.318481,
-+ (float)0.306396, (float)0.294464, (float)0.282654,
-+ (float)0.270966, (float)0.259460, (float)0.248108,
-+ (float)0.236938, (float)0.225952, (float)0.215149,
-+ (float)0.204529, (float)0.194122, (float)0.183899,
-+ (float)0.173920, (float)0.164154, (float)0.154602,
-+ (float)0.145294, (float)0.136230, (float)0.127411,
-+ (float)0.118835, (float)0.110535, (float)0.102509,
-+ (float)0.094727, (float)0.087219, (float)0.080017,
-+ (float)0.073090, (float)0.066437, (float)0.060089,
-+ (float)0.054047, (float)0.048309, (float)0.042877,
-+ (float)0.037750, (float)0.032928, (float)0.028442,
-+ (float)0.024261, (float)0.020416, (float)0.016907,
-+ (float)0.013702, (float)0.010834, (float)0.008301,
-+ (float)0.006104, (float)0.004242, (float)0.002716,
-+ (float)0.001526, (float)0.000671, (float)0.000183
-+};
-+
-+/* Asymmetric LPC window */
-+float lpc_asymwinTbl[BLOCKL_MAX]={
-+ (float)0.000061, (float)0.000214, (float)0.000458,
-+ (float)0.000824, (float)0.001282, (float)0.001831,
-+ (float)0.002472, (float)0.003235, (float)0.004120,
-+ (float)0.005066, (float)0.006134, (float)0.007294,
-+ (float)0.008545, (float)0.009918, (float)0.011383,
-+ (float)0.012939, (float)0.014587, (float)0.016357,
-+ (float)0.018219, (float)0.020172, (float)0.022217,
-+ (float)0.024353, (float)0.026611, (float)0.028961,
-+ (float)0.031372, (float)0.033905, (float)0.036530,
-+ (float)0.039276, (float)0.042084, (float)0.044983,
-+ (float)0.047974, (float)0.051086, (float)0.054260,
-+ (float)0.057526, (float)0.060883, (float)0.064331,
-+ (float)0.067871, (float)0.071503, (float)0.075226,
-+ (float)0.079010, (float)0.082916, (float)0.086884,
-+ (float)0.090942, (float)0.095062, (float)0.099304,
-+ (float)0.103607, (float)0.107971, (float)0.112427,
-+ (float)0.116974, (float)0.121582, (float)0.126282,
-+ (float)0.131073, (float)0.135895, (float)0.140839,
-+ (float)0.145813, (float)0.150879, (float)0.156006,
-+ (float)0.161224, (float)0.166504, (float)0.171844,
-+ (float)0.177246, (float)0.182709, (float)0.188263,
-+ (float)0.193848, (float)0.199524, (float)0.205231,
-+ (float)0.211029, (float)0.216858, (float)0.222778,
-+ (float)0.228729, (float)0.234741, (float)0.240814,
-+ (float)0.246918, (float)0.253082, (float)0.259308,
-+ (float)0.265564, (float)0.271881, (float)0.278259,
-+ (float)0.284668, (float)0.291107, (float)0.297607,
-+
-+
-+ (float)0.304138, (float)0.310730, (float)0.317322,
-+ (float)0.323975, (float)0.330658, (float)0.337372,
-+ (float)0.344147, (float)0.350922, (float)0.357727,
-+ (float)0.364594, (float)0.371460, (float)0.378357,
-+ (float)0.385284, (float)0.392212, (float)0.399170,
-+ (float)0.406158, (float)0.413177, (float)0.420197,
-+ (float)0.427246, (float)0.434296, (float)0.441376,
-+ (float)0.448456, (float)0.455536, (float)0.462646,
-+ (float)0.469757, (float)0.476868, (float)0.483978,
-+ (float)0.491089, (float)0.498230, (float)0.505341,
-+ (float)0.512451, (float)0.519592, (float)0.526703,
-+ (float)0.533813, (float)0.540924, (float)0.548004,
-+ (float)0.555084, (float)0.562164, (float)0.569244,
-+ (float)0.576294, (float)0.583313, (float)0.590332,
-+ (float)0.597321, (float)0.604309, (float)0.611267,
-+ (float)0.618195, (float)0.625092, (float)0.631989,
-+ (float)0.638855, (float)0.645660, (float)0.652466,
-+ (float)0.659241, (float)0.665985, (float)0.672668,
-+ (float)0.679352, (float)0.685974, (float)0.692566,
-+ (float)0.699127, (float)0.705658, (float)0.712128,
-+ (float)0.718536, (float)0.724945, (float)0.731262,
-+ (float)0.737549, (float)0.743805, (float)0.750000,
-+ (float)0.756134, (float)0.762238, (float)0.768280,
-+ (float)0.774261, (float)0.780182, (float)0.786072,
-+ (float)0.791870, (float)0.797638, (float)0.803314,
-+ (float)0.808960, (float)0.814514, (float)0.820038,
-+ (float)0.825470, (float)0.830841, (float)0.836151,
-+ (float)0.841400, (float)0.846558, (float)0.851654,
-+ (float)0.856689, (float)0.861633, (float)0.866516,
-+ (float)0.871338, (float)0.876068, (float)0.880737,
-+ (float)0.885315, (float)0.889801, (float)0.894226,
-+ (float)0.898560, (float)0.902832, (float)0.907013,
-+ (float)0.911102, (float)0.915100, (float)0.919037,
-+ (float)0.922882, (float)0.926636, (float)0.930328,
-+ (float)0.933899, (float)0.937408, (float)0.940796,
-+ (float)0.944122, (float)0.947357, (float)0.950470,
-+ (float)0.953522, (float)0.956482, (float)0.959351,
-+ (float)0.962097, (float)0.964783, (float)0.967377,
-+ (float)0.969849, (float)0.972229, (float)0.974518,
-+ (float)0.976715, (float)0.978821, (float)0.980835,
-+ (float)0.982727, (float)0.984528, (float)0.986237,
-+ (float)0.987854, (float)0.989380, (float)0.990784,
-+ (float)0.992096, (float)0.993317, (float)0.994415,
-+ (float)0.995422, (float)0.996338, (float)0.997162,
-+ (float)0.997864, (float)0.998474, (float)0.998962,
-+ (float)0.999390, (float)0.999695, (float)0.999878,
-+ (float)0.999969, (float)0.999969, (float)0.996918,
-+ (float)0.987701, (float)0.972382, (float)0.951050,
-+ (float)0.923889, (float)0.891022, (float)0.852631,
-+ (float)0.809021, (float)0.760406, (float)0.707092,
-+ (float)0.649445, (float)0.587799, (float)0.522491,
-+ (float)0.453979, (float)0.382690, (float)0.309021,
-+ (float)0.233459, (float)0.156433, (float)0.078461
-+};
-+
-+
-+
-+/* Lag window for LPC */
-+float lpc_lagwinTbl[LPC_FILTERORDER + 1]={
-+ (float)1.000100, (float)0.998890, (float)0.995569,
-+ (float)0.990057, (float)0.982392,
-+ (float)0.972623, (float)0.960816, (float)0.947047,
-+ (float)0.931405, (float)0.913989, (float)0.894909};
-+
-+/* LSF quantization*/
-+float lsfCbTbl[64 * 3 + 128 * 3 + 128 * 4] = {
-+(float)0.155396, (float)0.273193, (float)0.451172,
-+(float)0.390503, (float)0.648071, (float)1.002075,
-+(float)0.440186, (float)0.692261, (float)0.955688,
-+(float)0.343628, (float)0.642334, (float)1.071533,
-+(float)0.318359, (float)0.491577, (float)0.670532,
-+(float)0.193115, (float)0.375488, (float)0.725708,
-+(float)0.364136, (float)0.510376, (float)0.658691,
-+(float)0.297485, (float)0.527588, (float)0.842529,
-+(float)0.227173, (float)0.365967, (float)0.563110,
-+(float)0.244995, (float)0.396729, (float)0.636475,
-+(float)0.169434, (float)0.300171, (float)0.520264,
-+(float)0.312866, (float)0.464478, (float)0.643188,
-+(float)0.248535, (float)0.429932, (float)0.626099,
-+(float)0.236206, (float)0.491333, (float)0.817139,
-+(float)0.334961, (float)0.625122, (float)0.895752,
-+(float)0.343018, (float)0.518555, (float)0.698608,
-+(float)0.372803, (float)0.659790, (float)0.945435,
-+(float)0.176880, (float)0.316528, (float)0.581421,
-+(float)0.416382, (float)0.625977, (float)0.805176,
-+(float)0.303223, (float)0.568726, (float)0.915039,
-+(float)0.203613, (float)0.351440, (float)0.588135,
-+(float)0.221191, (float)0.375000, (float)0.614746,
-+(float)0.199951, (float)0.323364, (float)0.476074,
-+(float)0.300781, (float)0.433350, (float)0.566895,
-+(float)0.226196, (float)0.354004, (float)0.507568,
-+(float)0.300049, (float)0.508179, (float)0.711670,
-+(float)0.312012, (float)0.492676, (float)0.763428,
-+(float)0.329956, (float)0.541016, (float)0.795776,
-+(float)0.373779, (float)0.604614, (float)0.928833,
-+(float)0.210571, (float)0.452026, (float)0.755249,
-+(float)0.271118, (float)0.473267, (float)0.662476,
-+(float)0.285522, (float)0.436890, (float)0.634399,
-+(float)0.246704, (float)0.565552, (float)0.859009,
-+(float)0.270508, (float)0.406250, (float)0.553589,
-+(float)0.361450, (float)0.578491, (float)0.813843,
-+(float)0.342651, (float)0.482788, (float)0.622437,
-+(float)0.340332, (float)0.549438, (float)0.743164,
-+(float)0.200439, (float)0.336304, (float)0.540894,
-+(float)0.407837, (float)0.644775, (float)0.895142,
-+(float)0.294678, (float)0.454834, (float)0.699097,
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-+(float)1.956299, (float)2.163696, (float)2.394775, (float)2.734253,
-+(float)1.963623, (float)2.275757, (float)2.585327, (float)2.865234,
-+(float)1.887451, (float)2.105469, (float)2.331787, (float)2.587402,
-+(float)2.120117, (float)2.443359, (float)2.733887, (float)2.941406,
-+(float)1.506348, (float)1.766968, (float)2.400513, (float)2.851807,
-+(float)1.664551, (float)1.981079, (float)2.375732, (float)2.774414,
-+(float)1.720703, (float)1.978882, (float)2.391479, (float)2.640991,
-+(float)1.483398, (float)1.814819, (float)2.434448, (float)2.722290,
-+(float)1.769043, (float)2.136597, (float)2.563721, (float)2.774414,
-+(float)1.810791, (float)2.049316, (float)2.373901, (float)2.613647,
-+(float)1.788330, (float)2.005981, (float)2.359131, (float)2.723145,
-+(float)1.785156, (float)1.993164, (float)2.399780, (float)2.832520,
-+(float)1.695313, (float)2.022949, (float)2.522583, (float)2.745117,
-+(float)1.584106, (float)1.965576, (float)2.299927, (float)2.715576,
-+(float)1.894897, (float)2.249878, (float)2.655884, (float)2.897705,
-+(float)1.720581, (float)1.995728, (float)2.299438, (float)2.557007,
-+(float)1.619385, (float)2.173950, (float)2.574219, (float)2.787964,
-+(float)1.883179, (float)2.220459, (float)2.474365, (float)2.825073,
-+(float)1.447632, (float)2.045044, (float)2.555542, (float)2.744873,
-+(float)1.502686, (float)2.156616, (float)2.653320, (float)2.846558,
-+(float)1.711548, (float)1.944092, (float)2.282959, (float)2.685791,
-+(float)1.499756, (float)1.867554, (float)2.341064, (float)2.578857,
-+(float)1.916870, (float)2.135132, (float)2.568237, (float)2.826050,
-+(float)1.498047, (float)1.711182, (float)2.223267, (float)2.755127,
-+
-+
-+(float)1.808716, (float)1.997559, (float)2.256470, (float)2.758545,
-+(float)2.088501, (float)2.402710, (float)2.667358, (float)2.890259,
-+(float)1.545044, (float)1.819214, (float)2.324097, (float)2.692993,
-+(float)1.796021, (float)2.012573, (float)2.505737, (float)2.784912,
-+(float)1.786499, (float)2.041748, (float)2.290405, (float)2.650757,
-+(float)1.938232, (float)2.264404, (float)2.529053, (float)2.796143
-+};
-+
-+
-diff -druN codecs/ilbc.orig/constants.h codecs/ilbc/constants.h
---- codecs/ilbc.orig/constants.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/constants.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,74 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ constants.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_CONSTANTS_H
-+#define __iLBC_CONSTANTS_H
-+
-+#include "iLBC_define.h"
-+
-+
-+/* ULP bit allocation */
-+
-+extern const iLBC_ULP_Inst_t ULP_20msTbl;
-+extern const iLBC_ULP_Inst_t ULP_30msTbl;
-+
-+/* high pass filters */
-+
-+extern float hpi_zero_coefsTbl[];
-+extern float hpi_pole_coefsTbl[];
-+extern float hpo_zero_coefsTbl[];
-+extern float hpo_pole_coefsTbl[];
-+
-+/* low pass filters */
-+extern float lpFilt_coefsTbl[];
-+
-+/* LPC analysis and quantization */
-+
-+extern float lpc_winTbl[];
-+extern float lpc_asymwinTbl[];
-+extern float lpc_lagwinTbl[];
-+extern float lsfCbTbl[];
-+extern float lsfmeanTbl[];
-+extern int dim_lsfCbTbl[];
-+extern int size_lsfCbTbl[];
-+extern float lsf_weightTbl_30ms[];
-+extern float lsf_weightTbl_20ms[];
-+
-+/* state quantization tables */
-+
-+extern float state_sq3Tbl[];
-+extern float state_frgqTbl[];
-+
-+/* gain quantization tables */
-+
-+extern float gain_sq3Tbl[];
-+extern float gain_sq4Tbl[];
-+extern float gain_sq5Tbl[];
-+
-+/* adaptive codebook definitions */
-+
-+extern int search_rangeTbl[5][CB_NSTAGES];
-+extern int memLfTbl[];
-+extern int stMemLTbl;
-+extern float cbfiltersTbl[CB_FILTERLEN];
-+
-+
-+
-+/* enhancer definitions */
-+
-+extern float polyphaserTbl[];
-+extern float enh_plocsTbl[];
-+
-+#endif
-+
-diff -druN codecs/ilbc.orig/createCB.c codecs/ilbc/createCB.c
---- codecs/ilbc.orig/createCB.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/createCB.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,216 @@
-+
-+
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ createCB.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include "iLBC_define.h"
-+#include "createCB.h"
-+#include "constants.h"
-+#include <string.h>
-+#include <math.h>
-+
-+/*----------------------------------------------------------------*
-+ * Construct an additional codebook vector by filtering the
-+ * initial codebook buffer. This vector is then used to expand
-+ * the codebook with an additional section.
-+ *---------------------------------------------------------------*/
-+
-+void filteredCBvecs(
-+ float *cbvectors, /* (o) Codebook vectors for the
-+ higher section */
-+ float *mem, /* (i) Buffer to create codebook
-+ vector from */
-+ int lMem /* (i) Length of buffer */
-+){
-+ int j, k;
-+ float *pp, *pp1;
-+ float tempbuff2[CB_MEML+CB_FILTERLEN];
-+ float *pos;
-+
-+ memset(tempbuff2, 0, (CB_HALFFILTERLEN-1)*sizeof(float));
-+ memcpy(&tempbuff2[CB_HALFFILTERLEN-1], mem, lMem*sizeof(float));
-+ memset(&tempbuff2[lMem+CB_HALFFILTERLEN-1], 0,
-+ (CB_HALFFILTERLEN+1)*sizeof(float));
-+
-+ /* Create codebook vector for higher section by filtering */
-+
-+ /* do filtering */
-+ pos=cbvectors;
-+ memset(pos, 0, lMem*sizeof(float));
-+ for (k=0; k<lMem; k++) {
-+ pp=&tempbuff2[k];
-+ pp1=&cbfiltersTbl[CB_FILTERLEN-1];
-+ for (j=0;j<CB_FILTERLEN;j++) {
-+ (*pos)+=(*pp++)*(*pp1--);
-+ }
-+ pos++;
-+ }
-+}
-+
-+
-+
-+/*----------------------------------------------------------------*
-+ * Search the augmented part of the codebook to find the best
-+ * measure.
-+ *----------------------------------------------------------------*/
-+
-+void searchAugmentedCB(
-+ int low, /* (i) Start index for the search */
-+ int high, /* (i) End index for the search */
-+ int stage, /* (i) Current stage */
-+ int startIndex, /* (i) Codebook index for the first
-+ aug vector */
-+ float *target, /* (i) Target vector for encoding */
-+ float *buffer, /* (i) Pointer to the end of the buffer for
-+ augmented codebook construction */
-+ float *max_measure, /* (i/o) Currently maximum measure */
-+ int *best_index,/* (o) Currently the best index */
-+ float *gain, /* (o) Currently the best gain */
-+ float *energy, /* (o) Energy of augmented codebook
-+ vectors */
-+ float *invenergy/* (o) Inv energy of augmented codebook
-+ vectors */
-+) {
-+ int icount, ilow, j, tmpIndex;
-+ float *pp, *ppo, *ppi, *ppe, crossDot, alfa;
-+ float weighted, measure, nrjRecursive;
-+ float ftmp;
-+
-+ /* Compute the energy for the first (low-5)
-+ noninterpolated samples */
-+ nrjRecursive = (float) 0.0;
-+ pp = buffer - low + 1;
-+ for (j=0; j<(low-5); j++) {
-+ nrjRecursive += ( (*pp)*(*pp) );
-+ pp++;
-+ }
-+ ppe = buffer - low;
-+
-+
-+ for (icount=low; icount<=high; icount++) {
-+
-+ /* Index of the codebook vector used for retrieving
-+ energy values */
-+ tmpIndex = startIndex+icount-20;
-+
-+ ilow = icount-4;
-+
-+ /* Update the energy recursively to save complexity */
-+ nrjRecursive = nrjRecursive + (*ppe)*(*ppe);
-+ ppe--;
-+ energy[tmpIndex] = nrjRecursive;
-+
-+ /* Compute cross dot product for the first (low-5)
-+ samples */
-+ crossDot = (float) 0.0;
-+
-+
-+ pp = buffer-icount;
-+ for (j=0; j<ilow; j++) {
-+ crossDot += target[j]*(*pp++);
-+ }
-+
-+ /* interpolation */
-+ alfa = (float) 0.2;
-+ ppo = buffer-4;
-+ ppi = buffer-icount-4;
-+ for (j=ilow; j<icount; j++) {
-+ weighted = ((float)1.0-alfa)*(*ppo)+alfa*(*ppi);
-+ ppo++;
-+ ppi++;
-+ energy[tmpIndex] += weighted*weighted;
-+ crossDot += target[j]*weighted;
-+ alfa += (float)0.2;
-+ }
-+
-+ /* Compute energy and cross dot product for the
-+ remaining samples */
-+ pp = buffer - icount;
-+ for (j=icount; j<SUBL; j++) {
-+ energy[tmpIndex] += (*pp)*(*pp);
-+ crossDot += target[j]*(*pp++);
-+ }
-+
-+ if (energy[tmpIndex]>0.0) {
-+ invenergy[tmpIndex]=(float)1.0/(energy[tmpIndex]+EPS);
-+ } else {
-+ invenergy[tmpIndex] = (float) 0.0;
-+ }
-+
-+ if (stage==0) {
-+ measure = (float)-10000000.0;
-+
-+ if (crossDot > 0.0) {
-+ measure = crossDot*crossDot*invenergy[tmpIndex];
-+ }
-+ }
-+ else {
-+ measure = crossDot*crossDot*invenergy[tmpIndex];
-+ }
-+
-+ /* check if measure is better */
-+ ftmp = crossDot*invenergy[tmpIndex];
-+
-+ if ((measure>*max_measure) && (fabs(ftmp)<CB_MAXGAIN)) {
-+ *best_index = tmpIndex;
-+ *max_measure = measure;
-+ *gain = ftmp;
-+ }
-+ }
-+}
-+
-+
-+
-+
-+/*----------------------------------------------------------------*
-+ * Recreate a specific codebook vector from the augmented part.
-+ *
-+ *----------------------------------------------------------------*/
-+
-+void createAugmentedVec(
-+ int index, /* (i) Index for the augmented vector
-+ to be created */
-+ float *buffer, /* (i) Pointer to the end of the buffer for
-+ augmented codebook construction */
-+ float *cbVec/* (o) The construced codebook vector */
-+) {
-+ int ilow, j;
-+ float *pp, *ppo, *ppi, alfa, alfa1, weighted;
-+
-+ ilow = index-5;
-+
-+ /* copy the first noninterpolated part */
-+
-+ pp = buffer-index;
-+ memcpy(cbVec,pp,sizeof(float)*index);
-+
-+ /* interpolation */
-+
-+ alfa1 = (float)0.2;
-+ alfa = 0.0;
-+ ppo = buffer-5;
-+ ppi = buffer-index-5;
-+ for (j=ilow; j<index; j++) {
-+ weighted = ((float)1.0-alfa)*(*ppo)+alfa*(*ppi);
-+ ppo++;
-+ ppi++;
-+ cbVec[j] = weighted;
-+ alfa += alfa1;
-+ }
-+
-+ /* copy the second noninterpolated part */
-+
-+ pp = buffer - index;
-+ memcpy(cbVec+index,pp,sizeof(float)*(SUBL-index));
-+}
-+
-+
-diff -druN codecs/ilbc.orig/createCB.h codecs/ilbc/createCB.h
---- codecs/ilbc.orig/createCB.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/createCB.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,56 @@
-+
-+/******************************************************************
-+
-+
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ createCB.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_CREATECB_H
-+#define __iLBC_CREATECB_H
-+
-+void filteredCBvecs(
-+ float *cbvectors, /* (o) Codebook vector for the
-+ higher section */
-+ float *mem, /* (i) Buffer to create codebook
-+ vectors from */
-+ int lMem /* (i) Length of buffer */
-+);
-+
-+void searchAugmentedCB(
-+ int low, /* (i) Start index for the search */
-+ int high, /* (i) End index for the search */
-+ int stage, /* (i) Current stage */
-+ int startIndex, /* (i) CB index for the first
-+ augmented vector */
-+ float *target, /* (i) Target vector for encoding */
-+ float *buffer, /* (i) Pointer to the end of the
-+ buffer for augmented codebook
-+ construction */
-+ float *max_measure, /* (i/o) Currently maximum measure */
-+ int *best_index,/* (o) Currently the best index */
-+ float *gain, /* (o) Currently the best gain */
-+ float *energy, /* (o) Energy of augmented
-+ codebook vectors */
-+ float *invenergy/* (o) Inv energy of aug codebook
-+ vectors */
-+);
-+
-+void createAugmentedVec(
-+ int index, /* (i) Index for the aug vector
-+ to be created */
-+ float *buffer, /* (i) Pointer to the end of the
-+ buffer for augmented codebook
-+ construction */
-+ float *cbVec /* (o) The construced codebook vector */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/doCPLC.c codecs/ilbc/doCPLC.c
---- codecs/ilbc.orig/doCPLC.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/doCPLC.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,259 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ doCPLC.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+#include <string.h>
-+#include <stdio.h>
-+
-+#include "iLBC_define.h"
-+#include "doCPLC.h"
-+
-+/*----------------------------------------------------------------*
-+ * Compute cross correlation and pitch gain for pitch prediction
-+ * of last subframe at given lag.
-+ *---------------------------------------------------------------*/
-+
-+static void compCorr(
-+ float *cc, /* (o) cross correlation coefficient */
-+ float *gc, /* (o) gain */
-+ float *pm,
-+ float *buffer, /* (i) signal buffer */
-+ int lag, /* (i) pitch lag */
-+ int bLen, /* (i) length of buffer */
-+ int sRange /* (i) correlation search length */
-+){
-+
-+
-+ int i;
-+ float ftmp1, ftmp2, ftmp3;
-+
-+ /* Guard against getting outside buffer */
-+ if ((bLen-sRange-lag)<0) {
-+ sRange=bLen-lag;
-+ }
-+
-+ ftmp1 = 0.0;
-+ ftmp2 = 0.0;
-+ ftmp3 = 0.0;
-+ for (i=0; i<sRange; i++) {
-+ ftmp1 += buffer[bLen-sRange+i] *
-+ buffer[bLen-sRange+i-lag];
-+ ftmp2 += buffer[bLen-sRange+i-lag] *
-+ buffer[bLen-sRange+i-lag];
-+ ftmp3 += buffer[bLen-sRange+i] *
-+ buffer[bLen-sRange+i];
-+ }
-+
-+ if (ftmp2 > 0.0) {
-+ *cc = ftmp1*ftmp1/ftmp2;
-+ *gc = (float)fabs(ftmp1/ftmp2);
-+ *pm=(float)fabs(ftmp1)/
-+ ((float)sqrt(ftmp2)*(float)sqrt(ftmp3));
-+ }
-+ else {
-+ *cc = 0.0;
-+ *gc = 0.0;
-+ *pm=0.0;
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * Packet loss concealment routine. Conceals a residual signal
-+ * and LP parameters. If no packet loss, update state.
-+ *---------------------------------------------------------------*/
-+
-+void doThePLC(
-+ float *PLCresidual, /* (o) concealed residual */
-+ float *PLClpc, /* (o) concealed LP parameters */
-+ int PLI, /* (i) packet loss indicator
-+ 0 - no PL, 1 = PL */
-+ float *decresidual, /* (i) decoded residual */
-+ float *lpc, /* (i) decoded LPC (only used for no PL) */
-+ int inlag, /* (i) pitch lag */
-+ iLBC_Dec_Inst_t *iLBCdec_inst
-+ /* (i/o) decoder instance */
-+){
-+ int lag=20, randlag;
-+ float gain, maxcc;
-+ float use_gain;
-+ float gain_comp, maxcc_comp, per, max_per;
-+ int i, pick, use_lag;
-+
-+
-+ float ftmp, randvec[BLOCKL_MAX], pitchfact, energy;
-+
-+ /* Packet Loss */
-+
-+ if (PLI == 1) {
-+
-+ iLBCdec_inst->consPLICount += 1;
-+
-+ /* if previous frame not lost,
-+ determine pitch pred. gain */
-+
-+ if (iLBCdec_inst->prevPLI != 1) {
-+
-+ /* Search around the previous lag to find the
-+ best pitch period */
-+
-+ lag=inlag-3;
-+ compCorr(&maxcc, &gain, &max_per,
-+ iLBCdec_inst->prevResidual,
-+ lag, iLBCdec_inst->blockl, 60);
-+ for (i=inlag-2;i<=inlag+3;i++) {
-+ compCorr(&maxcc_comp, &gain_comp, &per,
-+ iLBCdec_inst->prevResidual,
-+ i, iLBCdec_inst->blockl, 60);
-+
-+ if (maxcc_comp>maxcc) {
-+ maxcc=maxcc_comp;
-+ gain=gain_comp;
-+ lag=i;
-+ max_per=per;
-+ }
-+ }
-+
-+ }
-+
-+ /* previous frame lost, use recorded lag and periodicity */
-+
-+ else {
-+ lag=iLBCdec_inst->prevLag;
-+ max_per=iLBCdec_inst->per;
-+ }
-+
-+ /* downscaling */
-+
-+ use_gain=1.0;
-+ if (iLBCdec_inst->consPLICount*iLBCdec_inst->blockl>320)
-+ use_gain=(float)0.9;
-+ else if (iLBCdec_inst->consPLICount*
-+ iLBCdec_inst->blockl>2*320)
-+ use_gain=(float)0.7;
-+ else if (iLBCdec_inst->consPLICount*
-+ iLBCdec_inst->blockl>3*320)
-+ use_gain=(float)0.5;
-+ else if (iLBCdec_inst->consPLICount*
-+
-+
-+ iLBCdec_inst->blockl>4*320)
-+ use_gain=(float)0.0;
-+
-+ /* mix noise and pitch repeatition */
-+ ftmp=(float)sqrt(max_per);
-+ if (ftmp>(float)0.7)
-+ pitchfact=(float)1.0;
-+ else if (ftmp>(float)0.4)
-+ pitchfact=(ftmp-(float)0.4)/((float)0.7-(float)0.4);
-+ else
-+ pitchfact=0.0;
-+
-+
-+ /* avoid repetition of same pitch cycle */
-+ use_lag=lag;
-+ if (lag<80) {
-+ use_lag=2*lag;
-+ }
-+
-+ /* compute concealed residual */
-+
-+ energy = 0.0;
-+ for (i=0; i<iLBCdec_inst->blockl; i++) {
-+
-+ /* noise component */
-+
-+ iLBCdec_inst->seed=(iLBCdec_inst->seed*69069L+1) &
-+ (0x80000000L-1);
-+ randlag = 50 + ((signed long) iLBCdec_inst->seed)%70;
-+ pick = i - randlag;
-+
-+ if (pick < 0) {
-+ randvec[i] =
-+ iLBCdec_inst->prevResidual[
-+ iLBCdec_inst->blockl+pick];
-+ } else {
-+ randvec[i] = randvec[pick];
-+ }
-+
-+ /* pitch repeatition component */
-+ pick = i - use_lag;
-+
-+ if (pick < 0) {
-+ PLCresidual[i] =
-+ iLBCdec_inst->prevResidual[
-+ iLBCdec_inst->blockl+pick];
-+ } else {
-+ PLCresidual[i] = PLCresidual[pick];
-+ }
-+
-+ /* mix random and periodicity component */
-+
-+ if (i<80)
-+ PLCresidual[i] = use_gain*(pitchfact *
-+
-+
-+ PLCresidual[i] +
-+ ((float)1.0 - pitchfact) * randvec[i]);
-+ else if (i<160)
-+ PLCresidual[i] = (float)0.95*use_gain*(pitchfact *
-+ PLCresidual[i] +
-+ ((float)1.0 - pitchfact) * randvec[i]);
-+ else
-+ PLCresidual[i] = (float)0.9*use_gain*(pitchfact *
-+ PLCresidual[i] +
-+ ((float)1.0 - pitchfact) * randvec[i]);
-+
-+ energy += PLCresidual[i] * PLCresidual[i];
-+ }
-+
-+ /* less than 30 dB, use only noise */
-+
-+ if (sqrt(energy/(float)iLBCdec_inst->blockl) < 30.0) {
-+ gain=0.0;
-+ for (i=0; i<iLBCdec_inst->blockl; i++) {
-+ PLCresidual[i] = randvec[i];
-+ }
-+ }
-+
-+ /* use old LPC */
-+
-+ memcpy(PLClpc,iLBCdec_inst->prevLpc,
-+ (LPC_FILTERORDER+1)*sizeof(float));
-+
-+ }
-+
-+ /* no packet loss, copy input */
-+
-+ else {
-+ memcpy(PLCresidual, decresidual,
-+ iLBCdec_inst->blockl*sizeof(float));
-+ memcpy(PLClpc, lpc, (LPC_FILTERORDER+1)*sizeof(float));
-+ iLBCdec_inst->consPLICount = 0;
-+ }
-+
-+ /* update state */
-+
-+ if (PLI) {
-+ iLBCdec_inst->prevLag = lag;
-+ iLBCdec_inst->per=max_per;
-+ }
-+
-+ iLBCdec_inst->prevPLI = PLI;
-+ memcpy(iLBCdec_inst->prevLpc, PLClpc,
-+ (LPC_FILTERORDER+1)*sizeof(float));
-+ memcpy(iLBCdec_inst->prevResidual, PLCresidual,
-+ iLBCdec_inst->blockl*sizeof(float));
-+}
-+
-+
-+
-+
-diff -druN codecs/ilbc.orig/doCPLC.h codecs/ilbc/doCPLC.h
---- codecs/ilbc.orig/doCPLC.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/doCPLC.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,32 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ doCPLC.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_DOLPC_H
-+#define __iLBC_DOLPC_H
-+
-+void doThePLC(
-+ float *PLCresidual, /* (o) concealed residual */
-+ float *PLClpc, /* (o) concealed LP parameters */
-+ int PLI, /* (i) packet loss indicator
-+ 0 - no PL, 1 = PL */
-+ float *decresidual, /* (i) decoded residual */
-+ float *lpc, /* (i) decoded LPC (only used for no PL) */
-+ int inlag, /* (i) pitch lag */
-+ iLBC_Dec_Inst_t *iLBCdec_inst
-+ /* (i/o) decoder instance */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/enhancer.c codecs/ilbc/enhancer.c
---- codecs/ilbc.orig/enhancer.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/enhancer.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,665 @@
-+
-+/******************************************************************
-+
-+ 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 "enhancer.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
-+ *---------------------------------------------------------------*/
-+
-+static 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
-+ *---------------------------------------------------------------*/
-+
-+static 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
-+ *---------------------------------------------------------------*/
-+
-+
-+
-+static 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
-+ *---------------------------------------------------------------*/
-+
-+static 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
-+ *---------------------------------------------------------------*/
-+
-+static 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
-+ *---------------------------------------------------------------*/
-+
-+static 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
-+ *---------------------------------------------------------------*/
-+
-+static 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);
-+}
-+
-+
-diff -druN codecs/ilbc.orig/enhancer.h codecs/ilbc/enhancer.h
---- codecs/ilbc.orig/enhancer.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/enhancer.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,33 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ enhancer.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __ENHANCER_H
-+#define __ENHANCER_H
-+
-+#include "iLBC_define.h"
-+
-+float xCorrCoef(
-+ float *target, /* (i) first array */
-+ float *regressor, /* (i) second array */
-+ int subl /* (i) dimension arrays */
-+);
-+
-+int enhancerInterface(
-+ float *out, /* (o) the enhanced recidual signal */
-+ float *in, /* (i) the recidual signal to enhance */
-+ iLBC_Dec_Inst_t *iLBCdec_inst
-+ /* (i/o) the decoder state structure */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/filter.c codecs/ilbc/filter.c
---- codecs/ilbc.orig/filter.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/filter.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,168 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ filter.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+
-+
-+#include "iLBC_define.h"
-+#include "filter.h"
-+
-+/*----------------------------------------------------------------*
-+ * all-pole filter
-+ *---------------------------------------------------------------*/
-+
-+void AllPoleFilter(
-+ float *InOut, /* (i/o) on entrance InOut[-orderCoef] to
-+ InOut[-1] contain the state of the
-+ filter (delayed samples). InOut[0] to
-+ InOut[lengthInOut-1] contain the filter
-+ input, on en exit InOut[-orderCoef] to
-+ InOut[-1] is unchanged and InOut[0] to
-+ InOut[lengthInOut-1] contain filtered
-+ samples */
-+ float *Coef,/* (i) filter coefficients, Coef[0] is assumed
-+ to be 1.0 */
-+ int lengthInOut,/* (i) number of input/output samples */
-+ int orderCoef /* (i) number of filter coefficients */
-+){
-+ int n,k;
-+
-+ for(n=0;n<lengthInOut;n++){
-+ for(k=1;k<=orderCoef;k++){
-+ *InOut -= Coef[k]*InOut[-k];
-+ }
-+ InOut++;
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * all-zero filter
-+ *---------------------------------------------------------------*/
-+
-+void AllZeroFilter(
-+ float *In, /* (i) In[0] to In[lengthInOut-1] contain
-+ filter input samples */
-+ float *Coef,/* (i) filter coefficients (Coef[0] is assumed
-+ to be 1.0) */
-+ int lengthInOut,/* (i) number of input/output samples */
-+ int orderCoef, /* (i) number of filter coefficients */
-+ float *Out /* (i/o) on entrance Out[-orderCoef] to Out[-1]
-+ contain the filter state, on exit Out[0]
-+ to Out[lengthInOut-1] contain filtered
-+ samples */
-+){
-+ int n,k;
-+
-+ for(n=0;n<lengthInOut;n++){
-+ *Out = Coef[0]*In[0];
-+ for(k=1;k<=orderCoef;k++){
-+ *Out += Coef[k]*In[-k];
-+ }
-+
-+
-+ Out++;
-+ In++;
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * pole-zero filter
-+ *---------------------------------------------------------------*/
-+
-+void ZeroPoleFilter(
-+ float *In, /* (i) In[0] to In[lengthInOut-1] contain
-+ filter input samples In[-orderCoef] to
-+ In[-1] contain state of all-zero
-+ section */
-+ float *ZeroCoef,/* (i) filter coefficients for all-zero
-+ section (ZeroCoef[0] is assumed to
-+ be 1.0) */
-+ float *PoleCoef,/* (i) filter coefficients for all-pole section
-+ (ZeroCoef[0] is assumed to be 1.0) */
-+ int lengthInOut,/* (i) number of input/output samples */
-+ int orderCoef, /* (i) number of filter coefficients */
-+ float *Out /* (i/o) on entrance Out[-orderCoef] to Out[-1]
-+ contain state of all-pole section. On
-+ exit Out[0] to Out[lengthInOut-1]
-+ contain filtered samples */
-+){
-+ AllZeroFilter(In,ZeroCoef,lengthInOut,orderCoef,Out);
-+ AllPoleFilter(Out,PoleCoef,lengthInOut,orderCoef);
-+}
-+
-+/*----------------------------------------------------------------*
-+ * downsample (LP filter and decimation)
-+ *---------------------------------------------------------------*/
-+
-+void DownSample (
-+ float *In, /* (i) input samples */
-+ float *Coef, /* (i) filter coefficients */
-+ int lengthIn, /* (i) number of input samples */
-+ float *state, /* (i) filter state */
-+ float *Out /* (o) downsampled output */
-+){
-+ float o;
-+ float *Out_ptr = Out;
-+ float *Coef_ptr, *In_ptr;
-+ float *state_ptr;
-+ int i, j, stop;
-+
-+ /* LP filter and decimate at the same time */
-+
-+ for (i = DELAY_DS; i < lengthIn; i+=FACTOR_DS)
-+ {
-+ Coef_ptr = &Coef[0];
-+ In_ptr = &In[i];
-+ state_ptr = &state[FILTERORDER_DS-2];
-+
-+
-+
-+ o = (float)0.0;
-+
-+ stop = (i < FILTERORDER_DS) ? i + 1 : FILTERORDER_DS;
-+
-+ for (j = 0; j < stop; j++)
-+ {
-+ o += *Coef_ptr++ * (*In_ptr--);
-+ }
-+ for (j = i + 1; j < FILTERORDER_DS; j++)
-+ {
-+ o += *Coef_ptr++ * (*state_ptr--);
-+ }
-+
-+ *Out_ptr++ = o;
-+ }
-+
-+ /* Get the last part (use zeros as input for the future) */
-+
-+ for (i=(lengthIn+FACTOR_DS); i<(lengthIn+DELAY_DS);
-+ i+=FACTOR_DS) {
-+
-+ o=(float)0.0;
-+
-+ if (i<lengthIn) {
-+ Coef_ptr = &Coef[0];
-+ In_ptr = &In[i];
-+ for (j=0; j<FILTERORDER_DS; j++) {
-+ o += *Coef_ptr++ * (*Out_ptr--);
-+ }
-+ } else {
-+ Coef_ptr = &Coef[i-lengthIn];
-+ In_ptr = &In[lengthIn-1];
-+ for (j=0; j<FILTERORDER_DS-(i-lengthIn); j++) {
-+ o += *Coef_ptr++ * (*In_ptr--);
-+ }
-+ }
-+ *Out_ptr++ = o;
-+ }
-+}
-+
-+
-diff -druN codecs/ilbc.orig/filter.h codecs/ilbc/filter.h
---- codecs/ilbc.orig/filter.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/filter.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,73 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ filter.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_FILTER_H
-+#define __iLBC_FILTER_H
-+
-+void AllPoleFilter(
-+ float *InOut, /* (i/o) on entrance InOut[-orderCoef] to
-+ InOut[-1] contain the state of the
-+ filter (delayed samples). InOut[0] to
-+ InOut[lengthInOut-1] contain the filter
-+ input, on en exit InOut[-orderCoef] to
-+ InOut[-1] is unchanged and InOut[0] to
-+ InOut[lengthInOut-1] contain filtered
-+ samples */
-+ float *Coef,/* (i) filter coefficients, Coef[0] is assumed
-+ to be 1.0 */
-+ int lengthInOut,/* (i) number of input/output samples */
-+ int orderCoef /* (i) number of filter coefficients */
-+);
-+
-+
-+
-+void AllZeroFilter(
-+ float *In, /* (i) In[0] to In[lengthInOut-1] contain
-+ filter input samples */
-+ float *Coef,/* (i) filter coefficients (Coef[0] is assumed
-+ to be 1.0) */
-+ int lengthInOut,/* (i) number of input/output samples */
-+ int orderCoef, /* (i) number of filter coefficients */
-+ float *Out /* (i/o) on entrance Out[-orderCoef] to Out[-1]
-+ contain the filter state, on exit Out[0]
-+ to Out[lengthInOut-1] contain filtered
-+ samples */
-+);
-+
-+void ZeroPoleFilter(
-+ float *In, /* (i) In[0] to In[lengthInOut-1] contain filter
-+ input samples In[-orderCoef] to In[-1]
-+ contain state of all-zero section */
-+ float *ZeroCoef,/* (i) filter coefficients for all-zero
-+ section (ZeroCoef[0] is assumed to
-+ be 1.0) */
-+ float *PoleCoef,/* (i) filter coefficients for all-pole section
-+ (ZeroCoef[0] is assumed to be 1.0) */
-+ int lengthInOut,/* (i) number of input/output samples */
-+ int orderCoef, /* (i) number of filter coefficients */
-+ float *Out /* (i/o) on entrance Out[-orderCoef] to Out[-1]
-+ contain state of all-pole section. On
-+ exit Out[0] to Out[lengthInOut-1]
-+ contain filtered samples */
-+);
-+
-+void DownSample (
-+ float *In, /* (i) input samples */
-+ float *Coef, /* (i) filter coefficients */
-+ int lengthIn, /* (i) number of input samples */
-+ float *state, /* (i) filter state */
-+ float *Out /* (o) downsampled output */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/gainquant.c codecs/ilbc/gainquant.c
---- codecs/ilbc.orig/gainquant.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/gainquant.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,107 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ gainquant.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+
-+
-+******************************************************************/
-+
-+#include <string.h>
-+#include <math.h>
-+#include "constants.h"
-+#include "gainquant.h"
-+#include "filter.h"
-+
-+/*----------------------------------------------------------------*
-+ * quantizer for the gain in the gain-shape coding of residual
-+ *---------------------------------------------------------------*/
-+
-+float gainquant(/* (o) quantized gain value */
-+ float in, /* (i) gain value */
-+ float maxIn,/* (i) maximum of gain value */
-+ int cblen, /* (i) number of quantization indices */
-+ int *index /* (o) quantization index */
-+){
-+ int i, tindex;
-+ float minmeasure,measure, *cb, scale;
-+
-+ /* ensure a lower bound on the scaling factor */
-+
-+ scale=maxIn;
-+
-+ if (scale<0.1) {
-+ scale=(float)0.1;
-+ }
-+
-+ /* select the quantization table */
-+
-+ if (cblen == 8) {
-+ cb = gain_sq3Tbl;
-+ } else if (cblen == 16) {
-+ cb = gain_sq4Tbl;
-+ } else {
-+ cb = gain_sq5Tbl;
-+ }
-+
-+ /* select the best index in the quantization table */
-+
-+ minmeasure=10000000.0;
-+ tindex=0;
-+ for (i=0; i<cblen; i++) {
-+ measure=(in-scale*cb[i])*(in-scale*cb[i]);
-+
-+ if (measure<minmeasure) {
-+ tindex=i;
-+ minmeasure=measure;
-+ }
-+ }
-+ *index=tindex;
-+
-+ /* return the quantized value */
-+
-+
-+
-+ return scale*cb[tindex];
-+}
-+
-+/*----------------------------------------------------------------*
-+ * decoder for quantized gains in the gain-shape coding of
-+ * residual
-+ *---------------------------------------------------------------*/
-+
-+float gaindequant( /* (o) quantized gain value */
-+ int index, /* (i) quantization index */
-+ float maxIn,/* (i) maximum of unquantized gain */
-+ int cblen /* (i) number of quantization indices */
-+){
-+ float scale;
-+
-+ /* obtain correct scale factor */
-+
-+ scale=(float)fabs(maxIn);
-+
-+ if (scale<0.1) {
-+ scale=(float)0.1;
-+ }
-+
-+ /* select the quantization table and return the decoded value */
-+
-+ if (cblen==8) {
-+ return scale*gain_sq3Tbl[index];
-+ } else if (cblen==16) {
-+ return scale*gain_sq4Tbl[index];
-+ }
-+ else if (cblen==32) {
-+ return scale*gain_sq5Tbl[index];
-+ }
-+
-+ return 0.0;
-+}
-+
-+
-diff -druN codecs/ilbc.orig/gainquant.h codecs/ilbc/gainquant.h
---- codecs/ilbc.orig/gainquant.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/gainquant.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,31 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ gainquant.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_GAINQUANT_H
-+#define __iLBC_GAINQUANT_H
-+
-+float gainquant(/* (o) quantized gain value */
-+ float in, /* (i) gain value */
-+ float maxIn,/* (i) maximum of gain value */
-+ int cblen, /* (i) number of quantization indices */
-+ int *index /* (o) quantization index */
-+);
-+
-+float gaindequant( /* (o) quantized gain value */
-+ int index, /* (i) quantization index */
-+ float maxIn,/* (i) maximum of unquantized gain */
-+ int cblen /* (i) number of quantization indices */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/getCBvec.c codecs/ilbc/getCBvec.c
---- codecs/ilbc.orig/getCBvec.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/getCBvec.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,181 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ getCBvec.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include "iLBC_define.h"
-+#include "getCBvec.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 codebbok 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));
-+ }
-+ }
-+}
-+
-+
-diff -druN codecs/ilbc.orig/getCBvec.h codecs/ilbc/getCBvec.h
---- codecs/ilbc.orig/getCBvec.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/getCBvec.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,28 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ getCBvec.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_GETCBVEC_H
-+#define __iLBC_GETCBVEC_H
-+
-+
-+
-+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 */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/helpfun.c codecs/ilbc/helpfun.c
---- codecs/ilbc.orig/helpfun.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/helpfun.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,308 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ helpfun.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+
-+#include "iLBC_define.h"
-+#include "helpfun.h"
-+#include "constants.h"
-+
-+/*----------------------------------------------------------------*
-+ * calculation of auto correlation
-+ *---------------------------------------------------------------*/
-+
-+void autocorr(
-+ float *r, /* (o) autocorrelation vector */
-+ const float *x, /* (i) data vector */
-+ int N, /* (i) length of data vector */
-+ int order /* largest lag for calculated
-+ autocorrelations */
-+){
-+ int lag, n;
-+ float sum;
-+
-+ for (lag = 0; lag <= order; lag++) {
-+ sum = 0;
-+ for (n = 0; n < N - lag; n++) {
-+ sum += x[n] * x[n+lag];
-+ }
-+ r[lag] = sum;
-+ }
-+}
-+
-+
-+
-+/*----------------------------------------------------------------*
-+ * window multiplication
-+ *---------------------------------------------------------------*/
-+
-+void window(
-+ float *z, /* (o) the windowed data */
-+ const float *x, /* (i) the original data vector */
-+ const float *y, /* (i) the window */
-+ int N /* (i) length of all vectors */
-+){
-+ int i;
-+
-+ for (i = 0; i < N; i++) {
-+ z[i] = x[i] * y[i];
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * levinson-durbin solution for lpc coefficients
-+ *---------------------------------------------------------------*/
-+
-+void levdurb(
-+ float *a, /* (o) lpc coefficient vector starting
-+ with 1.0 */
-+ float *k, /* (o) reflection coefficients */
-+ float *r, /* (i) autocorrelation vector */
-+ int order /* (i) order of lpc filter */
-+){
-+ float sum, alpha;
-+ int m, m_h, i;
-+
-+ a[0] = 1.0;
-+
-+ if (r[0] < EPS) { /* if r[0] <= 0, set LPC coeff. to zero */
-+ for (i = 0; i < order; i++) {
-+ k[i] = 0;
-+ a[i+1] = 0;
-+ }
-+ } else {
-+ a[1] = k[0] = -r[1]/r[0];
-+ alpha = r[0] + r[1] * k[0];
-+ for (m = 1; m < order; m++){
-+ sum = r[m + 1];
-+ for (i = 0; i < m; i++){
-+ sum += a[i+1] * r[m - i];
-+ }
-+ k[m] = -sum / alpha;
-+ alpha += k[m] * sum;
-+ m_h = (m + 1) >> 1;
-+ for (i = 0; i < m_h; i++){
-+ sum = a[i+1] + k[m] * a[m - i];
-+ a[m - i] += k[m] * a[i+1];
-+ a[i+1] = sum;
-+
-+
-+ }
-+ a[m+1] = k[m];
-+ }
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * interpolation between vectors
-+ *---------------------------------------------------------------*/
-+
-+void interpolate(
-+ float *out, /* (o) the interpolated vector */
-+ float *in1, /* (i) the first vector for the
-+ interpolation */
-+ float *in2, /* (i) the second vector for the
-+ interpolation */
-+ float coef, /* (i) interpolation weights */
-+ int length /* (i) length of all vectors */
-+){
-+ int i;
-+ float invcoef;
-+
-+ invcoef = (float)1.0 - coef;
-+ for (i = 0; i < length; i++) {
-+ out[i] = coef * in1[i] + invcoef * in2[i];
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * lpc bandwidth expansion
-+ *---------------------------------------------------------------*/
-+
-+void bwexpand(
-+ float *out, /* (o) the bandwidth expanded lpc
-+ coefficients */
-+ float *in, /* (i) the lpc coefficients before bandwidth
-+ expansion */
-+ float coef, /* (i) the bandwidth expansion factor */
-+ int length /* (i) the length of lpc coefficient vectors */
-+){
-+ int i;
-+ float chirp;
-+
-+ chirp = coef;
-+
-+ out[0] = in[0];
-+ for (i = 1; i < length; i++) {
-+ out[i] = chirp * in[i];
-+ chirp *= coef;
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * vector quantization
-+
-+
-+ *---------------------------------------------------------------*/
-+
-+void vq(
-+ float *Xq, /* (o) the quantized vector */
-+ int *index, /* (o) the quantization index */
-+ const float *CB,/* (i) the vector quantization codebook */
-+ float *X, /* (i) the vector to quantize */
-+ int n_cb, /* (i) the number of vectors in the codebook */
-+ int dim /* (i) the dimension of all vectors */
-+){
-+ int i, j;
-+ int pos, minindex;
-+ float dist, tmp, mindist;
-+
-+ pos = 0;
-+ mindist = FLOAT_MAX;
-+ minindex = 0;
-+ for (j = 0; j < n_cb; j++) {
-+ dist = X[0] - CB[pos];
-+ dist *= dist;
-+ for (i = 1; i < dim; i++) {
-+ tmp = X[i] - CB[pos + i];
-+ dist += tmp*tmp;
-+ }
-+
-+ if (dist < mindist) {
-+ mindist = dist;
-+ minindex = j;
-+ }
-+ pos += dim;
-+ }
-+ for (i = 0; i < dim; i++) {
-+ Xq[i] = CB[minindex*dim + i];
-+ }
-+ *index = minindex;
-+}
-+
-+/*----------------------------------------------------------------*
-+ * split vector quantization
-+ *---------------------------------------------------------------*/
-+
-+void SplitVQ(
-+ float *qX, /* (o) the quantized vector */
-+ int *index, /* (o) a vector of indexes for all vector
-+ codebooks in the split */
-+ float *X, /* (i) the vector to quantize */
-+ const float *CB,/* (i) the quantizer codebook */
-+ int nsplit, /* the number of vector splits */
-+ const int *dim, /* the dimension of X and qX */
-+ const int *cbsize /* the number of vectors in the codebook */
-+){
-+ int cb_pos, X_pos, i;
-+
-+ cb_pos = 0;
-+
-+
-+ X_pos= 0;
-+ for (i = 0; i < nsplit; i++) {
-+ vq(qX + X_pos, index + i, CB + cb_pos, X + X_pos,
-+ cbsize[i], dim[i]);
-+ X_pos += dim[i];
-+ cb_pos += dim[i] * cbsize[i];
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * scalar quantization
-+ *---------------------------------------------------------------*/
-+
-+void sort_sq(
-+ float *xq, /* (o) the quantized value */
-+ int *index, /* (o) the quantization index */
-+ float x, /* (i) the value to quantize */
-+ const float *cb,/* (i) the quantization codebook */
-+ int cb_size /* (i) the size of the quantization codebook */
-+){
-+ int i;
-+
-+ if (x <= cb[0]) {
-+ *index = 0;
-+ *xq = cb[0];
-+ } else {
-+ i = 0;
-+ while ((x > cb[i]) && i < cb_size - 1) {
-+ i++;
-+ }
-+
-+ if (x > ((cb[i] + cb[i - 1])/2)) {
-+ *index = i;
-+ *xq = cb[i];
-+ } else {
-+ *index = i - 1;
-+ *xq = cb[i - 1];
-+ }
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * check for stability of lsf coefficients
-+ *---------------------------------------------------------------*/
-+
-+int LSF_check( /* (o) 1 for stable lsf vectors and 0 for
-+ nonstable ones */
-+ float *lsf, /* (i) a table of lsf vectors */
-+ int dim, /* (i) the dimension of each lsf vector */
-+ int NoAn /* (i) the number of lsf vectors in the
-+ table */
-+){
-+ int k,n,m, Nit=2, change=0,pos;
-+ float tmp;
-+
-+
-+ static float eps=(float)0.039; /* 50 Hz */
-+ static float eps2=(float)0.0195;
-+ static float maxlsf=(float)3.14; /* 4000 Hz */
-+ static float minlsf=(float)0.01; /* 0 Hz */
-+
-+ /* LSF separation check*/
-+
-+ for (n=0; n<Nit; n++) { /* Run through a couple of times */
-+ for (m=0; m<NoAn; m++) { /* Number of analyses per frame */
-+ for (k=0; k<(dim-1); k++) {
-+ pos=m*dim+k;
-+
-+ if ((lsf[pos+1]-lsf[pos])<eps) {
-+
-+ if (lsf[pos+1]<lsf[pos]) {
-+ tmp=lsf[pos+1];
-+ lsf[pos+1]= lsf[pos]+eps2;
-+ lsf[pos]= lsf[pos+1]-eps2;
-+ } else {
-+ lsf[pos]-=eps2;
-+ lsf[pos+1]+=eps2;
-+ }
-+ change=1;
-+ }
-+
-+ if (lsf[pos]<minlsf) {
-+ lsf[pos]=minlsf;
-+ change=1;
-+ }
-+
-+ if (lsf[pos]>maxlsf) {
-+ lsf[pos]=maxlsf;
-+ change=1;
-+ }
-+ }
-+ }
-+ }
-+
-+ return change;
-+}
-+
-+
-diff -druN codecs/ilbc.orig/helpfun.h codecs/ilbc/helpfun.h
---- codecs/ilbc.orig/helpfun.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/helpfun.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,101 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ helpfun.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_HELPFUN_H
-+#define __iLBC_HELPFUN_H
-+
-+void autocorr(
-+ float *r, /* (o) autocorrelation vector */
-+ const float *x, /* (i) data vector */
-+ int N, /* (i) length of data vector */
-+ int order /* largest lag for calculated
-+ autocorrelations */
-+);
-+
-+void window(
-+ float *z, /* (o) the windowed data */
-+ const float *x, /* (i) the original data vector */
-+ const float *y, /* (i) the window */
-+ int N /* (i) length of all vectors */
-+);
-+
-+
-+
-+void levdurb(
-+ float *a, /* (o) lpc coefficient vector starting
-+ with 1.0 */
-+ float *k, /* (o) reflection coefficients */
-+ float *r, /* (i) autocorrelation vector */
-+ int order /* (i) order of lpc filter */
-+);
-+
-+void interpolate(
-+ float *out, /* (o) the interpolated vector */
-+ float *in1, /* (i) the first vector for the
-+ interpolation */
-+ float *in2, /* (i) the second vector for the
-+ interpolation */
-+ float coef, /* (i) interpolation weights */
-+ int length /* (i) length of all vectors */
-+);
-+
-+void bwexpand(
-+ float *out, /* (o) the bandwidth expanded lpc
-+ coefficients */
-+ float *in, /* (i) the lpc coefficients before bandwidth
-+ expansion */
-+ float coef, /* (i) the bandwidth expansion factor */
-+ int length /* (i) the length of lpc coefficient vectors */
-+);
-+
-+void vq(
-+ float *Xq, /* (o) the quantized vector */
-+ int *index, /* (o) the quantization index */
-+ const float *CB,/* (i) the vector quantization codebook */
-+ float *X, /* (i) the vector to quantize */
-+ int n_cb, /* (i) the number of vectors in the codebook */
-+ int dim /* (i) the dimension of all vectors */
-+);
-+
-+void SplitVQ(
-+ float *qX, /* (o) the quantized vector */
-+ int *index, /* (o) a vector of indexes for all vector
-+ codebooks in the split */
-+ float *X, /* (i) the vector to quantize */
-+ const float *CB,/* (i) the quantizer codebook */
-+ int nsplit, /* the number of vector splits */
-+ const int *dim, /* the dimension of X and qX */
-+ const int *cbsize /* the number of vectors in the codebook */
-+);
-+
-+
-+void sort_sq(
-+ float *xq, /* (o) the quantized value */
-+ int *index, /* (o) the quantization index */
-+ float x, /* (i) the value to quantize */
-+ const float *cb,/* (i) the quantization codebook */
-+
-+
-+ int cb_size /* (i) the size of the quantization codebook */
-+);
-+
-+int LSF_check( /* (o) 1 for stable lsf vectors and 0 for
-+ nonstable ones */
-+ float *lsf, /* (i) a table of lsf vectors */
-+ int dim, /* (i) the dimension of each lsf vector */
-+ int NoAn /* (i) the number of lsf vectors in the
-+ table */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/hpInput.c codecs/ilbc/hpInput.c
---- codecs/ilbc.orig/hpInput.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/hpInput.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,60 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ hpInput.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include "constants.h"
-+#include "hpInput.h"
-+
-+/*----------------------------------------------------------------*
-+ * Input high-pass filter
-+ *---------------------------------------------------------------*/
-+
-+void hpInput(
-+ float *In, /* (i) vector to filter */
-+ int len, /* (i) length of vector to filter */
-+ float *Out, /* (o) the resulting filtered vector */
-+ float *mem /* (i/o) the filter state */
-+){
-+ int i;
-+ float *pi, *po;
-+
-+ /* all-zero section*/
-+
-+ pi = &In[0];
-+ po = &Out[0];
-+ for (i=0; i<len; i++) {
-+ *po = hpi_zero_coefsTbl[0] * (*pi);
-+ *po += hpi_zero_coefsTbl[1] * mem[0];
-+ *po += hpi_zero_coefsTbl[2] * mem[1];
-+
-+ mem[1] = mem[0];
-+ mem[0] = *pi;
-+ po++;
-+
-+
-+ pi++;
-+
-+ }
-+
-+ /* all-pole section*/
-+
-+ po = &Out[0];
-+ for (i=0; i<len; i++) {
-+ *po -= hpi_pole_coefsTbl[1] * mem[2];
-+ *po -= hpi_pole_coefsTbl[2] * mem[3];
-+
-+ mem[3] = mem[2];
-+ mem[2] = *po;
-+ po++;
-+ }
-+}
-+
-+
-diff -druN codecs/ilbc.orig/hpInput.h codecs/ilbc/hpInput.h
---- codecs/ilbc.orig/hpInput.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/hpInput.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,27 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ hpInput.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+
-+
-+#ifndef __iLBC_HPINPUT_H
-+#define __iLBC_HPINPUT_H
-+
-+void hpInput(
-+ float *In, /* (i) vector to filter */
-+ int len, /* (i) length of vector to filter */
-+ float *Out, /* (o) the resulting filtered vector */
-+ float *mem /* (i/o) the filter state */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/hpOutput.c codecs/ilbc/hpOutput.c
---- codecs/ilbc.orig/hpOutput.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/hpOutput.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,59 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ hpOutput.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+
-+
-+******************************************************************/
-+
-+#include "constants.h"
-+#include "hpOutput.h"
-+/*----------------------------------------------------------------*
-+ * Output high-pass filter
-+ *---------------------------------------------------------------*/
-+
-+void hpOutput(
-+ float *In, /* (i) vector to filter */
-+ int len,/* (i) length of vector to filter */
-+ float *Out, /* (o) the resulting filtered vector */
-+ float *mem /* (i/o) the filter state */
-+){
-+ int i;
-+ float *pi, *po;
-+
-+ /* all-zero section*/
-+
-+ pi = &In[0];
-+ po = &Out[0];
-+ for (i=0; i<len; i++) {
-+ *po = hpo_zero_coefsTbl[0] * (*pi);
-+ *po += hpo_zero_coefsTbl[1] * mem[0];
-+ *po += hpo_zero_coefsTbl[2] * mem[1];
-+
-+ mem[1] = mem[0];
-+ mem[0] = *pi;
-+ po++;
-+ pi++;
-+
-+ }
-+
-+ /* all-pole section*/
-+
-+ po = &Out[0];
-+ for (i=0; i<len; i++) {
-+ *po -= hpo_pole_coefsTbl[1] * mem[2];
-+ *po -= hpo_pole_coefsTbl[2] * mem[3];
-+
-+ mem[3] = mem[2];
-+ mem[2] = *po;
-+ po++;
-+ }
-+}
-+
-+
-diff -druN codecs/ilbc.orig/hpOutput.h codecs/ilbc/hpOutput.h
---- codecs/ilbc.orig/hpOutput.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/hpOutput.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,25 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ hpOutput.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_HPOUTPUT_H
-+#define __iLBC_HPOUTPUT_H
-+
-+void hpOutput(
-+ float *In, /* (i) vector to filter */
-+ int len,/* (i) length of vector to filter */
-+ float *Out, /* (o) the resulting filtered vector */
-+ float *mem /* (i/o) the filter state */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/iCBConstruct.c codecs/ilbc/iCBConstruct.c
---- codecs/ilbc.orig/iCBConstruct.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/iCBConstruct.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,108 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ iCBConstruct.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+
-+#include "iLBC_define.h"
-+#include "iCBConstruct.h"
-+#include "gainquant.h"
-+#include "getCBvec.h"
-+
-+/*----------------------------------------------------------------*
-+ * Convert the codebook indexes to make the search easier
-+ *---------------------------------------------------------------*/
-+
-+
-+
-+void index_conv_enc(
-+ int *index /* (i/o) Codebook indexes */
-+){
-+ int k;
-+
-+ for (k=1; k<CB_NSTAGES; k++) {
-+
-+ if ((index[k]>=108)&&(index[k]<172)) {
-+ index[k]-=64;
-+ } else if (index[k]>=236) {
-+ index[k]-=128;
-+ } else {
-+ /* ERROR */
-+ }
-+ }
-+}
-+
-+void index_conv_dec(
-+ int *index /* (i/o) Codebook indexes */
-+){
-+ int k;
-+
-+ for (k=1; k<CB_NSTAGES; k++) {
-+
-+ if ((index[k]>=44)&&(index[k]<108)) {
-+ index[k]+=64;
-+ } else if ((index[k]>=108)&&(index[k]<128)) {
-+ index[k]+=128;
-+ } else {
-+ /* ERROR */
-+ }
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * Construct decoded vector from codebook and gains.
-+ *---------------------------------------------------------------*/
-+
-+void iCBConstruct(
-+ float *decvector, /* (o) Decoded vector */
-+ int *index, /* (i) Codebook indices */
-+ int *gain_index,/* (i) Gain quantization indices */
-+ float *mem, /* (i) Buffer for codevector construction */
-+ int lMem, /* (i) Length of buffer */
-+ int veclen, /* (i) Length of vector */
-+ int nStages /* (i) Number of codebook stages */
-+){
-+ int j,k;
-+ float gain[CB_NSTAGES];
-+ float cbvec[SUBL];
-+
-+ /* gain de-quantization */
-+
-+ gain[0] = gaindequant(gain_index[0], 1.0, 32);
-+
-+
-+ if (nStages > 1) {
-+ gain[1] = gaindequant(gain_index[1],
-+ (float)fabs(gain[0]), 16);
-+ }
-+ if (nStages > 2) {
-+ gain[2] = gaindequant(gain_index[2],
-+ (float)fabs(gain[1]), 8);
-+ }
-+
-+ /* codebook vector construction and construction of
-+ total vector */
-+
-+ getCBvec(cbvec, mem, index[0], lMem, veclen);
-+ for (j=0;j<veclen;j++){
-+ decvector[j] = gain[0]*cbvec[j];
-+ }
-+ if (nStages > 1) {
-+ for (k=1; k<nStages; k++) {
-+ getCBvec(cbvec, mem, index[k], lMem, veclen);
-+ for (j=0;j<veclen;j++) {
-+ decvector[j] += gain[k]*cbvec[j];
-+ }
-+ }
-+ }
-+}
-+
-+
-diff -druN codecs/ilbc.orig/iCBConstruct.h codecs/ilbc/iCBConstruct.h
---- codecs/ilbc.orig/iCBConstruct.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/iCBConstruct.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,38 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+
-+
-+ iCBConstruct.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_ICBCONSTRUCT_H
-+#define __iLBC_ICBCONSTRUCT_H
-+
-+void index_conv_enc(
-+ int *index /* (i/o) Codebook indexes */
-+);
-+
-+void index_conv_dec(
-+ int *index /* (i/o) Codebook indexes */
-+);
-+
-+void iCBConstruct(
-+ float *decvector, /* (o) Decoded vector */
-+ int *index, /* (i) Codebook indices */
-+ int *gain_index,/* (i) Gain quantization indices */
-+ float *mem, /* (i) Buffer for codevector construction */
-+ int lMem, /* (i) Length of buffer */
-+ int veclen, /* (i) Length of vector */
-+ int nStages /* (i) Number of codebook stages */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/iCBSearch.c codecs/ilbc/iCBSearch.c
---- codecs/ilbc.orig/iCBSearch.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/iCBSearch.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,480 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ iCBSearch.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+#include <string.h>
-+
-+#include "iLBC_define.h"
-+#include "iCBSearch.h"
-+#include "gainquant.h"
-+#include "createCB.h"
-+#include "filter.h"
-+#include "constants.h"
-+
-+/*----------------------------------------------------------------*
-+ * Search routine for codebook encoding and gain quantization.
-+ *---------------------------------------------------------------*/
-+
-+void iCBSearch(
-+ iLBC_Enc_Inst_t *iLBCenc_inst,
-+ /* (i) the encoder state structure */
-+ int *index, /* (o) Codebook indices */
-+ int *gain_index,/* (o) Gain quantization indices */
-+ float *intarget,/* (i) Target vector for encoding */
-+ float *mem, /* (i) Buffer for codebook construction */
-+ int lMem, /* (i) Length of buffer */
-+ int lTarget, /* (i) Length of vector */
-+ int nStages, /* (i) Number of codebook stages */
-+ float *weightDenum, /* (i) weighting filter coefficients */
-+ float *weightState, /* (i) weighting filter state */
-+ int block /* (i) the sub-block number */
-+){
-+ int i, j, icount, stage, best_index, range, counter;
-+ float max_measure, gain, measure, crossDot, ftmp;
-+ float gains[CB_NSTAGES];
-+ float target[SUBL];
-+ int base_index, sInd, eInd, base_size;
-+ int sIndAug=0, eIndAug=0;
-+ float buf[CB_MEML+SUBL+2*LPC_FILTERORDER];
-+
-+
-+ float invenergy[CB_EXPAND*128], energy[CB_EXPAND*128];
-+ float *pp, *ppi=0, *ppo=0, *ppe=0;
-+ float cbvectors[CB_MEML];
-+ float tene, cene, cvec[SUBL];
-+ float aug_vec[SUBL];
-+
-+ memset(cvec,0,SUBL*sizeof(float));
-+
-+ /* Determine size of codebook sections */
-+
-+ base_size=lMem-lTarget+1;
-+
-+ if (lTarget==SUBL) {
-+ base_size=lMem-lTarget+1+lTarget/2;
-+ }
-+
-+ /* setup buffer for weighting */
-+
-+ memcpy(buf,weightState,sizeof(float)*LPC_FILTERORDER);
-+ memcpy(buf+LPC_FILTERORDER,mem,lMem*sizeof(float));
-+ memcpy(buf+LPC_FILTERORDER+lMem,intarget,lTarget*sizeof(float));
-+
-+ /* weighting */
-+
-+ AllPoleFilter(buf+LPC_FILTERORDER, weightDenum,
-+ lMem+lTarget, LPC_FILTERORDER);
-+
-+ /* Construct the codebook and target needed */
-+
-+ memcpy(target, buf+LPC_FILTERORDER+lMem, lTarget*sizeof(float));
-+
-+ tene=0.0;
-+ for (i=0; i<lTarget; i++) {
-+ tene+=target[i]*target[i];
-+ }
-+
-+ /* Prepare search over one more codebook section. This section
-+ is created by filtering the original buffer with a filter. */
-+
-+ filteredCBvecs(cbvectors, buf+LPC_FILTERORDER, lMem);
-+
-+ /* The Main Loop over stages */
-+
-+ for (stage=0; stage<nStages; stage++) {
-+
-+ range = search_rangeTbl[block][stage];
-+
-+ /* initialize search measure */
-+
-+ max_measure = (float)-10000000.0;
-+ gain = (float)0.0;
-+ best_index = 0;
-+
-+ /* Compute cross dot product between the target
-+
-+
-+ and the CB memory */
-+
-+ crossDot=0.0;
-+ pp=buf+LPC_FILTERORDER+lMem-lTarget;
-+ for (j=0; j<lTarget; j++) {
-+ crossDot += target[j]*(*pp++);
-+ }
-+
-+ if (stage==0) {
-+
-+ /* Calculate energy in the first block of
-+ 'lTarget' sampels. */
-+ ppe = energy;
-+ ppi = buf+LPC_FILTERORDER+lMem-lTarget-1;
-+ ppo = buf+LPC_FILTERORDER+lMem-1;
-+
-+ *ppe=0.0;
-+ pp=buf+LPC_FILTERORDER+lMem-lTarget;
-+ for (j=0; j<lTarget; j++) {
-+ *ppe+=(*pp)*(*pp);
-+ pp++;
-+ }
-+
-+ if (*ppe>0.0) {
-+ invenergy[0] = (float) 1.0 / (*ppe + EPS);
-+ } else {
-+ invenergy[0] = (float) 0.0;
-+ }
-+ ppe++;
-+
-+ measure=(float)-10000000.0;
-+
-+ if (crossDot > 0.0) {
-+ measure = crossDot*crossDot*invenergy[0];
-+ }
-+ }
-+ else {
-+ measure = crossDot*crossDot*invenergy[0];
-+ }
-+
-+ /* check if measure is better */
-+ ftmp = crossDot*invenergy[0];
-+
-+ if ((measure>max_measure) && (fabs(ftmp)<CB_MAXGAIN)) {
-+ best_index = 0;
-+ max_measure = measure;
-+ gain = ftmp;
-+ }
-+
-+ /* loop over the main first codebook section,
-+ full search */
-+
-+ for (icount=1; icount<range; icount++) {
-+
-+ /* calculate measure */
-+
-+
-+
-+ crossDot=0.0;
-+ pp = buf+LPC_FILTERORDER+lMem-lTarget-icount;
-+
-+ for (j=0; j<lTarget; j++) {
-+ crossDot += target[j]*(*pp++);
-+ }
-+
-+ if (stage==0) {
-+ *ppe++ = energy[icount-1] + (*ppi)*(*ppi) -
-+ (*ppo)*(*ppo);
-+ ppo--;
-+ ppi--;
-+
-+ if (energy[icount]>0.0) {
-+ invenergy[icount] =
-+ (float)1.0/(energy[icount]+EPS);
-+ } else {
-+ invenergy[icount] = (float) 0.0;
-+ }
-+
-+ measure=(float)-10000000.0;
-+
-+ if (crossDot > 0.0) {
-+ measure = crossDot*crossDot*invenergy[icount];
-+ }
-+ }
-+ else {
-+ measure = crossDot*crossDot*invenergy[icount];
-+ }
-+
-+ /* check if measure is better */
-+ ftmp = crossDot*invenergy[icount];
-+
-+ if ((measure>max_measure) && (fabs(ftmp)<CB_MAXGAIN)) {
-+ best_index = icount;
-+ max_measure = measure;
-+ gain = ftmp;
-+ }
-+ }
-+
-+ /* Loop over augmented part in the first codebook
-+ * section, full search.
-+ * The vectors are interpolated.
-+ */
-+
-+ if (lTarget==SUBL) {
-+
-+ /* Search for best possible cb vector and
-+ compute the CB-vectors' energy. */
-+ searchAugmentedCB(20, 39, stage, base_size-lTarget/2,
-+ target, buf+LPC_FILTERORDER+lMem,
-+ &max_measure, &best_index, &gain, energy,
-+ invenergy);
-+
-+
-+ }
-+
-+ /* set search range for following codebook sections */
-+
-+ base_index=best_index;
-+
-+ /* unrestricted search */
-+
-+ if (CB_RESRANGE == -1) {
-+ sInd=0;
-+ eInd=range-1;
-+ sIndAug=20;
-+ eIndAug=39;
-+ }
-+
-+ /* restriced search around best index from first
-+ codebook section */
-+
-+ else {
-+ /* Initialize search indices */
-+ sIndAug=0;
-+ eIndAug=0;
-+ sInd=base_index-CB_RESRANGE/2;
-+ eInd=sInd+CB_RESRANGE;
-+
-+ if (lTarget==SUBL) {
-+
-+ if (sInd<0) {
-+
-+ sIndAug = 40 + sInd;
-+ eIndAug = 39;
-+ sInd=0;
-+
-+ } else if ( base_index < (base_size-20) ) {
-+
-+ if (eInd > range) {
-+ sInd -= (eInd-range);
-+ eInd = range;
-+ }
-+ } else { /* base_index >= (base_size-20) */
-+
-+ if (sInd < (base_size-20)) {
-+ sIndAug = 20;
-+ sInd = 0;
-+ eInd = 0;
-+ eIndAug = 19 + CB_RESRANGE;
-+
-+ if(eIndAug > 39) {
-+ eInd = eIndAug-39;
-+ eIndAug = 39;
-+ }
-+ } else {
-+ sIndAug = 20 + sInd - (base_size-20);
-+ eIndAug = 39;
-+
-+
-+ sInd = 0;
-+ eInd = CB_RESRANGE - (eIndAug-sIndAug+1);
-+ }
-+ }
-+
-+ } else { /* lTarget = 22 or 23 */
-+
-+ if (sInd < 0) {
-+ eInd -= sInd;
-+ sInd = 0;
-+ }
-+
-+ if(eInd > range) {
-+ sInd -= (eInd - range);
-+ eInd = range;
-+ }
-+ }
-+ }
-+
-+ /* search of higher codebook section */
-+
-+ /* index search range */
-+ counter = sInd;
-+ sInd += base_size;
-+ eInd += base_size;
-+
-+
-+ if (stage==0) {
-+ ppe = energy+base_size;
-+ *ppe=0.0;
-+
-+ pp=cbvectors+lMem-lTarget;
-+ for (j=0; j<lTarget; j++) {
-+ *ppe+=(*pp)*(*pp);
-+ pp++;
-+ }
-+
-+ ppi = cbvectors + lMem - 1 - lTarget;
-+ ppo = cbvectors + lMem - 1;
-+
-+ for (j=0; j<(range-1); j++) {
-+ *(ppe+1) = *ppe + (*ppi)*(*ppi) - (*ppo)*(*ppo);
-+ ppo--;
-+ ppi--;
-+ ppe++;
-+ }
-+ }
-+
-+ /* loop over search range */
-+
-+ for (icount=sInd; icount<eInd; icount++) {
-+
-+ /* calculate measure */
-+
-+ crossDot=0.0;
-+
-+
-+ pp=cbvectors + lMem - (counter++) - lTarget;
-+
-+ for (j=0;j<lTarget;j++) {
-+ crossDot += target[j]*(*pp++);
-+ }
-+
-+ if (energy[icount]>0.0) {
-+ invenergy[icount] =(float)1.0/(energy[icount]+EPS);
-+ } else {
-+ invenergy[icount] =(float)0.0;
-+ }
-+
-+ if (stage==0) {
-+
-+ measure=(float)-10000000.0;
-+
-+ if (crossDot > 0.0) {
-+ measure = crossDot*crossDot*
-+ invenergy[icount];
-+ }
-+ }
-+ else {
-+ measure = crossDot*crossDot*invenergy[icount];
-+ }
-+
-+ /* check if measure is better */
-+ ftmp = crossDot*invenergy[icount];
-+
-+ if ((measure>max_measure) && (fabs(ftmp)<CB_MAXGAIN)) {
-+ best_index = icount;
-+ max_measure = measure;
-+ gain = ftmp;
-+ }
-+ }
-+
-+ /* Search the augmented CB inside the limited range. */
-+
-+ if ((lTarget==SUBL)&&(sIndAug!=0)) {
-+ searchAugmentedCB(sIndAug, eIndAug, stage,
-+ 2*base_size-20, target, cbvectors+lMem,
-+ &max_measure, &best_index, &gain, energy,
-+ invenergy);
-+ }
-+
-+ /* record best index */
-+
-+ index[stage] = best_index;
-+
-+ /* gain quantization */
-+
-+ if (stage==0){
-+
-+ if (gain<0.0){
-+ gain = 0.0;
-+
-+
-+ }
-+
-+ if (gain>CB_MAXGAIN) {
-+ gain = (float)CB_MAXGAIN;
-+ }
-+ gain = gainquant(gain, 1.0, 32, &gain_index[stage]);
-+ }
-+ else {
-+ if (stage==1) {
-+ gain = gainquant(gain, (float)fabs(gains[stage-1]),
-+ 16, &gain_index[stage]);
-+ } else {
-+ gain = gainquant(gain, (float)fabs(gains[stage-1]),
-+ 8, &gain_index[stage]);
-+ }
-+ }
-+
-+ /* Extract the best (according to measure)
-+ codebook vector */
-+
-+ if (lTarget==(STATE_LEN-iLBCenc_inst->state_short_len)) {
-+
-+ if (index[stage]<base_size) {
-+ pp=buf+LPC_FILTERORDER+lMem-lTarget-index[stage];
-+ } else {
-+ pp=cbvectors+lMem-lTarget-
-+ index[stage]+base_size;
-+ }
-+ } else {
-+
-+ if (index[stage]<base_size) {
-+ if (index[stage]<(base_size-20)) {
-+ pp=buf+LPC_FILTERORDER+lMem-
-+ lTarget-index[stage];
-+ } else {
-+ createAugmentedVec(index[stage]-base_size+40,
-+ buf+LPC_FILTERORDER+lMem,aug_vec);
-+ pp=aug_vec;
-+ }
-+ } else {
-+ int filterno, position;
-+
-+ filterno=index[stage]/base_size;
-+ position=index[stage]-filterno*base_size;
-+
-+
-+ if (position<(base_size-20)) {
-+ pp=cbvectors+filterno*lMem-lTarget-
-+ index[stage]+filterno*base_size;
-+ } else {
-+ createAugmentedVec(
-+ index[stage]-(filterno+1)*base_size+40,
-+ cbvectors+filterno*lMem,aug_vec);
-+ pp=aug_vec;
-+
-+
-+ }
-+ }
-+ }
-+
-+ /* Subtract the best codebook vector, according
-+ to measure, from the target vector */
-+
-+ for (j=0;j<lTarget;j++) {
-+ cvec[j] += gain*(*pp);
-+ target[j] -= gain*(*pp++);
-+ }
-+
-+ /* record quantized gain */
-+
-+ gains[stage]=gain;
-+
-+ }/* end of Main Loop. for (stage=0;... */
-+
-+ /* Gain adjustment for energy matching */
-+ cene=0.0;
-+ for (i=0; i<lTarget; i++) {
-+ cene+=cvec[i]*cvec[i];
-+ }
-+ j=gain_index[0];
-+
-+ for (i=gain_index[0]; i<32; i++) {
-+ ftmp=cene*gain_sq5Tbl[i]*gain_sq5Tbl[i];
-+
-+ if ((ftmp<(tene*gains[0]*gains[0])) &&
-+ (gain_sq5Tbl[j]<(2.0*gains[0]))) {
-+ j=i;
-+ }
-+ }
-+ gain_index[0]=j;
-+}
-+
-+
-diff -druN codecs/ilbc.orig/iCBSearch.h codecs/ilbc/iCBSearch.h
---- codecs/ilbc.orig/iCBSearch.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/iCBSearch.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,35 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ iCBSearch.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_ICBSEARCH_H
-+#define __iLBC_ICBSEARCH_H
-+
-+void iCBSearch(
-+ iLBC_Enc_Inst_t *iLBCenc_inst,
-+ /* (i) the encoder state structure */
-+ int *index, /* (o) Codebook indices */
-+ int *gain_index,/* (o) Gain quantization indices */
-+ float *intarget,/* (i) Target vector for encoding */
-+ float *mem, /* (i) Buffer for codebook construction */
-+ int lMem, /* (i) Length of buffer */
-+ int lTarget, /* (i) Length of vector */
-+ int nStages, /* (i) Number of codebook stages */
-+ float *weightDenum, /* (i) weighting filter coefficients */
-+
-+
-+ float *weightState, /* (i) weighting filter state */
-+ int block /* (i) the sub-block number */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/iLBC_decode.c codecs/ilbc/iLBC_decode.c
---- codecs/ilbc.orig/iLBC_decode.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/iLBC_decode.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,619 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ iLBC_decode.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+#include <stdlib.h>
-+
-+#include "iLBC_define.h"
-+#include "iLBC_decode.h"
-+#include "StateConstructW.h"
-+#include "LPCdecode.h"
-+#include "iCBConstruct.h"
-+#include "doCPLC.h"
-+#include "helpfun.h"
-+#include "constants.h"
-+#include "packing.h"
-+#include "string.h"
-+#include "enhancer.h"
-+#include "hpOutput.h"
-+#include "syntFilter.h"
-+
-+/*----------------------------------------------------------------*
-+ * Initiation of decoder instance.
-+ *---------------------------------------------------------------*/
-+
-+short initDecode( /* (o) Number of decoded
-+ samples */
-+ iLBC_Dec_Inst_t *iLBCdec_inst, /* (i/o) Decoder instance */
-+ int mode, /* (i) frame size mode */
-+ int use_enhancer /* (i) 1 to use enhancer
-+ 0 to run without
-+ enhancer */
-+){
-+ int i;
-+
-+ iLBCdec_inst->mode = mode;
-+
-+ if (mode==30) {
-+ iLBCdec_inst->blockl = BLOCKL_30MS;
-+ iLBCdec_inst->nsub = NSUB_30MS;
-+ iLBCdec_inst->nasub = NASUB_30MS;
-+ iLBCdec_inst->lpc_n = LPC_N_30MS;
-+
-+
-+ iLBCdec_inst->no_of_bytes = NO_OF_BYTES_30MS;
-+ iLBCdec_inst->no_of_words = NO_OF_WORDS_30MS;
-+ iLBCdec_inst->state_short_len=STATE_SHORT_LEN_30MS;
-+ /* ULP init */
-+ iLBCdec_inst->ULP_inst=&ULP_30msTbl;
-+ }
-+ else if (mode==20) {
-+ iLBCdec_inst->blockl = BLOCKL_20MS;
-+ iLBCdec_inst->nsub = NSUB_20MS;
-+ iLBCdec_inst->nasub = NASUB_20MS;
-+ iLBCdec_inst->lpc_n = LPC_N_20MS;
-+ iLBCdec_inst->no_of_bytes = NO_OF_BYTES_20MS;
-+ iLBCdec_inst->no_of_words = NO_OF_WORDS_20MS;
-+ iLBCdec_inst->state_short_len=STATE_SHORT_LEN_20MS;
-+ /* ULP init */
-+ iLBCdec_inst->ULP_inst=&ULP_20msTbl;
-+ }
-+ else {
-+ exit(2);
-+ }
-+
-+ memset(iLBCdec_inst->syntMem, 0,
-+ LPC_FILTERORDER*sizeof(float));
-+ memcpy((*iLBCdec_inst).lsfdeqold, lsfmeanTbl,
-+ LPC_FILTERORDER*sizeof(float));
-+
-+ memset(iLBCdec_inst->old_syntdenum, 0,
-+ ((LPC_FILTERORDER + 1)*NSUB_MAX)*sizeof(float));
-+ for (i=0; i<NSUB_MAX; i++)
-+ iLBCdec_inst->old_syntdenum[i*(LPC_FILTERORDER+1)]=1.0;
-+
-+ iLBCdec_inst->last_lag = 20;
-+
-+ iLBCdec_inst->prevLag = 120;
-+ iLBCdec_inst->per = 0.0;
-+ iLBCdec_inst->consPLICount = 0;
-+ iLBCdec_inst->prevPLI = 0;
-+ iLBCdec_inst->prevLpc[0] = 1.0;
-+ memset(iLBCdec_inst->prevLpc+1,0,
-+ LPC_FILTERORDER*sizeof(float));
-+ memset(iLBCdec_inst->prevResidual, 0, BLOCKL_MAX*sizeof(float));
-+ iLBCdec_inst->seed=777;
-+
-+ memset(iLBCdec_inst->hpomem, 0, 4*sizeof(float));
-+
-+ iLBCdec_inst->use_enhancer = use_enhancer;
-+ memset(iLBCdec_inst->enh_buf, 0, ENH_BUFL*sizeof(float));
-+ for (i=0;i<ENH_NBLOCKS_TOT;i++)
-+ iLBCdec_inst->enh_period[i]=(float)40.0;
-+
-+ iLBCdec_inst->prev_enh_pl = 0;
-+
-+ return (iLBCdec_inst->blockl);
-+}
-+
-+
-+
-+/*----------------------------------------------------------------*
-+ * frame residual decoder function (subrutine to iLBC_decode)
-+ *---------------------------------------------------------------*/
-+
-+static void Decode(
-+ iLBC_Dec_Inst_t *iLBCdec_inst, /* (i/o) the decoder state
-+ structure */
-+ float *decresidual, /* (o) decoded residual frame */
-+ int start, /* (i) location of start
-+ state */
-+ int idxForMax, /* (i) codebook index for the
-+ maximum value */
-+ int *idxVec, /* (i) codebook indexes for the
-+ samples in the start
-+ state */
-+ float *syntdenum, /* (i) the decoded synthesis
-+ filter coefficients */
-+ int *cb_index, /* (i) the indexes for the
-+ adaptive codebook */
-+ int *gain_index, /* (i) the indexes for the
-+ corresponding gains */
-+ int *extra_cb_index, /* (i) the indexes for the
-+ adaptive codebook part
-+ of start state */
-+ int *extra_gain_index, /* (i) the indexes for the
-+ corresponding gains */
-+ int state_first /* (i) 1 if non adaptive part
-+ of start state comes
-+ first 0 if that part
-+ comes last */
-+){
-+ float reverseDecresidual[BLOCKL_MAX], mem[CB_MEML];
-+ int k, meml_gotten, Nfor, Nback, i;
-+ int diff, start_pos;
-+ int subcount, subframe;
-+
-+ diff = STATE_LEN - iLBCdec_inst->state_short_len;
-+
-+ if (state_first == 1) {
-+ start_pos = (start-1)*SUBL;
-+ } else {
-+ start_pos = (start-1)*SUBL + diff;
-+ }
-+
-+ /* decode scalar part of start state */
-+
-+ StateConstructW(idxForMax, idxVec,
-+ &syntdenum[(start-1)*(LPC_FILTERORDER+1)],
-+ &decresidual[start_pos], iLBCdec_inst->state_short_len);
-+
-+
-+ if (state_first) { /* put adaptive part in the end */
-+
-+
-+
-+ /* setup memory */
-+
-+ memset(mem, 0,
-+ (CB_MEML-iLBCdec_inst->state_short_len)*sizeof(float));
-+ memcpy(mem+CB_MEML-iLBCdec_inst->state_short_len,
-+ decresidual+start_pos,
-+ iLBCdec_inst->state_short_len*sizeof(float));
-+
-+ /* construct decoded vector */
-+
-+ iCBConstruct(
-+ &decresidual[start_pos+iLBCdec_inst->state_short_len],
-+ extra_cb_index, extra_gain_index, mem+CB_MEML-stMemLTbl,
-+ stMemLTbl, diff, CB_NSTAGES);
-+
-+ }
-+ else {/* put adaptive part in the beginning */
-+
-+ /* create reversed vectors for prediction */
-+
-+ for (k=0; k<diff; k++) {
-+ reverseDecresidual[k] =
-+ decresidual[(start+1)*SUBL-1-
-+ (k+iLBCdec_inst->state_short_len)];
-+ }
-+
-+ /* setup memory */
-+
-+ meml_gotten = iLBCdec_inst->state_short_len;
-+ for (k=0; k<meml_gotten; k++){
-+ mem[CB_MEML-1-k] = decresidual[start_pos + k];
-+ }
-+ memset(mem, 0, (CB_MEML-k)*sizeof(float));
-+
-+ /* construct decoded vector */
-+
-+ iCBConstruct(reverseDecresidual, extra_cb_index,
-+ extra_gain_index, mem+CB_MEML-stMemLTbl, stMemLTbl,
-+ diff, CB_NSTAGES);
-+
-+ /* get decoded residual from reversed vector */
-+
-+ for (k=0; k<diff; k++) {
-+ decresidual[start_pos-1-k] = reverseDecresidual[k];
-+ }
-+ }
-+
-+ /* counter for predicted sub-frames */
-+
-+ subcount=0;
-+
-+ /* forward prediction of sub-frames */
-+
-+ Nfor = iLBCdec_inst->nsub-start-1;
-+
-+
-+
-+ if ( Nfor > 0 ){
-+
-+ /* setup memory */
-+
-+ memset(mem, 0, (CB_MEML-STATE_LEN)*sizeof(float));
-+ memcpy(mem+CB_MEML-STATE_LEN, decresidual+(start-1)*SUBL,
-+ STATE_LEN*sizeof(float));
-+
-+ /* loop over sub-frames to encode */
-+
-+ for (subframe=0; subframe<Nfor; subframe++) {
-+
-+ /* construct decoded vector */
-+
-+ iCBConstruct(&decresidual[(start+1+subframe)*SUBL],
-+ cb_index+subcount*CB_NSTAGES,
-+ gain_index+subcount*CB_NSTAGES,
-+ mem+CB_MEML-memLfTbl[subcount],
-+ memLfTbl[subcount], SUBL, CB_NSTAGES);
-+
-+ /* update memory */
-+
-+ memmove(mem, mem+SUBL, (CB_MEML-SUBL)*sizeof(float));
-+ memcpy(mem+CB_MEML-SUBL,
-+ &decresidual[(start+1+subframe)*SUBL],
-+ SUBL*sizeof(float));
-+
-+ subcount++;
-+
-+ }
-+
-+ }
-+
-+ /* backward prediction of sub-frames */
-+
-+ Nback = start-1;
-+
-+ if ( Nback > 0 ) {
-+
-+ /* setup memory */
-+
-+ meml_gotten = SUBL*(iLBCdec_inst->nsub+1-start);
-+
-+ if ( meml_gotten > CB_MEML ) {
-+ meml_gotten=CB_MEML;
-+ }
-+ for (k=0; k<meml_gotten; k++) {
-+ mem[CB_MEML-1-k] = decresidual[(start-1)*SUBL + k];
-+ }
-+ memset(mem, 0, (CB_MEML-k)*sizeof(float));
-+
-+ /* loop over subframes to decode */
-+
-+
-+
-+ for (subframe=0; subframe<Nback; subframe++) {
-+
-+ /* construct decoded vector */
-+
-+ iCBConstruct(&reverseDecresidual[subframe*SUBL],
-+ cb_index+subcount*CB_NSTAGES,
-+ gain_index+subcount*CB_NSTAGES,
-+ mem+CB_MEML-memLfTbl[subcount], memLfTbl[subcount],
-+ SUBL, CB_NSTAGES);
-+
-+ /* update memory */
-+
-+ memmove(mem, mem+SUBL, (CB_MEML-SUBL)*sizeof(float));
-+ memcpy(mem+CB_MEML-SUBL,
-+ &reverseDecresidual[subframe*SUBL],
-+ SUBL*sizeof(float));
-+
-+ subcount++;
-+ }
-+
-+ /* get decoded residual from reversed vector */
-+
-+ for (i=0; i<SUBL*Nback; i++)
-+ decresidual[SUBL*Nback - i - 1] =
-+ reverseDecresidual[i];
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * main decoder function
-+ *---------------------------------------------------------------*/
-+
-+void iLBC_decode(
-+ float *decblock, /* (o) decoded signal block */
-+ unsigned char *bytes, /* (i) encoded signal bits */
-+ iLBC_Dec_Inst_t *iLBCdec_inst, /* (i/o) the decoder state
-+ structure */
-+ int mode /* (i) 0: bad packet, PLC,
-+ 1: normal */
-+){
-+ float data[BLOCKL_MAX];
-+ float lsfdeq[LPC_FILTERORDER*LPC_N_MAX];
-+ float PLCresidual[BLOCKL_MAX], PLClpc[LPC_FILTERORDER + 1];
-+ float zeros[BLOCKL_MAX], one[LPC_FILTERORDER + 1];
-+ int k, i, start, idxForMax, pos, lastpart, ulp;
-+ int lag, ilag;
-+ float cc, maxcc;
-+ int idxVec[STATE_LEN];
-+ int check;
-+ int gain_index[NASUB_MAX*CB_NSTAGES],
-+ extra_gain_index[CB_NSTAGES];
-+ int cb_index[CB_NSTAGES*NASUB_MAX], extra_cb_index[CB_NSTAGES];
-+ int lsf_i[LSF_NSPLIT*LPC_N_MAX];
-+ int state_first;
-+
-+
-+ int last_bit;
-+ unsigned char *pbytes;
-+ float weightdenum[(LPC_FILTERORDER + 1)*NSUB_MAX];
-+ int order_plus_one;
-+ float syntdenum[NSUB_MAX*(LPC_FILTERORDER+1)];
-+ float decresidual[BLOCKL_MAX];
-+
-+ if (mode>0) { /* the data are good */
-+
-+ /* decode data */
-+
-+ pbytes=bytes;
-+ pos=0;
-+
-+ /* Set everything to zero before decoding */
-+
-+ for (k=0; k<LSF_NSPLIT*LPC_N_MAX; k++) {
-+ lsf_i[k]=0;
-+ }
-+ start=0;
-+ state_first=0;
-+ idxForMax=0;
-+ for (k=0; k<iLBCdec_inst->state_short_len; k++) {
-+ idxVec[k]=0;
-+ }
-+ for (k=0; k<CB_NSTAGES; k++) {
-+ extra_cb_index[k]=0;
-+ }
-+ for (k=0; k<CB_NSTAGES; k++) {
-+ extra_gain_index[k]=0;
-+ }
-+ for (i=0; i<iLBCdec_inst->nasub; i++) {
-+ for (k=0; k<CB_NSTAGES; k++) {
-+ cb_index[i*CB_NSTAGES+k]=0;
-+ }
-+ }
-+ for (i=0; i<iLBCdec_inst->nasub; i++) {
-+ for (k=0; k<CB_NSTAGES; k++) {
-+ gain_index[i*CB_NSTAGES+k]=0;
-+ }
-+ }
-+
-+ /* loop over ULP classes */
-+
-+ for (ulp=0; ulp<3; ulp++) {
-+
-+ /* LSF */
-+ for (k=0; k<LSF_NSPLIT*iLBCdec_inst->lpc_n; k++){
-+ unpack( &pbytes, &lastpart,
-+ iLBCdec_inst->ULP_inst->lsf_bits[k][ulp], &pos);
-+ packcombine(&lsf_i[k], lastpart,
-+ iLBCdec_inst->ULP_inst->lsf_bits[k][ulp]);
-+ }
-+
-+
-+
-+ /* Start block info */
-+
-+ unpack( &pbytes, &lastpart,
-+ iLBCdec_inst->ULP_inst->start_bits[ulp], &pos);
-+ packcombine(&start, lastpart,
-+ iLBCdec_inst->ULP_inst->start_bits[ulp]);
-+
-+ unpack( &pbytes, &lastpart,
-+ iLBCdec_inst->ULP_inst->startfirst_bits[ulp], &pos);
-+ packcombine(&state_first, lastpart,
-+ iLBCdec_inst->ULP_inst->startfirst_bits[ulp]);
-+
-+ unpack( &pbytes, &lastpart,
-+ iLBCdec_inst->ULP_inst->scale_bits[ulp], &pos);
-+ packcombine(&idxForMax, lastpart,
-+ iLBCdec_inst->ULP_inst->scale_bits[ulp]);
-+
-+ for (k=0; k<iLBCdec_inst->state_short_len; k++) {
-+ unpack( &pbytes, &lastpart,
-+ iLBCdec_inst->ULP_inst->state_bits[ulp], &pos);
-+ packcombine(idxVec+k, lastpart,
-+ iLBCdec_inst->ULP_inst->state_bits[ulp]);
-+ }
-+
-+ /* 23/22 (20ms/30ms) sample block */
-+
-+ for (k=0; k<CB_NSTAGES; k++) {
-+ unpack( &pbytes, &lastpart,
-+ iLBCdec_inst->ULP_inst->extra_cb_index[k][ulp],
-+ &pos);
-+ packcombine(extra_cb_index+k, lastpart,
-+ iLBCdec_inst->ULP_inst->extra_cb_index[k][ulp]);
-+ }
-+ for (k=0; k<CB_NSTAGES; k++) {
-+ unpack( &pbytes, &lastpart,
-+ iLBCdec_inst->ULP_inst->extra_cb_gain[k][ulp],
-+ &pos);
-+ packcombine(extra_gain_index+k, lastpart,
-+ iLBCdec_inst->ULP_inst->extra_cb_gain[k][ulp]);
-+ }
-+
-+ /* The two/four (20ms/30ms) 40 sample sub-blocks */
-+
-+ for (i=0; i<iLBCdec_inst->nasub; i++) {
-+ for (k=0; k<CB_NSTAGES; k++) {
-+ unpack( &pbytes, &lastpart,
-+ iLBCdec_inst->ULP_inst->cb_index[i][k][ulp],
-+ &pos);
-+ packcombine(cb_index+i*CB_NSTAGES+k, lastpart,
-+ iLBCdec_inst->ULP_inst->cb_index[i][k][ulp]);
-+ }
-+ }
-+
-+ for (i=0; i<iLBCdec_inst->nasub; i++) {
-+
-+
-+ for (k=0; k<CB_NSTAGES; k++) {
-+ unpack( &pbytes, &lastpart,
-+
-+ iLBCdec_inst->ULP_inst->cb_gain[i][k][ulp],
-+ &pos);
-+ packcombine(gain_index+i*CB_NSTAGES+k, lastpart,
-+ iLBCdec_inst->ULP_inst->cb_gain[i][k][ulp]);
-+ }
-+ }
-+ }
-+ /* Extract last bit. If it is 1 this indicates an
-+ empty/lost frame */
-+ unpack( &pbytes, &last_bit, 1, &pos);
-+
-+ /* Check for bit errors or empty/lost frames */
-+ if (start<1)
-+ mode = 0;
-+ if (iLBCdec_inst->mode==20 && start>3)
-+ mode = 0;
-+ if (iLBCdec_inst->mode==30 && start>5)
-+ mode = 0;
-+ if (last_bit==1)
-+ mode = 0;
-+
-+ if (mode==1) { /* No bit errors was detected,
-+ continue decoding */
-+
-+ /* adjust index */
-+ index_conv_dec(cb_index);
-+
-+ /* decode the lsf */
-+
-+ SimplelsfDEQ(lsfdeq, lsf_i, iLBCdec_inst->lpc_n);
-+ check=LSF_check(lsfdeq, LPC_FILTERORDER,
-+ iLBCdec_inst->lpc_n);
-+ DecoderInterpolateLSF(syntdenum, weightdenum,
-+ lsfdeq, LPC_FILTERORDER, iLBCdec_inst);
-+
-+ Decode(iLBCdec_inst, decresidual, start, idxForMax,
-+ idxVec, syntdenum, cb_index, gain_index,
-+ extra_cb_index, extra_gain_index,
-+ state_first);
-+
-+ /* preparing the plc for a future loss! */
-+
-+ doThePLC(PLCresidual, PLClpc, 0, decresidual,
-+ syntdenum +
-+ (LPC_FILTERORDER + 1)*(iLBCdec_inst->nsub - 1),
-+ (*iLBCdec_inst).last_lag, iLBCdec_inst);
-+
-+
-+ memcpy(decresidual, PLCresidual,
-+ iLBCdec_inst->blockl*sizeof(float));
-+ }
-+
-+
-+
-+ }
-+
-+ if (mode == 0) {
-+ /* the data is bad (either a PLC call
-+ * was made or a severe bit error was detected)
-+ */
-+
-+ /* packet loss conceal */
-+
-+ memset(zeros, 0, BLOCKL_MAX*sizeof(float));
-+
-+ one[0] = 1;
-+ memset(one+1, 0, LPC_FILTERORDER*sizeof(float));
-+
-+ start=0;
-+
-+ doThePLC(PLCresidual, PLClpc, 1, zeros, one,
-+ (*iLBCdec_inst).last_lag, iLBCdec_inst);
-+ memcpy(decresidual, PLCresidual,
-+ iLBCdec_inst->blockl*sizeof(float));
-+
-+ order_plus_one = LPC_FILTERORDER + 1;
-+ for (i = 0; i < iLBCdec_inst->nsub; i++) {
-+ memcpy(syntdenum+(i*order_plus_one), PLClpc,
-+ order_plus_one*sizeof(float));
-+ }
-+ }
-+
-+ if (iLBCdec_inst->use_enhancer == 1) {
-+
-+ /* post filtering */
-+
-+ iLBCdec_inst->last_lag =
-+ enhancerInterface(data, decresidual, iLBCdec_inst);
-+
-+ /* synthesis filtering */
-+
-+ if (iLBCdec_inst->mode==20) {
-+ /* Enhancer has 40 samples delay */
-+ i=0;
-+ syntFilter(data + i*SUBL,
-+ iLBCdec_inst->old_syntdenum +
-+ (i+iLBCdec_inst->nsub-1)*(LPC_FILTERORDER+1),
-+ SUBL, iLBCdec_inst->syntMem);
-+ for (i=1; i < iLBCdec_inst->nsub; i++) {
-+ syntFilter(data + i*SUBL,
-+ syntdenum + (i-1)*(LPC_FILTERORDER+1),
-+ SUBL, iLBCdec_inst->syntMem);
-+ }
-+ } else if (iLBCdec_inst->mode==30) {
-+ /* Enhancer has 80 samples delay */
-+ for (i=0; i < 2; i++) {
-+ syntFilter(data + i*SUBL,
-+
-+
-+ iLBCdec_inst->old_syntdenum +
-+ (i+iLBCdec_inst->nsub-2)*(LPC_FILTERORDER+1),
-+ SUBL, iLBCdec_inst->syntMem);
-+ }
-+ for (i=2; i < iLBCdec_inst->nsub; i++) {
-+ syntFilter(data + i*SUBL,
-+ syntdenum + (i-2)*(LPC_FILTERORDER+1), SUBL,
-+ iLBCdec_inst->syntMem);
-+ }
-+ }
-+
-+ } else {
-+
-+ /* Find last lag */
-+ lag = 20;
-+ maxcc = xCorrCoef(&decresidual[BLOCKL_MAX-ENH_BLOCKL],
-+ &decresidual[BLOCKL_MAX-ENH_BLOCKL-lag], ENH_BLOCKL);
-+
-+ for (ilag=21; ilag<120; ilag++) {
-+ cc = xCorrCoef(&decresidual[BLOCKL_MAX-ENH_BLOCKL],
-+ &decresidual[BLOCKL_MAX-ENH_BLOCKL-ilag],
-+ ENH_BLOCKL);
-+
-+ if (cc > maxcc) {
-+ maxcc = cc;
-+ lag = ilag;
-+ }
-+ }
-+ iLBCdec_inst->last_lag = lag;
-+
-+ /* copy data and run synthesis filter */
-+
-+ memcpy(data, decresidual,
-+ iLBCdec_inst->blockl*sizeof(float));
-+ for (i=0; i < iLBCdec_inst->nsub; i++) {
-+ syntFilter(data + i*SUBL,
-+ syntdenum + i*(LPC_FILTERORDER+1), SUBL,
-+ iLBCdec_inst->syntMem);
-+ }
-+ }
-+
-+ /* high pass filtering on output if desired, otherwise
-+ copy to out */
-+
-+ hpOutput(data, iLBCdec_inst->blockl,
-+ decblock,iLBCdec_inst->hpomem);
-+
-+ /* memcpy(decblock,data,iLBCdec_inst->blockl*sizeof(float));*/
-+
-+ memcpy(iLBCdec_inst->old_syntdenum, syntdenum,
-+
-+ iLBCdec_inst->nsub*(LPC_FILTERORDER+1)*sizeof(float));
-+
-+ iLBCdec_inst->prev_enh_pl=0;
-+
-+
-+
-+ if (mode==0) { /* PLC was used */
-+ iLBCdec_inst->prev_enh_pl=1;
-+ }
-+}
-+
-+
-diff -druN codecs/ilbc.orig/iLBC_decode.h codecs/ilbc/iLBC_decode.h
---- codecs/ilbc.orig/iLBC_decode.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/iLBC_decode.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,40 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ iLBC_decode.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_ILBCDECODE_H
-+#define __iLBC_ILBCDECODE_H
-+
-+#include "iLBC_define.h"
-+
-+short initDecode( /* (o) Number of decoded
-+ samples */
-+ iLBC_Dec_Inst_t *iLBCdec_inst, /* (i/o) Decoder instance */
-+ int mode, /* (i) frame size mode */
-+ int use_enhancer /* (i) 1 to use enhancer
-+ 0 to run without
-+ enhancer */
-+);
-+
-+void iLBC_decode(
-+ float *decblock, /* (o) decoded signal block */
-+ unsigned char *bytes, /* (i) encoded signal bits */
-+ iLBC_Dec_Inst_t *iLBCdec_inst, /* (i/o) the decoder state
-+ structure */
-+ int mode /* (i) 0: bad packet, PLC,
-+ 1: normal */
-+);
-+
-+
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/iLBC_define.h codecs/ilbc/iLBC_define.h
---- codecs/ilbc.orig/iLBC_define.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/iLBC_define.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,201 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ iLBC_define.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+#include <string.h>
-+
-+#ifndef __iLBC_ILBCDEFINE_H
-+#define __iLBC_ILBCDEFINE_H
-+
-+/* general codec settings */
-+
-+#define FS (float)8000.0
-+#define BLOCKL_20MS 160
-+#define BLOCKL_30MS 240
-+#define BLOCKL_MAX 240
-+#define NSUB_20MS 4
-+#define NSUB_30MS 6
-+#define NSUB_MAX 6
-+#define NASUB_20MS 2
-+#define NASUB_30MS 4
-+#define NASUB_MAX 4
-+#define SUBL 40
-+#define STATE_LEN 80
-+#define STATE_SHORT_LEN_30MS 58
-+#define STATE_SHORT_LEN_20MS 57
-+
-+/* LPC settings */
-+
-+#define LPC_FILTERORDER 10
-+#define LPC_CHIRP_SYNTDENUM (float)0.9025
-+#define LPC_CHIRP_WEIGHTDENUM (float)0.4222
-+#define LPC_LOOKBACK 60
-+#define LPC_N_20MS 1
-+#define LPC_N_30MS 2
-+#define LPC_N_MAX 2
-+#define LPC_ASYMDIFF 20
-+#define LPC_BW (float)60.0
-+#define LPC_WN (float)1.0001
-+#define LSF_NSPLIT 3
-+
-+#define LSF_NUMBER_OF_STEPS 4
-+#define LPC_HALFORDER (LPC_FILTERORDER/2)
-+
-+/* cb settings */
-+
-+#define CB_NSTAGES 3
-+#define CB_EXPAND 2
-+#define CB_MEML 147
-+#define CB_FILTERLEN 2*4
-+#define CB_HALFFILTERLEN 4
-+#define CB_RESRANGE 34
-+#define CB_MAXGAIN (float)1.3
-+
-+/* enhancer */
-+
-+#define ENH_BLOCKL 80 /* block length */
-+#define ENH_BLOCKL_HALF (ENH_BLOCKL/2)
-+#define ENH_HL 3 /* 2*ENH_HL+1 is number blocks
-+ in said second sequence */
-+#define ENH_SLOP 2 /* max difference estimated and
-+ correct pitch period */
-+#define ENH_PLOCSL 20 /* pitch-estimates and pitch-
-+ locations buffer length */
-+#define ENH_OVERHANG 2
-+#define ENH_UPS0 4 /* upsampling rate */
-+#define ENH_FL0 3 /* 2*FLO+1 is the length of
-+ each filter */
-+#define ENH_VECTL (ENH_BLOCKL+2*ENH_FL0)
-+#define ENH_CORRDIM (2*ENH_SLOP+1)
-+#define ENH_NBLOCKS (BLOCKL_MAX/ENH_BLOCKL)
-+#define ENH_NBLOCKS_EXTRA 5
-+#define ENH_NBLOCKS_TOT 8 /* ENH_NBLOCKS +
-+ ENH_NBLOCKS_EXTRA */
-+#define ENH_BUFL (ENH_NBLOCKS_TOT)*ENH_BLOCKL
-+#define ENH_ALPHA0 (float)0.05
-+
-+/* Down sampling */
-+
-+#define FILTERORDER_DS 7
-+#define DELAY_DS 3
-+#define FACTOR_DS 2
-+
-+/* bit stream defs */
-+
-+#define NO_OF_BYTES_20MS 38
-+#define NO_OF_BYTES_30MS 50
-+#define NO_OF_WORDS_20MS 19
-+#define NO_OF_WORDS_30MS 25
-+#define STATE_BITS 3
-+#define BYTE_LEN 8
-+#define ULP_CLASSES 3
-+
-+/* help parameters */
-+
-+
-+#define FLOAT_MAX (float)1.0e37
-+#define EPS (float)2.220446049250313e-016
-+#define PI (float)3.14159265358979323846
-+#define MIN_SAMPLE -32768
-+#define MAX_SAMPLE 32767
-+#define TWO_PI (float)6.283185307
-+#define PI2 (float)0.159154943
-+
-+/* type definition encoder instance */
-+typedef struct iLBC_ULP_Inst_t_ {
-+ int lsf_bits[6][ULP_CLASSES+2];
-+ int start_bits[ULP_CLASSES+2];
-+ int startfirst_bits[ULP_CLASSES+2];
-+ int scale_bits[ULP_CLASSES+2];
-+ int state_bits[ULP_CLASSES+2];
-+ int extra_cb_index[CB_NSTAGES][ULP_CLASSES+2];
-+ int extra_cb_gain[CB_NSTAGES][ULP_CLASSES+2];
-+ int cb_index[NSUB_MAX][CB_NSTAGES][ULP_CLASSES+2];
-+ int cb_gain[NSUB_MAX][CB_NSTAGES][ULP_CLASSES+2];
-+} iLBC_ULP_Inst_t;
-+
-+/* type definition encoder instance */
-+typedef struct iLBC_Enc_Inst_t_ {
-+
-+ /* flag for frame size mode */
-+ int mode;
-+
-+ /* basic parameters for different frame sizes */
-+ int blockl;
-+ int nsub;
-+ int nasub;
-+ int no_of_bytes, no_of_words;
-+ int lpc_n;
-+ int state_short_len;
-+ const iLBC_ULP_Inst_t *ULP_inst;
-+
-+ /* analysis filter state */
-+ float anaMem[LPC_FILTERORDER];
-+
-+ /* old lsf parameters for interpolation */
-+ float lsfold[LPC_FILTERORDER];
-+ float lsfdeqold[LPC_FILTERORDER];
-+
-+ /* signal buffer for LP analysis */
-+ float lpc_buffer[LPC_LOOKBACK + BLOCKL_MAX];
-+
-+ /* state of input HP filter */
-+ float hpimem[4];
-+
-+} iLBC_Enc_Inst_t;
-+
-+/* type definition decoder instance */
-+typedef struct iLBC_Dec_Inst_t_ {
-+
-+
-+ /* flag for frame size mode */
-+ int mode;
-+
-+ /* basic parameters for different frame sizes */
-+ int blockl;
-+ int nsub;
-+ int nasub;
-+ int no_of_bytes, no_of_words;
-+ int lpc_n;
-+ int state_short_len;
-+ const iLBC_ULP_Inst_t *ULP_inst;
-+
-+ /* synthesis filter state */
-+ float syntMem[LPC_FILTERORDER];
-+
-+ /* old LSF for interpolation */
-+ float lsfdeqold[LPC_FILTERORDER];
-+
-+ /* pitch lag estimated in enhancer and used in PLC */
-+ int last_lag;
-+
-+ /* PLC state information */
-+ int prevLag, consPLICount, prevPLI, prev_enh_pl;
-+ float prevLpc[LPC_FILTERORDER+1];
-+ float prevResidual[NSUB_MAX*SUBL];
-+ float per;
-+ unsigned long seed;
-+
-+ /* previous synthesis filter parameters */
-+ float old_syntdenum[(LPC_FILTERORDER + 1)*NSUB_MAX];
-+
-+ /* state of output HP filter */
-+ float hpomem[4];
-+
-+ /* enhancer state information */
-+ int use_enhancer;
-+ float enh_buf[ENH_BUFL];
-+ float enh_period[ENH_NBLOCKS_TOT];
-+
-+} iLBC_Dec_Inst_t;
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/iLBC_encode.c codecs/ilbc/iLBC_encode.c
---- codecs/ilbc.orig/iLBC_encode.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/iLBC_encode.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,514 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ iLBC_encode.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+#include <stdlib.h>
-+#include <string.h>
-+
-+#include "iLBC_define.h"
-+#include "iLBC_encode.h"
-+#include "LPCencode.h"
-+#include "FrameClassify.h"
-+#include "StateSearchW.h"
-+#include "StateConstructW.h"
-+#include "helpfun.h"
-+#include "constants.h"
-+#include "packing.h"
-+#include "iCBSearch.h"
-+#include "iCBConstruct.h"
-+#include "hpInput.h"
-+#include "anaFilter.h"
-+#include "syntFilter.h"
-+
-+/*----------------------------------------------------------------*
-+ * Initiation of encoder instance.
-+ *---------------------------------------------------------------*/
-+
-+short initEncode( /* (o) Number of bytes
-+ encoded */
-+ iLBC_Enc_Inst_t *iLBCenc_inst, /* (i/o) Encoder instance */
-+ int mode /* (i) frame size mode */
-+){
-+ iLBCenc_inst->mode = mode;
-+ if (mode==30) {
-+ iLBCenc_inst->blockl = BLOCKL_30MS;
-+ iLBCenc_inst->nsub = NSUB_30MS;
-+
-+
-+ iLBCenc_inst->nasub = NASUB_30MS;
-+ iLBCenc_inst->lpc_n = LPC_N_30MS;
-+ iLBCenc_inst->no_of_bytes = NO_OF_BYTES_30MS;
-+ iLBCenc_inst->no_of_words = NO_OF_WORDS_30MS;
-+ iLBCenc_inst->state_short_len=STATE_SHORT_LEN_30MS;
-+ /* ULP init */
-+ iLBCenc_inst->ULP_inst=&ULP_30msTbl;
-+ }
-+ else if (mode==20) {
-+ iLBCenc_inst->blockl = BLOCKL_20MS;
-+ iLBCenc_inst->nsub = NSUB_20MS;
-+ iLBCenc_inst->nasub = NASUB_20MS;
-+ iLBCenc_inst->lpc_n = LPC_N_20MS;
-+ iLBCenc_inst->no_of_bytes = NO_OF_BYTES_20MS;
-+ iLBCenc_inst->no_of_words = NO_OF_WORDS_20MS;
-+ iLBCenc_inst->state_short_len=STATE_SHORT_LEN_20MS;
-+ /* ULP init */
-+ iLBCenc_inst->ULP_inst=&ULP_20msTbl;
-+ }
-+ else {
-+ exit(2);
-+ }
-+
-+ memset((*iLBCenc_inst).anaMem, 0,
-+ LPC_FILTERORDER*sizeof(float));
-+ memcpy((*iLBCenc_inst).lsfold, lsfmeanTbl,
-+ LPC_FILTERORDER*sizeof(float));
-+ memcpy((*iLBCenc_inst).lsfdeqold, lsfmeanTbl,
-+ LPC_FILTERORDER*sizeof(float));
-+ memset((*iLBCenc_inst).lpc_buffer, 0,
-+ (LPC_LOOKBACK+BLOCKL_MAX)*sizeof(float));
-+ memset((*iLBCenc_inst).hpimem, 0, 4*sizeof(float));
-+
-+ return (iLBCenc_inst->no_of_bytes);
-+}
-+
-+/*----------------------------------------------------------------*
-+ * main encoder function
-+ *---------------------------------------------------------------*/
-+
-+void iLBC_encode(
-+ unsigned char *bytes, /* (o) encoded data bits iLBC */
-+ float *block, /* (o) speech vector to
-+ encode */
-+ iLBC_Enc_Inst_t *iLBCenc_inst /* (i/o) the general encoder
-+ state */
-+){
-+
-+ float data[BLOCKL_MAX];
-+ float residual[BLOCKL_MAX], reverseResidual[BLOCKL_MAX];
-+
-+ int start, idxForMax, idxVec[STATE_LEN];
-+ float reverseDecresidual[BLOCKL_MAX], mem[CB_MEML];
-+ int n, k, meml_gotten, Nfor, Nback, i, pos;
-+
-+
-+ int gain_index[CB_NSTAGES*NASUB_MAX],
-+ extra_gain_index[CB_NSTAGES];
-+ int cb_index[CB_NSTAGES*NASUB_MAX],extra_cb_index[CB_NSTAGES];
-+ int lsf_i[LSF_NSPLIT*LPC_N_MAX];
-+ unsigned char *pbytes;
-+ int diff, start_pos, state_first;
-+ float en1, en2;
-+ int index, ulp, firstpart;
-+ int subcount, subframe;
-+ float weightState[LPC_FILTERORDER];
-+ float syntdenum[NSUB_MAX*(LPC_FILTERORDER+1)];
-+ float weightdenum[NSUB_MAX*(LPC_FILTERORDER+1)];
-+ float decresidual[BLOCKL_MAX];
-+
-+ /* high pass filtering of input signal if such is not done
-+ prior to calling this function */
-+
-+ hpInput(block, iLBCenc_inst->blockl,
-+ data, (*iLBCenc_inst).hpimem);
-+
-+ /* otherwise simply copy */
-+
-+ /*memcpy(data,block,iLBCenc_inst->blockl*sizeof(float));*/
-+
-+ /* LPC of hp filtered input data */
-+
-+ LPCencode(syntdenum, weightdenum, lsf_i, data, iLBCenc_inst);
-+
-+
-+ /* inverse filter to get residual */
-+
-+ for (n=0; n<iLBCenc_inst->nsub; n++) {
-+ anaFilter(&data[n*SUBL], &syntdenum[n*(LPC_FILTERORDER+1)],
-+ SUBL, &residual[n*SUBL], iLBCenc_inst->anaMem);
-+ }
-+
-+ /* find state location */
-+
-+ start = FrameClassify(iLBCenc_inst, residual);
-+
-+ /* check if state should be in first or last part of the
-+ two subframes */
-+
-+ diff = STATE_LEN - iLBCenc_inst->state_short_len;
-+ en1 = 0;
-+ index = (start-1)*SUBL;
-+ for (i = 0; i < iLBCenc_inst->state_short_len; i++) {
-+ en1 += residual[index+i]*residual[index+i];
-+ }
-+ en2 = 0;
-+ index = (start-1)*SUBL+diff;
-+ for (i = 0; i < iLBCenc_inst->state_short_len; i++) {
-+ en2 += residual[index+i]*residual[index+i];
-+ }
-+
-+
-+
-+
-+ if (en1 > en2) {
-+ state_first = 1;
-+ start_pos = (start-1)*SUBL;
-+ } else {
-+ state_first = 0;
-+ start_pos = (start-1)*SUBL + diff;
-+ }
-+
-+ /* scalar quantization of state */
-+
-+ StateSearchW(iLBCenc_inst, &residual[start_pos],
-+ &syntdenum[(start-1)*(LPC_FILTERORDER+1)],
-+ &weightdenum[(start-1)*(LPC_FILTERORDER+1)], &idxForMax,
-+ idxVec, iLBCenc_inst->state_short_len, state_first);
-+
-+ StateConstructW(idxForMax, idxVec,
-+ &syntdenum[(start-1)*(LPC_FILTERORDER+1)],
-+ &decresidual[start_pos], iLBCenc_inst->state_short_len);
-+
-+ /* predictive quantization in state */
-+
-+ if (state_first) { /* put adaptive part in the end */
-+
-+ /* setup memory */
-+
-+ memset(mem, 0,
-+ (CB_MEML-iLBCenc_inst->state_short_len)*sizeof(float));
-+ memcpy(mem+CB_MEML-iLBCenc_inst->state_short_len,
-+ decresidual+start_pos,
-+ iLBCenc_inst->state_short_len*sizeof(float));
-+ memset(weightState, 0, LPC_FILTERORDER*sizeof(float));
-+
-+ /* encode sub-frames */
-+
-+ iCBSearch(iLBCenc_inst, extra_cb_index, extra_gain_index,
-+ &residual[start_pos+iLBCenc_inst->state_short_len],
-+ mem+CB_MEML-stMemLTbl,
-+ stMemLTbl, diff, CB_NSTAGES,
-+ &weightdenum[start*(LPC_FILTERORDER+1)],
-+ weightState, 0);
-+
-+ /* construct decoded vector */
-+
-+ iCBConstruct(
-+ &decresidual[start_pos+iLBCenc_inst->state_short_len],
-+ extra_cb_index, extra_gain_index,
-+ mem+CB_MEML-stMemLTbl,
-+ stMemLTbl, diff, CB_NSTAGES);
-+
-+ }
-+ else { /* put adaptive part in the beginning */
-+
-+
-+
-+ /* create reversed vectors for prediction */
-+
-+ for (k=0; k<diff; k++) {
-+ reverseResidual[k] = residual[(start+1)*SUBL-1
-+ -(k+iLBCenc_inst->state_short_len)];
-+ }
-+
-+ /* setup memory */
-+
-+ meml_gotten = iLBCenc_inst->state_short_len;
-+ for (k=0; k<meml_gotten; k++) {
-+ mem[CB_MEML-1-k] = decresidual[start_pos + k];
-+ }
-+ memset(mem, 0, (CB_MEML-k)*sizeof(float));
-+ memset(weightState, 0, LPC_FILTERORDER*sizeof(float));
-+
-+ /* encode sub-frames */
-+
-+ iCBSearch(iLBCenc_inst, extra_cb_index, extra_gain_index,
-+ reverseResidual, mem+CB_MEML-stMemLTbl, stMemLTbl,
-+ diff, CB_NSTAGES,
-+ &weightdenum[(start-1)*(LPC_FILTERORDER+1)],
-+ weightState, 0);
-+
-+ /* construct decoded vector */
-+
-+ iCBConstruct(reverseDecresidual, extra_cb_index,
-+ extra_gain_index, mem+CB_MEML-stMemLTbl, stMemLTbl,
-+ diff, CB_NSTAGES);
-+
-+ /* get decoded residual from reversed vector */
-+
-+ for (k=0; k<diff; k++) {
-+ decresidual[start_pos-1-k] = reverseDecresidual[k];
-+ }
-+ }
-+
-+ /* counter for predicted sub-frames */
-+
-+ subcount=0;
-+
-+ /* forward prediction of sub-frames */
-+
-+ Nfor = iLBCenc_inst->nsub-start-1;
-+
-+
-+ if ( Nfor > 0 ) {
-+
-+ /* setup memory */
-+
-+ memset(mem, 0, (CB_MEML-STATE_LEN)*sizeof(float));
-+ memcpy(mem+CB_MEML-STATE_LEN, decresidual+(start-1)*SUBL,
-+ STATE_LEN*sizeof(float));
-+ memset(weightState, 0, LPC_FILTERORDER*sizeof(float));
-+
-+
-+
-+ /* loop over sub-frames to encode */
-+
-+ for (subframe=0; subframe<Nfor; subframe++) {
-+
-+ /* encode sub-frame */
-+
-+ iCBSearch(iLBCenc_inst, cb_index+subcount*CB_NSTAGES,
-+ gain_index+subcount*CB_NSTAGES,
-+ &residual[(start+1+subframe)*SUBL],
-+ mem+CB_MEML-memLfTbl[subcount],
-+ memLfTbl[subcount], SUBL, CB_NSTAGES,
-+ &weightdenum[(start+1+subframe)*
-+ (LPC_FILTERORDER+1)],
-+ weightState, subcount+1);
-+
-+ /* construct decoded vector */
-+
-+ iCBConstruct(&decresidual[(start+1+subframe)*SUBL],
-+ cb_index+subcount*CB_NSTAGES,
-+ gain_index+subcount*CB_NSTAGES,
-+ mem+CB_MEML-memLfTbl[subcount],
-+ memLfTbl[subcount], SUBL, CB_NSTAGES);
-+
-+ /* update memory */
-+
-+ memmove(mem, mem+SUBL, (CB_MEML-SUBL)*sizeof(float));
-+ memcpy(mem+CB_MEML-SUBL,
-+ &decresidual[(start+1+subframe)*SUBL],
-+ SUBL*sizeof(float));
-+ memset(weightState, 0, LPC_FILTERORDER*sizeof(float));
-+
-+ subcount++;
-+ }
-+ }
-+
-+
-+ /* backward prediction of sub-frames */
-+
-+ Nback = start-1;
-+
-+
-+ if ( Nback > 0 ) {
-+
-+ /* create reverse order vectors */
-+
-+ for (n=0; n<Nback; n++) {
-+ for (k=0; k<SUBL; k++) {
-+ reverseResidual[n*SUBL+k] =
-+ residual[(start-1)*SUBL-1-n*SUBL-k];
-+ reverseDecresidual[n*SUBL+k] =
-+ decresidual[(start-1)*SUBL-1-n*SUBL-k];
-+ }
-+ }
-+
-+
-+
-+ /* setup memory */
-+
-+ meml_gotten = SUBL*(iLBCenc_inst->nsub+1-start);
-+
-+
-+ if ( meml_gotten > CB_MEML ) {
-+ meml_gotten=CB_MEML;
-+ }
-+ for (k=0; k<meml_gotten; k++) {
-+ mem[CB_MEML-1-k] = decresidual[(start-1)*SUBL + k];
-+ }
-+ memset(mem, 0, (CB_MEML-k)*sizeof(float));
-+ memset(weightState, 0, LPC_FILTERORDER*sizeof(float));
-+
-+ /* loop over sub-frames to encode */
-+
-+ for (subframe=0; subframe<Nback; subframe++) {
-+
-+ /* encode sub-frame */
-+
-+ iCBSearch(iLBCenc_inst, cb_index+subcount*CB_NSTAGES,
-+ gain_index+subcount*CB_NSTAGES,
-+ &reverseResidual[subframe*SUBL],
-+ mem+CB_MEML-memLfTbl[subcount],
-+ memLfTbl[subcount], SUBL, CB_NSTAGES,
-+ &weightdenum[(start-2-subframe)*
-+ (LPC_FILTERORDER+1)],
-+ weightState, subcount+1);
-+
-+ /* construct decoded vector */
-+
-+ iCBConstruct(&reverseDecresidual[subframe*SUBL],
-+ cb_index+subcount*CB_NSTAGES,
-+ gain_index+subcount*CB_NSTAGES,
-+ mem+CB_MEML-memLfTbl[subcount],
-+ memLfTbl[subcount], SUBL, CB_NSTAGES);
-+
-+ /* update memory */
-+
-+ memmove(mem, mem+SUBL, (CB_MEML-SUBL)*sizeof(float));
-+ memcpy(mem+CB_MEML-SUBL,
-+ &reverseDecresidual[subframe*SUBL],
-+ SUBL*sizeof(float));
-+ memset(weightState, 0, LPC_FILTERORDER*sizeof(float));
-+
-+ subcount++;
-+
-+ }
-+
-+ /* get decoded residual from reversed vector */
-+
-+ for (i=0; i<SUBL*Nback; i++) {
-+ decresidual[SUBL*Nback - i - 1] =
-+
-+
-+ reverseDecresidual[i];
-+ }
-+ }
-+ /* end encoding part */
-+
-+ /* adjust index */
-+ index_conv_enc(cb_index);
-+
-+ /* pack bytes */
-+
-+ pbytes=bytes;
-+ pos=0;
-+
-+ /* loop over the 3 ULP classes */
-+
-+ for (ulp=0; ulp<3; ulp++) {
-+
-+ /* LSF */
-+ for (k=0; k<LSF_NSPLIT*iLBCenc_inst->lpc_n; k++) {
-+ packsplit(&lsf_i[k], &firstpart, &lsf_i[k],
-+ iLBCenc_inst->ULP_inst->lsf_bits[k][ulp],
-+ iLBCenc_inst->ULP_inst->lsf_bits[k][ulp]+
-+ iLBCenc_inst->ULP_inst->lsf_bits[k][ulp+1]+
-+ iLBCenc_inst->ULP_inst->lsf_bits[k][ulp+2]);
-+ dopack( &pbytes, firstpart,
-+ iLBCenc_inst->ULP_inst->lsf_bits[k][ulp], &pos);
-+ }
-+
-+ /* Start block info */
-+
-+ packsplit(&start, &firstpart, &start,
-+ iLBCenc_inst->ULP_inst->start_bits[ulp],
-+ iLBCenc_inst->ULP_inst->start_bits[ulp]+
-+ iLBCenc_inst->ULP_inst->start_bits[ulp+1]+
-+ iLBCenc_inst->ULP_inst->start_bits[ulp+2]);
-+ dopack( &pbytes, firstpart,
-+ iLBCenc_inst->ULP_inst->start_bits[ulp], &pos);
-+
-+ packsplit(&state_first, &firstpart, &state_first,
-+ iLBCenc_inst->ULP_inst->startfirst_bits[ulp],
-+ iLBCenc_inst->ULP_inst->startfirst_bits[ulp]+
-+ iLBCenc_inst->ULP_inst->startfirst_bits[ulp+1]+
-+ iLBCenc_inst->ULP_inst->startfirst_bits[ulp+2]);
-+ dopack( &pbytes, firstpart,
-+ iLBCenc_inst->ULP_inst->startfirst_bits[ulp], &pos);
-+
-+ packsplit(&idxForMax, &firstpart, &idxForMax,
-+ iLBCenc_inst->ULP_inst->scale_bits[ulp],
-+ iLBCenc_inst->ULP_inst->scale_bits[ulp]+
-+ iLBCenc_inst->ULP_inst->scale_bits[ulp+1]+
-+ iLBCenc_inst->ULP_inst->scale_bits[ulp+2]);
-+ dopack( &pbytes, firstpart,
-+ iLBCenc_inst->ULP_inst->scale_bits[ulp], &pos);
-+
-+
-+
-+ for (k=0; k<iLBCenc_inst->state_short_len; k++) {
-+ packsplit(idxVec+k, &firstpart, idxVec+k,
-+ iLBCenc_inst->ULP_inst->state_bits[ulp],
-+ iLBCenc_inst->ULP_inst->state_bits[ulp]+
-+ iLBCenc_inst->ULP_inst->state_bits[ulp+1]+
-+ iLBCenc_inst->ULP_inst->state_bits[ulp+2]);
-+ dopack( &pbytes, firstpart,
-+ iLBCenc_inst->ULP_inst->state_bits[ulp], &pos);
-+ }
-+
-+ /* 23/22 (20ms/30ms) sample block */
-+
-+ for (k=0;k<CB_NSTAGES;k++) {
-+ packsplit(extra_cb_index+k, &firstpart,
-+ extra_cb_index+k,
-+ iLBCenc_inst->ULP_inst->extra_cb_index[k][ulp],
-+ iLBCenc_inst->ULP_inst->extra_cb_index[k][ulp]+
-+ iLBCenc_inst->ULP_inst->extra_cb_index[k][ulp+1]+
-+ iLBCenc_inst->ULP_inst->extra_cb_index[k][ulp+2]);
-+ dopack( &pbytes, firstpart,
-+ iLBCenc_inst->ULP_inst->extra_cb_index[k][ulp],
-+ &pos);
-+ }
-+
-+ for (k=0;k<CB_NSTAGES;k++) {
-+ packsplit(extra_gain_index+k, &firstpart,
-+ extra_gain_index+k,
-+ iLBCenc_inst->ULP_inst->extra_cb_gain[k][ulp],
-+ iLBCenc_inst->ULP_inst->extra_cb_gain[k][ulp]+
-+ iLBCenc_inst->ULP_inst->extra_cb_gain[k][ulp+1]+
-+ iLBCenc_inst->ULP_inst->extra_cb_gain[k][ulp+2]);
-+ dopack( &pbytes, firstpart,
-+ iLBCenc_inst->ULP_inst->extra_cb_gain[k][ulp],
-+ &pos);
-+ }
-+
-+ /* The two/four (20ms/30ms) 40 sample sub-blocks */
-+
-+ for (i=0; i<iLBCenc_inst->nasub; i++) {
-+ for (k=0; k<CB_NSTAGES; k++) {
-+ packsplit(cb_index+i*CB_NSTAGES+k, &firstpart,
-+ cb_index+i*CB_NSTAGES+k,
-+ iLBCenc_inst->ULP_inst->cb_index[i][k][ulp],
-+ iLBCenc_inst->ULP_inst->cb_index[i][k][ulp]+
-+ iLBCenc_inst->ULP_inst->cb_index[i][k][ulp+1]+
-+ iLBCenc_inst->ULP_inst->cb_index[i][k][ulp+2]);
-+ dopack( &pbytes, firstpart,
-+ iLBCenc_inst->ULP_inst->cb_index[i][k][ulp],
-+ &pos);
-+ }
-+ }
-+
-+ for (i=0; i<iLBCenc_inst->nasub; i++) {
-+ for (k=0; k<CB_NSTAGES; k++) {
-+
-+
-+ packsplit(gain_index+i*CB_NSTAGES+k, &firstpart,
-+ gain_index+i*CB_NSTAGES+k,
-+ iLBCenc_inst->ULP_inst->cb_gain[i][k][ulp],
-+ iLBCenc_inst->ULP_inst->cb_gain[i][k][ulp]+
-+ iLBCenc_inst->ULP_inst->cb_gain[i][k][ulp+1]+
-+ iLBCenc_inst->ULP_inst->cb_gain[i][k][ulp+2]);
-+ dopack( &pbytes, firstpart,
-+ iLBCenc_inst->ULP_inst->cb_gain[i][k][ulp],
-+ &pos);
-+ }
-+ }
-+ }
-+
-+ /* set the last bit to zero (otherwise the decoder
-+ will treat it as a lost frame) */
-+ dopack( &pbytes, 0, 1, &pos);
-+}
-+
-+
-+
-diff -druN codecs/ilbc.orig/iLBC_encode.h codecs/ilbc/iLBC_encode.h
---- codecs/ilbc.orig/iLBC_encode.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/iLBC_encode.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,37 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ iLBC_encode.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_ILBCENCODE_H
-+#define __iLBC_ILBCENCODE_H
-+
-+#include "iLBC_define.h"
-+
-+short initEncode( /* (o) Number of bytes
-+ encoded */
-+ iLBC_Enc_Inst_t *iLBCenc_inst, /* (i/o) Encoder instance */
-+ int mode /* (i) frame size mode */
-+);
-+
-+void iLBC_encode(
-+
-+
-+ unsigned char *bytes, /* (o) encoded data bits iLBC */
-+ float *block, /* (o) speech vector to
-+ encode */
-+ iLBC_Enc_Inst_t *iLBCenc_inst /* (i/o) the general encoder
-+ state */
-+);
-+
-+#endif
-+
-+
-+
-Files codecs/ilbc.orig/libilbc.a and codecs/ilbc/libilbc.a differ
-diff -druN codecs/ilbc.orig/libilbc.vcproj codecs/ilbc/libilbc.vcproj
---- codecs/ilbc.orig/libilbc.vcproj 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/libilbc.vcproj 2006-03-20 13:25:50.000000000 -0800
-@@ -0,0 +1,353 @@
-+<?xml version="1.0" encoding="Windows-1252"?>
-+<VisualStudioProject
-+ ProjectType="Visual C++"
-+ Version="8.00"
-+ Name="libilbc"
-+ ProjectGUID="{989BB874-7AF1-44CB-8E5C-CC8113D267E8}"
-+ RootNamespace="libilbc"
-+ Keyword="Win32Proj"
-+ >
-+ <Platforms>
-+ <Platform
-+ Name="Win32"
-+ />
-+ </Platforms>
-+ <ToolFiles>
-+ </ToolFiles>
-+ <Configurations>
-+ <Configuration
-+ Name="Debug|Win32"
-+ OutputDirectory="$(SolutionDir)$(ConfigurationName)"
-+ IntermediateDirectory="$(ConfigurationName)"
-+ ConfigurationType="4"
-+ CharacterSet="1"
-+ >
-+ <Tool
-+ Name="VCPreBuildEventTool"
-+ />
-+ <Tool
-+ Name="VCCustomBuildTool"
-+ />
-+ <Tool
-+ Name="VCXMLDataGeneratorTool"
-+ />
-+ <Tool
-+ Name="VCWebServiceProxyGeneratorTool"
-+ />
-+ <Tool
-+ Name="VCMIDLTool"
-+ />
-+ <Tool
-+ Name="VCCLCompilerTool"
-+ Optimization="0"
-+ PreprocessorDefinitions="WIN32;_DEBUG;_LIB"
-+ MinimalRebuild="true"
-+ BasicRuntimeChecks="3"
-+ RuntimeLibrary="3"
-+ UsePrecompiledHeader="0"
-+ WarningLevel="3"
-+ Detect64BitPortabilityProblems="true"
-+ DebugInformationFormat="4"
-+ />
-+ <Tool
-+ Name="VCManagedResourceCompilerTool"
-+ />
-+ <Tool
-+ Name="VCResourceCompilerTool"
-+ />
-+ <Tool
-+ Name="VCPreLinkEventTool"
-+ />
-+ <Tool
-+ Name="VCLibrarianTool"
-+ />
-+ <Tool
-+ Name="VCALinkTool"
-+ />
-+ <Tool
-+ Name="VCXDCMakeTool"
-+ />
-+ <Tool
-+ Name="VCBscMakeTool"
-+ />
-+ <Tool
-+ Name="VCFxCopTool"
-+ />
-+ <Tool
-+ Name="VCPostBuildEventTool"
-+ />
-+ </Configuration>
-+ <Configuration
-+ Name="Release|Win32"
-+ OutputDirectory="$(SolutionDir)$(ConfigurationName)"
-+ IntermediateDirectory="$(ConfigurationName)"
-+ ConfigurationType="4"
-+ CharacterSet="1"
-+ WholeProgramOptimization="1"
-+ >
-+ <Tool
-+ Name="VCPreBuildEventTool"
-+ />
-+ <Tool
-+ Name="VCCustomBuildTool"
-+ />
-+ <Tool
-+ Name="VCXMLDataGeneratorTool"
-+ />
-+ <Tool
-+ Name="VCWebServiceProxyGeneratorTool"
-+ />
-+ <Tool
-+ Name="VCMIDLTool"
-+ />
-+ <Tool
-+ Name="VCCLCompilerTool"
-+ PreprocessorDefinitions="WIN32;NDEBUG;_LIB"
-+ RuntimeLibrary="2"
-+ UsePrecompiledHeader="0"
-+ WarningLevel="3"
-+ Detect64BitPortabilityProblems="true"
-+ DebugInformationFormat="3"
-+ />
-+ <Tool
-+ Name="VCManagedResourceCompilerTool"
-+ />
-+ <Tool
-+ Name="VCResourceCompilerTool"
-+ />
-+ <Tool
-+ Name="VCPreLinkEventTool"
-+ />
-+ <Tool
-+ Name="VCLibrarianTool"
-+ />
-+ <Tool
-+ Name="VCALinkTool"
-+ />
-+ <Tool
-+ Name="VCXDCMakeTool"
-+ />
-+ <Tool
-+ Name="VCBscMakeTool"
-+ />
-+ <Tool
-+ Name="VCFxCopTool"
-+ />
-+ <Tool
-+ Name="VCPostBuildEventTool"
-+ />
-+ </Configuration>
-+ </Configurations>
-+ <References>
-+ </References>
-+ <Files>
-+ <Filter
-+ Name="Source Files"
-+ Filter="cpp;c;cc;cxx;def;odl;idl;hpj;bat;asm;asmx"
-+ UniqueIdentifier="{4FC737F1-C7A5-4376-A066-2A32D752A2FF}"
-+ >
-+ <File
-+ RelativePath=".\anaFilter.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\constants.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\createCB.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\doCPLC.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\enhancer.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\filter.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\FrameClassify.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\gainquant.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\getCBvec.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\helpfun.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\hpInput.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\hpOutput.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\iCBConstruct.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\iCBSearch.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\iLBC_decode.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\iLBC_encode.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\LPCdecode.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\LPCencode.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\lsf.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\packing.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\StateConstructW.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\StateSearchW.c"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\syntFilter.c"
-+ >
-+ </File>
-+ </Filter>
-+ <Filter
-+ Name="Header Files"
-+ Filter="h;hpp;hxx;hm;inl;inc;xsd"
-+ UniqueIdentifier="{93995380-89BD-4b04-88EB-625FBE52EBFB}"
-+ >
-+ <File
-+ RelativePath=".\anaFilter.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\constants.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\createCB.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\doCPLC.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\enhancer.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\filter.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\FrameClassify.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\gainquant.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\getCBvec.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\helpfun.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\hpInput.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\hpOutput.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\iCBConstruct.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\iCBSearch.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\iLBC_decode.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\iLBC_define.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\iLBC_encode.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\LPCdecode.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\LPCencode.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\lsf.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\packing.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\StateConstructW.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\StateSearchW.h"
-+ >
-+ </File>
-+ <File
-+ RelativePath=".\syntFilter.h"
-+ >
-+ </File>
-+ </Filter>
-+ <Filter
-+ Name="Resource Files"
-+ Filter="rc;ico;cur;bmp;dlg;rc2;rct;bin;rgs;gif;jpg;jpeg;jpe;resx;tiff;tif;png;wav"
-+ UniqueIdentifier="{67DA6AB6-F800-4c08-8B7A-83BB121AAD01}"
-+ >
-+ </Filter>
-+ </Files>
-+ <Globals>
-+ </Globals>
-+</VisualStudioProject>
-diff -druN codecs/ilbc.orig/lsf.c codecs/ilbc/lsf.c
---- codecs/ilbc.orig/lsf.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/lsf.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,264 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ lsf.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <string.h>
-+#include <math.h>
-+
-+#include "iLBC_define.h"
-+#include "lsf.h"
-+
-+/*----------------------------------------------------------------*
-+ * conversion from lpc coefficients to lsf coefficients
-+ *---------------------------------------------------------------*/
-+
-+void a2lsf(
-+ float *freq,/* (o) lsf coefficients */
-+ float *a /* (i) lpc coefficients */
-+){
-+ float steps[LSF_NUMBER_OF_STEPS] =
-+ {(float)0.00635, (float)0.003175, (float)0.0015875,
-+ (float)0.00079375};
-+ float step;
-+ int step_idx;
-+ int lsp_index;
-+ float p[LPC_HALFORDER];
-+ float q[LPC_HALFORDER];
-+ float p_pre[LPC_HALFORDER];
-+
-+
-+ float q_pre[LPC_HALFORDER];
-+ float old_p, old_q, *old;
-+ float *pq_coef;
-+ float omega, old_omega;
-+ int i;
-+ float hlp, hlp1, hlp2, hlp3, hlp4, hlp5;
-+
-+ for (i=0; i<LPC_HALFORDER; i++) {
-+ p[i] = (float)-1.0 * (a[i + 1] + a[LPC_FILTERORDER - i]);
-+ q[i] = a[LPC_FILTERORDER - i] - a[i + 1];
-+ }
-+
-+ p_pre[0] = (float)-1.0 - p[0];
-+ p_pre[1] = - p_pre[0] - p[1];
-+ p_pre[2] = - p_pre[1] - p[2];
-+ p_pre[3] = - p_pre[2] - p[3];
-+ p_pre[4] = - p_pre[3] - p[4];
-+ p_pre[4] = p_pre[4] / 2;
-+
-+ q_pre[0] = (float)1.0 - q[0];
-+ q_pre[1] = q_pre[0] - q[1];
-+ q_pre[2] = q_pre[1] - q[2];
-+ q_pre[3] = q_pre[2] - q[3];
-+ q_pre[4] = q_pre[3] - q[4];
-+ q_pre[4] = q_pre[4] / 2;
-+
-+ omega = 0.0;
-+ old_omega = 0.0;
-+
-+ old_p = FLOAT_MAX;
-+ old_q = FLOAT_MAX;
-+
-+ /* Here we loop through lsp_index to find all the
-+ LPC_FILTERORDER roots for omega. */
-+
-+ for (lsp_index = 0; lsp_index<LPC_FILTERORDER; lsp_index++) {
-+
-+ /* Depending on lsp_index being even or odd, we
-+ alternatively solve the roots for the two LSP equations. */
-+
-+
-+ if ((lsp_index & 0x1) == 0) {
-+ pq_coef = p_pre;
-+ old = &old_p;
-+ } else {
-+ pq_coef = q_pre;
-+ old = &old_q;
-+ }
-+
-+ /* Start with low resolution grid */
-+
-+ for (step_idx = 0, step = steps[step_idx];
-+ step_idx < LSF_NUMBER_OF_STEPS;){
-+
-+
-+
-+ /* cos(10piw) + pq(0)cos(8piw) + pq(1)cos(6piw) +
-+ pq(2)cos(4piw) + pq(3)cod(2piw) + pq(4) */
-+
-+ hlp = (float)cos(omega * TWO_PI);
-+ hlp1 = (float)2.0 * hlp + pq_coef[0];
-+ hlp2 = (float)2.0 * hlp * hlp1 - (float)1.0 +
-+ pq_coef[1];
-+ hlp3 = (float)2.0 * hlp * hlp2 - hlp1 + pq_coef[2];
-+ hlp4 = (float)2.0 * hlp * hlp3 - hlp2 + pq_coef[3];
-+ hlp5 = hlp * hlp4 - hlp3 + pq_coef[4];
-+
-+
-+ if (((hlp5 * (*old)) <= 0.0) || (omega >= 0.5)){
-+
-+ if (step_idx == (LSF_NUMBER_OF_STEPS - 1)){
-+
-+ if (fabs(hlp5) >= fabs(*old)) {
-+ freq[lsp_index] = omega - step;
-+ } else {
-+ freq[lsp_index] = omega;
-+ }
-+
-+
-+ if ((*old) >= 0.0){
-+ *old = (float)-1.0 * FLOAT_MAX;
-+ } else {
-+ *old = FLOAT_MAX;
-+ }
-+
-+ omega = old_omega;
-+ step_idx = 0;
-+
-+ step_idx = LSF_NUMBER_OF_STEPS;
-+ } else {
-+
-+ if (step_idx == 0) {
-+ old_omega = omega;
-+ }
-+
-+ step_idx++;
-+ omega -= steps[step_idx];
-+
-+ /* Go back one grid step */
-+
-+ step = steps[step_idx];
-+ }
-+ } else {
-+
-+ /* increment omega until they are of different sign,
-+ and we know there is at least one root between omega
-+ and old_omega */
-+ *old = hlp5;
-+ omega += step;
-+ }
-+
-+
-+ }
-+ }
-+
-+ for (i = 0; i<LPC_FILTERORDER; i++) {
-+ freq[i] = freq[i] * TWO_PI;
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * conversion from lsf coefficients to lpc coefficients
-+ *---------------------------------------------------------------*/
-+
-+void lsf2a(
-+ float *a_coef, /* (o) lpc coefficients */
-+ float *freq /* (i) lsf coefficients */
-+){
-+ int i, j;
-+ float hlp;
-+ float p[LPC_HALFORDER], q[LPC_HALFORDER];
-+ float a[LPC_HALFORDER + 1], a1[LPC_HALFORDER],
-+ a2[LPC_HALFORDER];
-+ float b[LPC_HALFORDER + 1], b1[LPC_HALFORDER],
-+ b2[LPC_HALFORDER];
-+
-+ for (i=0; i<LPC_FILTERORDER; i++) {
-+ freq[i] = freq[i] * PI2;
-+ }
-+
-+ /* Check input for ill-conditioned cases. This part is not
-+ found in the TIA standard. It involves the following 2 IF
-+ blocks. If "freq" is judged ill-conditioned, then we first
-+ modify freq[0] and freq[LPC_HALFORDER-1] (normally
-+ LPC_HALFORDER = 10 for LPC applications), then we adjust
-+ the other "freq" values slightly */
-+
-+
-+ if ((freq[0] <= 0.0) || (freq[LPC_FILTERORDER - 1] >= 0.5)){
-+
-+
-+ if (freq[0] <= 0.0) {
-+ freq[0] = (float)0.022;
-+ }
-+
-+
-+ if (freq[LPC_FILTERORDER - 1] >= 0.5) {
-+ freq[LPC_FILTERORDER - 1] = (float)0.499;
-+ }
-+
-+ hlp = (freq[LPC_FILTERORDER - 1] - freq[0]) /
-+ (float) (LPC_FILTERORDER - 1);
-+
-+ for (i=1; i<LPC_FILTERORDER; i++) {
-+ freq[i] = freq[i - 1] + hlp;
-+ }
-+
-+
-+ }
-+
-+ memset(a1, 0, LPC_HALFORDER*sizeof(float));
-+ memset(a2, 0, LPC_HALFORDER*sizeof(float));
-+ memset(b1, 0, LPC_HALFORDER*sizeof(float));
-+ memset(b2, 0, LPC_HALFORDER*sizeof(float));
-+ memset(a, 0, (LPC_HALFORDER+1)*sizeof(float));
-+ memset(b, 0, (LPC_HALFORDER+1)*sizeof(float));
-+
-+ /* p[i] and q[i] compute cos(2*pi*omega_{2j}) and
-+ cos(2*pi*omega_{2j-1} in eqs. 4.2.2.2-1 and 4.2.2.2-2.
-+ Note that for this code p[i] specifies the coefficients
-+ used in .Q_A(z) while q[i] specifies the coefficients used
-+ in .P_A(z) */
-+
-+ for (i=0; i<LPC_HALFORDER; i++) {
-+ p[i] = (float)cos(TWO_PI * freq[2 * i]);
-+ q[i] = (float)cos(TWO_PI * freq[2 * i + 1]);
-+ }
-+
-+ a[0] = 0.25;
-+ b[0] = 0.25;
-+
-+ for (i= 0; i<LPC_HALFORDER; i++) {
-+ a[i + 1] = a[i] - 2 * p[i] * a1[i] + a2[i];
-+ b[i + 1] = b[i] - 2 * q[i] * b1[i] + b2[i];
-+ a2[i] = a1[i];
-+ a1[i] = a[i];
-+ b2[i] = b1[i];
-+ b1[i] = b[i];
-+ }
-+
-+ for (j=0; j<LPC_FILTERORDER; j++) {
-+
-+ if (j == 0) {
-+ a[0] = 0.25;
-+ b[0] = -0.25;
-+ } else {
-+ a[0] = b[0] = 0.0;
-+ }
-+
-+ for (i=0; i<LPC_HALFORDER; i++) {
-+ a[i + 1] = a[i] - 2 * p[i] * a1[i] + a2[i];
-+ b[i + 1] = b[i] - 2 * q[i] * b1[i] + b2[i];
-+ a2[i] = a1[i];
-+ a1[i] = a[i];
-+ b2[i] = b1[i];
-+ b1[i] = b[i];
-+ }
-+
-+ a_coef[j + 1] = 2 * (a[LPC_HALFORDER] + b[LPC_HALFORDER]);
-+ }
-+
-+ a_coef[0] = 1.0;
-+
-+
-+}
-+
-+
-diff -druN codecs/ilbc.orig/lsf.h codecs/ilbc/lsf.h
---- codecs/ilbc.orig/lsf.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/lsf.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,30 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ lsf.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_LSF_H
-+#define __iLBC_LSF_H
-+
-+void a2lsf(
-+ float *freq,/* (o) lsf coefficients */
-+ float *a /* (i) lpc coefficients */
-+);
-+
-+void lsf2a(
-+ float *a_coef, /* (o) lpc coefficients */
-+ float *freq /* (i) lsf coefficients */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/packing.c codecs/ilbc/packing.c
---- codecs/ilbc.orig/packing.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/packing.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,175 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ packing.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include <math.h>
-+#include <stdlib.h>
-+
-+#include "iLBC_define.h"
-+#include "constants.h"
-+#include "helpfun.h"
-+#include "packing.h"
-+#include "string.h"
-+
-+/*----------------------------------------------------------------*
-+ * splitting an integer into first most significant bits and
-+ * remaining least significant bits
-+ *---------------------------------------------------------------*/
-+
-+void packsplit(
-+ int *index, /* (i) the value to split */
-+ int *firstpart, /* (o) the value specified by most
-+ significant bits */
-+ int *rest, /* (o) the value specified by least
-+ significant bits */
-+ int bitno_firstpart, /* (i) number of bits in most
-+ significant part */
-+ int bitno_total /* (i) number of bits in full range
-+ of value */
-+){
-+ int bitno_rest = bitno_total-bitno_firstpart;
-+
-+
-+
-+ *firstpart = *index>>(bitno_rest);
-+ *rest = *index-(*firstpart<<(bitno_rest));
-+}
-+
-+/*----------------------------------------------------------------*
-+ * combining a value corresponding to msb's with a value
-+ * corresponding to lsb's
-+ *---------------------------------------------------------------*/
-+
-+void packcombine(
-+ int *index, /* (i/o) the msb value in the
-+ combined value out */
-+ int rest, /* (i) the lsb value */
-+ int bitno_rest /* (i) the number of bits in the
-+ lsb part */
-+){
-+ *index = *index<<bitno_rest;
-+ *index += rest;
-+}
-+
-+/*----------------------------------------------------------------*
-+ * packing of bits into bitstream, i.e., vector of bytes
-+ *---------------------------------------------------------------*/
-+
-+void dopack(
-+ unsigned char **bitstream, /* (i/o) on entrance pointer to
-+ place in bitstream to pack
-+ new data, on exit pointer
-+ to place in bitstream to
-+ pack future data */
-+ int index, /* (i) the value to pack */
-+ int bitno, /* (i) the number of bits that the
-+ value will fit within */
-+ int *pos /* (i/o) write position in the
-+ current byte */
-+){
-+ int posLeft;
-+
-+ /* Clear the bits before starting in a new byte */
-+
-+ if ((*pos)==0) {
-+ **bitstream=0;
-+ }
-+
-+ while (bitno>0) {
-+
-+ /* Jump to the next byte if end of this byte is reached*/
-+
-+ if (*pos==8) {
-+ *pos=0;
-+ (*bitstream)++;
-+ **bitstream=0;
-+ }
-+
-+
-+
-+ posLeft=8-(*pos);
-+
-+ /* Insert index into the bitstream */
-+
-+ if (bitno <= posLeft) {
-+ **bitstream |= (unsigned char)(index<<(posLeft-bitno));
-+ *pos+=bitno;
-+ bitno=0;
-+ } else {
-+ **bitstream |= (unsigned char)(index>>(bitno-posLeft));
-+
-+ *pos=8;
-+ index-=((index>>(bitno-posLeft))<<(bitno-posLeft));
-+
-+ bitno-=posLeft;
-+ }
-+ }
-+}
-+
-+/*----------------------------------------------------------------*
-+ * unpacking of bits from bitstream, i.e., vector of bytes
-+ *---------------------------------------------------------------*/
-+
-+void unpack(
-+ unsigned char **bitstream, /* (i/o) on entrance pointer to
-+ place in bitstream to
-+ unpack new data from, on
-+ exit pointer to place in
-+ bitstream to unpack future
-+ data from */
-+ int *index, /* (o) resulting value */
-+ int bitno, /* (i) number of bits used to
-+ represent the value */
-+ int *pos /* (i/o) read position in the
-+ current byte */
-+){
-+ int BitsLeft;
-+
-+ *index=0;
-+
-+ while (bitno>0) {
-+
-+ /* move forward in bitstream when the end of the
-+ byte is reached */
-+
-+ if (*pos==8) {
-+ *pos=0;
-+ (*bitstream)++;
-+ }
-+
-+ BitsLeft=8-(*pos);
-+
-+ /* Extract bits to index */
-+
-+
-+
-+ if (BitsLeft>=bitno) {
-+ *index+=((((**bitstream)<<(*pos)) & 0xFF)>>(8-bitno));
-+
-+ *pos+=bitno;
-+ bitno=0;
-+ } else {
-+
-+ if ((8-bitno)>0) {
-+ *index+=((((**bitstream)<<(*pos)) & 0xFF)>>
-+ (8-bitno));
-+ *pos=8;
-+ } else {
-+ *index+=(((int)(((**bitstream)<<(*pos)) & 0xFF))<<
-+ (bitno-8));
-+ *pos=8;
-+ }
-+ bitno-=BitsLeft;
-+ }
-+ }
-+}
-+
-+
-diff -druN codecs/ilbc.orig/packing.h codecs/ilbc/packing.h
---- codecs/ilbc.orig/packing.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/packing.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,67 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ packing.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __PACKING_H
-+#define __PACKING_H
-+
-+void packsplit(
-+ int *index, /* (i) the value to split */
-+ int *firstpart, /* (o) the value specified by most
-+ significant bits */
-+ int *rest, /* (o) the value specified by least
-+ significant bits */
-+ int bitno_firstpart, /* (i) number of bits in most
-+ significant part */
-+ int bitno_total /* (i) number of bits in full range
-+ of value */
-+);
-+
-+void packcombine(
-+ int *index, /* (i/o) the msb value in the
-+ combined value out */
-+ int rest, /* (i) the lsb value */
-+ int bitno_rest /* (i) the number of bits in the
-+ lsb part */
-+);
-+
-+void dopack(
-+ unsigned char **bitstream, /* (i/o) on entrance pointer to
-+ place in bitstream to pack
-+ new data, on exit pointer
-+ to place in bitstream to
-+ pack future data */
-+ int index, /* (i) the value to pack */
-+ int bitno, /* (i) the number of bits that the
-+ value will fit within */
-+ int *pos /* (i/o) write position in the
-+ current byte */
-+);
-+
-+void unpack(
-+ unsigned char **bitstream, /* (i/o) on entrance pointer to
-+
-+
-+ place in bitstream to
-+ unpack new data from, on
-+ exit pointer to place in
-+ bitstream to unpack future
-+ data from */
-+ int *index, /* (o) resulting value */
-+ int bitno, /* (i) number of bits used to
-+ represent the value */
-+ int *pos /* (i/o) read position in the
-+ current byte */
-+);
-+
-+#endif
-+
-+
-diff -druN codecs/ilbc.orig/syntFilter.c codecs/ilbc/syntFilter.c
---- codecs/ilbc.orig/syntFilter.c 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/syntFilter.c 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,108 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ syntFilter.c
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#include "iLBC_define.h"
-+#include "syntFilter.h"
-+
-+/*----------------------------------------------------------------*
-+ * LP synthesis filter.
-+ *---------------------------------------------------------------*/
-+
-+void syntFilter(
-+ float *Out, /* (i/o) Signal to be filtered */
-+ float *a, /* (i) LP parameters */
-+ int len, /* (i) Length of signal */
-+ float *mem /* (i/o) Filter state */
-+){
-+ int i, j;
-+ float *po, *pi, *pa, *pm;
-+
-+ po=Out;
-+
-+ /* Filter first part using memory from past */
-+
-+ for (i=0; i<LPC_FILTERORDER; i++) {
-+ pi=&Out[i-1];
-+ pa=&a[1];
-+ pm=&mem[LPC_FILTERORDER-1];
-+ for (j=1; j<=i; j++) {
-+ *po-=(*pa++)*(*pi--);
-+ }
-+ for (j=i+1; j<LPC_FILTERORDER+1; j++) {
-+ *po-=(*pa++)*(*pm--);
-+ }
-+ po++;
-+ }
-+
-+ /* Filter last part where the state is entierly in
-+ the output vector */
-+
-+ for (i=LPC_FILTERORDER; i<len; i++) {
-+
-+
-+ pi=&Out[i-1];
-+ pa=&a[1];
-+ for (j=1; j<LPC_FILTERORDER+1; j++) {
-+ *po-=(*pa++)*(*pi--);
-+ }
-+ po++;
-+ }
-+
-+ /* Update state vector */
-+
-+ memcpy(mem, &Out[len-LPC_FILTERORDER],
-+ LPC_FILTERORDER*sizeof(float));
-+}
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-+
-diff -druN codecs/ilbc.orig/syntFilter.h codecs/ilbc/syntFilter.h
---- codecs/ilbc.orig/syntFilter.h 1969-12-31 16:00:00.000000000 -0800
-+++ codecs/ilbc/syntFilter.h 2006-02-14 11:14:15.000000000 -0800
-@@ -0,0 +1,27 @@
-+
-+/******************************************************************
-+
-+ iLBC Speech Coder ANSI-C Source Code
-+
-+ syntFilter.h
-+
-+ Copyright (C) The Internet Society (2004).
-+ All Rights Reserved.
-+
-+******************************************************************/
-+
-+#ifndef __iLBC_SYNTFILTER_H
-+#define __iLBC_SYNTFILTER_H
-+
-+void syntFilter(
-+ float *Out, /* (i/o) Signal to be filtered */
-+ float *a, /* (i) LP parameters */
-+ int len, /* (i) Length of signal */
-+ float *mem /* (i/o) Filter state */
-+
-+
-+);
-+
-+#endif
-+
-+
---- codecs/.moduleinfo 2008/08/20 23:00:58 1.1
-+++ codecs/.moduleinfo 2008/08/20 23:01:12
-@@ -11,7 +11,6 @@
- <depend>gsm</depend>
- </member>
- <member name="codec_ilbc" displayname="iLBC Coder/Decoder" remove_on_change="codecs/codec_ilbc.o codecs/codec_ilbc.so">
-- <defaultenabled>no</defaultenabled>
- </member>
- <member name="codec_lpc10" displayname="LPC10 2.4kbps Coder/Decoder" remove_on_change="codecs/codec_lpc10.o codecs/codec_lpc10.so">
- </member>