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383 lines
13 KiB
C
383 lines
13 KiB
C
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/*
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* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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/******************************************************************
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iLBC Speech Coder ANSI-C Source Code
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WebRtcIlbcfix_EnhancerInterface.c
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******************************************************************/
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#include <string.h>
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#include "defines.h"
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#include "constants.h"
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#include "xcorr_coef.h"
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#include "enhancer.h"
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#include "hp_output.h"
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/*----------------------------------------------------------------*
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* interface for enhancer
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*---------------------------------------------------------------*/
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int WebRtcIlbcfix_EnhancerInterface( /* (o) Estimated lag in end of in[] */
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int16_t *out, /* (o) enhanced signal */
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int16_t *in, /* (i) unenhanced signal */
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iLBC_Dec_Inst_t *iLBCdec_inst /* (i) buffers etc */
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){
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int iblock;
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int lag=20, tlag=20;
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int inLen=iLBCdec_inst->blockl+120;
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int16_t scale, scale1, plc_blockl;
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int16_t *enh_buf, *enh_period;
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int32_t tmp1, tmp2, max, new_blocks;
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int16_t *enh_bufPtr1;
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int i, k;
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int16_t EnChange;
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int16_t SqrtEnChange;
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int16_t inc;
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int16_t win;
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int16_t *tmpW16ptr;
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int16_t startPos;
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int16_t *plc_pred;
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int16_t *target, *regressor;
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int16_t max16;
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int shifts;
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int32_t ener;
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int16_t enerSh;
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int16_t corrSh;
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int16_t ind, sh;
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int16_t start, stop;
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/* Stack based */
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int16_t totsh[3];
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int16_t downsampled[(BLOCKL_MAX+120)>>1]; /* length 180 */
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int32_t corr32[50];
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int32_t corrmax[3];
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int16_t corr16[3];
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int16_t en16[3];
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int16_t lagmax[3];
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plc_pred = downsampled; /* Reuse memory since plc_pred[ENH_BLOCKL] and
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downsampled are non overlapping */
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enh_buf=iLBCdec_inst->enh_buf;
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enh_period=iLBCdec_inst->enh_period;
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/* Copy in the new data into the enhancer buffer */
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memmove(enh_buf, &enh_buf[iLBCdec_inst->blockl],
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(ENH_BUFL - iLBCdec_inst->blockl) * sizeof(*enh_buf));
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WEBRTC_SPL_MEMCPY_W16(&enh_buf[ENH_BUFL-iLBCdec_inst->blockl], in,
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iLBCdec_inst->blockl);
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/* Set variables that are dependent on frame size */
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if (iLBCdec_inst->mode==30) {
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plc_blockl=ENH_BLOCKL;
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new_blocks=3;
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startPos=320; /* Start position for enhancement
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(640-new_blocks*ENH_BLOCKL-80) */
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} else {
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plc_blockl=40;
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new_blocks=2;
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startPos=440; /* Start position for enhancement
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(640-new_blocks*ENH_BLOCKL-40) */
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}
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/* Update the pitch prediction for each enhancer block, move the old ones */
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memmove(enh_period, &enh_period[new_blocks],
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(ENH_NBLOCKS_TOT - new_blocks) * sizeof(*enh_period));
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k=WebRtcSpl_DownsampleFast(
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enh_buf+ENH_BUFL-inLen, /* Input samples */
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(int16_t)(inLen+ENH_BUFL_FILTEROVERHEAD),
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downsampled,
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(int16_t)WEBRTC_SPL_RSHIFT_W16(inLen, 1),
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(int16_t*)WebRtcIlbcfix_kLpFiltCoefs, /* Coefficients in Q12 */
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FILTERORDER_DS_PLUS1, /* Length of filter (order-1) */
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FACTOR_DS,
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DELAY_DS);
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/* Estimate the pitch in the down sampled domain. */
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for(iblock = 0; iblock<new_blocks; iblock++){
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/* references */
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i=60+WEBRTC_SPL_MUL_16_16(iblock,ENH_BLOCKL_HALF);
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target=downsampled+i;
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regressor=downsampled+i-10;
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/* scaling */
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max16=WebRtcSpl_MaxAbsValueW16(®ressor[-50],
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(int16_t)(ENH_BLOCKL_HALF+50-1));
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shifts = WebRtcSpl_GetSizeInBits(WEBRTC_SPL_MUL_16_16(max16, max16)) - 25;
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shifts = WEBRTC_SPL_MAX(0, shifts);
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/* compute cross correlation */
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WebRtcSpl_CrossCorrelation(corr32, target, regressor,
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ENH_BLOCKL_HALF, 50, (int16_t)shifts, -1);
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/* Find 3 highest correlations that should be compared for the
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highest (corr*corr)/ener */
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for (i=0;i<2;i++) {
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lagmax[i] = WebRtcSpl_MaxIndexW32(corr32, 50);
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corrmax[i] = corr32[lagmax[i]];
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start = lagmax[i] - 2;
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stop = lagmax[i] + 2;
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start = WEBRTC_SPL_MAX(0, start);
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stop = WEBRTC_SPL_MIN(49, stop);
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for (k=start; k<=stop; k++) {
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corr32[k] = 0;
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}
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}
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lagmax[2] = WebRtcSpl_MaxIndexW32(corr32, 50);
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corrmax[2] = corr32[lagmax[2]];
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/* Calculate normalized corr^2 and ener */
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for (i=0;i<3;i++) {
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corrSh = 15-WebRtcSpl_GetSizeInBits(corrmax[i]);
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ener = WebRtcSpl_DotProductWithScale(®ressor[-lagmax[i]],
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®ressor[-lagmax[i]],
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ENH_BLOCKL_HALF, shifts);
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enerSh = 15-WebRtcSpl_GetSizeInBits(ener);
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corr16[i] = (int16_t)WEBRTC_SPL_SHIFT_W32(corrmax[i], corrSh);
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corr16[i] = (int16_t)WEBRTC_SPL_MUL_16_16_RSFT(corr16[i],
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corr16[i], 16);
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en16[i] = (int16_t)WEBRTC_SPL_SHIFT_W32(ener, enerSh);
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totsh[i] = enerSh - WEBRTC_SPL_LSHIFT_W32(corrSh, 1);
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}
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/* Compare lagmax[0..3] for the (corr^2)/ener criteria */
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ind = 0;
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for (i=1; i<3; i++) {
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if (totsh[ind] > totsh[i]) {
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sh = WEBRTC_SPL_MIN(31, totsh[ind]-totsh[i]);
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if ( WEBRTC_SPL_MUL_16_16(corr16[ind], en16[i]) <
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WEBRTC_SPL_MUL_16_16_RSFT(corr16[i], en16[ind], sh)) {
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ind = i;
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}
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} else {
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sh = WEBRTC_SPL_MIN(31, totsh[i]-totsh[ind]);
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if (WEBRTC_SPL_MUL_16_16_RSFT(corr16[ind], en16[i], sh) <
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WEBRTC_SPL_MUL_16_16(corr16[i], en16[ind])) {
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ind = i;
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}
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}
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}
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lag = lagmax[ind] + 10;
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/* Store the estimated lag in the non-downsampled domain */
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enh_period[ENH_NBLOCKS_TOT-new_blocks+iblock] =
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(int16_t)WEBRTC_SPL_MUL_16_16(lag, 8);
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/* Store the estimated lag for backward PLC */
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if (iLBCdec_inst->prev_enh_pl==1) {
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if (!iblock) {
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tlag = WEBRTC_SPL_MUL_16_16(lag, 2);
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}
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} else {
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if (iblock==1) {
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tlag = WEBRTC_SPL_MUL_16_16(lag, 2);
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}
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}
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lag = WEBRTC_SPL_MUL_16_16(lag, 2);
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}
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if ((iLBCdec_inst->prev_enh_pl==1)||(iLBCdec_inst->prev_enh_pl==2)) {
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/* Calculate the best lag of the new frame
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This is used to interpolate backwards and mix with the PLC'd data
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*/
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/* references */
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target=in;
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regressor=in+tlag-1;
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/* scaling */
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max16=WebRtcSpl_MaxAbsValueW16(regressor, (int16_t)(plc_blockl+3-1));
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if (max16>5000)
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shifts=2;
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else
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shifts=0;
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/* compute cross correlation */
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WebRtcSpl_CrossCorrelation(corr32, target, regressor,
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plc_blockl, 3, (int16_t)shifts, 1);
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/* find lag */
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lag=WebRtcSpl_MaxIndexW32(corr32, 3);
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lag+=tlag-1;
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/* Copy the backward PLC to plc_pred */
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if (iLBCdec_inst->prev_enh_pl==1) {
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if (lag>plc_blockl) {
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WEBRTC_SPL_MEMCPY_W16(plc_pred, &in[lag-plc_blockl], plc_blockl);
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} else {
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WEBRTC_SPL_MEMCPY_W16(&plc_pred[plc_blockl-lag], in, lag);
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WEBRTC_SPL_MEMCPY_W16(
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plc_pred, &enh_buf[ENH_BUFL-iLBCdec_inst->blockl-plc_blockl+lag],
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(plc_blockl-lag));
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}
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} else {
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int pos;
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pos = plc_blockl;
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while (lag<pos) {
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WEBRTC_SPL_MEMCPY_W16(&plc_pred[pos-lag], in, lag);
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pos = pos - lag;
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}
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WEBRTC_SPL_MEMCPY_W16(plc_pred, &in[lag-pos], pos);
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}
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if (iLBCdec_inst->prev_enh_pl==1) {
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/* limit energy change
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if energy in backward PLC is more than 4 times higher than the forward
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PLC, then reduce the energy in the backward PLC vector:
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sample 1...len-16 set energy of the to 4 times forward PLC
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sample len-15..len interpolate between 4 times fw PLC and bw PLC energy
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Note: Compared to floating point code there is a slight change,
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the window is 16 samples long instead of 10 samples to simplify the
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calculations
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*/
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max=WebRtcSpl_MaxAbsValueW16(
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&enh_buf[ENH_BUFL-iLBCdec_inst->blockl-plc_blockl], plc_blockl);
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max16=WebRtcSpl_MaxAbsValueW16(plc_pred, plc_blockl);
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max = WEBRTC_SPL_MAX(max, max16);
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scale=22-(int16_t)WebRtcSpl_NormW32(max);
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scale=WEBRTC_SPL_MAX(scale,0);
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tmp2 = WebRtcSpl_DotProductWithScale(
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&enh_buf[ENH_BUFL-iLBCdec_inst->blockl-plc_blockl],
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&enh_buf[ENH_BUFL-iLBCdec_inst->blockl-plc_blockl],
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plc_blockl, scale);
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tmp1 = WebRtcSpl_DotProductWithScale(plc_pred, plc_pred,
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plc_blockl, scale);
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/* Check the energy difference */
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if ((tmp1>0)&&((tmp1>>2)>tmp2)) {
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/* EnChange is now guaranteed to be <0.5
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Calculate EnChange=tmp2/tmp1 in Q16
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*/
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scale1=(int16_t)WebRtcSpl_NormW32(tmp1);
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tmp1=WEBRTC_SPL_SHIFT_W32(tmp1, (scale1-16)); /* using 15 bits */
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tmp2=WEBRTC_SPL_SHIFT_W32(tmp2, (scale1));
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EnChange = (int16_t)WebRtcSpl_DivW32W16(tmp2,
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(int16_t)tmp1);
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/* Calculate the Sqrt of the energy in Q15 ((14+16)/2) */
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SqrtEnChange = (int16_t)WebRtcSpl_SqrtFloor(
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WEBRTC_SPL_LSHIFT_W32((int32_t)EnChange, 14));
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/* Multiply first part of vector with 2*SqrtEnChange */
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WebRtcSpl_ScaleVector(plc_pred, plc_pred, SqrtEnChange,
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(int16_t)(plc_blockl-16), 14);
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/* Calculate increase parameter for window part (16 last samples) */
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/* (1-2*SqrtEnChange)/16 in Q15 */
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inc=(2048-WEBRTC_SPL_RSHIFT_W16(SqrtEnChange, 3));
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win=0;
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tmpW16ptr=&plc_pred[plc_blockl-16];
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for (i=16;i>0;i--) {
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(*tmpW16ptr)=(int16_t)WEBRTC_SPL_MUL_16_16_RSFT(
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(*tmpW16ptr), (SqrtEnChange+(win>>1)), 14);
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/* multiply by (2.0*SqrtEnChange+win) */
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win += inc;
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tmpW16ptr++;
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}
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}
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/* Make the linear interpolation between the forward PLC'd data
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and the backward PLC'd data (from the new frame)
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*/
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if (plc_blockl==40) {
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inc=400; /* 1/41 in Q14 */
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} else { /* plc_blockl==80 */
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inc=202; /* 1/81 in Q14 */
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}
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win=0;
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enh_bufPtr1=&enh_buf[ENH_BUFL-1-iLBCdec_inst->blockl];
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for (i=0; i<plc_blockl; i++) {
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win+=inc;
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*enh_bufPtr1 =
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(int16_t)WEBRTC_SPL_MUL_16_16_RSFT((*enh_bufPtr1), win, 14);
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*enh_bufPtr1 += (int16_t)WEBRTC_SPL_MUL_16_16_RSFT(
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(16384-win), plc_pred[plc_blockl-1-i], 14);
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enh_bufPtr1--;
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}
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} else {
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int16_t *synt = &downsampled[LPC_FILTERORDER];
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enh_bufPtr1=&enh_buf[ENH_BUFL-iLBCdec_inst->blockl-plc_blockl];
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WEBRTC_SPL_MEMCPY_W16(enh_bufPtr1, plc_pred, plc_blockl);
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/* Clear fileter memory */
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WebRtcSpl_MemSetW16(iLBCdec_inst->syntMem, 0, LPC_FILTERORDER);
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WebRtcSpl_MemSetW16(iLBCdec_inst->hpimemy, 0, 4);
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WebRtcSpl_MemSetW16(iLBCdec_inst->hpimemx, 0, 2);
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/* Initialize filter memory by filtering through 2 lags */
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WEBRTC_SPL_MEMCPY_W16(&synt[-LPC_FILTERORDER], iLBCdec_inst->syntMem,
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LPC_FILTERORDER);
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WebRtcSpl_FilterARFastQ12(
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enh_bufPtr1,
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synt,
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&iLBCdec_inst->old_syntdenum[
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(iLBCdec_inst->nsub-1)*(LPC_FILTERORDER+1)],
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LPC_FILTERORDER+1, (int16_t)lag);
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WEBRTC_SPL_MEMCPY_W16(&synt[-LPC_FILTERORDER], &synt[lag-LPC_FILTERORDER],
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LPC_FILTERORDER);
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WebRtcIlbcfix_HpOutput(synt, (int16_t*)WebRtcIlbcfix_kHpOutCoefs,
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iLBCdec_inst->hpimemy, iLBCdec_inst->hpimemx,
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(int16_t)lag);
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WebRtcSpl_FilterARFastQ12(
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enh_bufPtr1, synt,
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&iLBCdec_inst->old_syntdenum[
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(iLBCdec_inst->nsub-1)*(LPC_FILTERORDER+1)],
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LPC_FILTERORDER+1, (int16_t)lag);
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WEBRTC_SPL_MEMCPY_W16(iLBCdec_inst->syntMem, &synt[lag-LPC_FILTERORDER],
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LPC_FILTERORDER);
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WebRtcIlbcfix_HpOutput(synt, (int16_t*)WebRtcIlbcfix_kHpOutCoefs,
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iLBCdec_inst->hpimemy, iLBCdec_inst->hpimemx,
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(int16_t)lag);
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}
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}
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/* Perform enhancement block by block */
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for (iblock = 0; iblock<new_blocks; iblock++) {
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WebRtcIlbcfix_Enhancer(out+WEBRTC_SPL_MUL_16_16(iblock, ENH_BLOCKL),
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enh_buf,
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||
|
ENH_BUFL,
|
||
|
(int16_t)(WEBRTC_SPL_MUL_16_16(iblock, ENH_BLOCKL)+startPos),
|
||
|
enh_period,
|
||
|
(int16_t*)WebRtcIlbcfix_kEnhPlocs, ENH_NBLOCKS_TOT);
|
||
|
}
|
||
|
|
||
|
return (lag);
|
||
|
}
|