session-android/jni/webrtc/modules/audio_coding/codecs/ilbc/state_search.c

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/*
* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
/******************************************************************
iLBC Speech Coder ANSI-C Source Code
WebRtcIlbcfix_StateSearch.c
******************************************************************/
#include "defines.h"
#include "constants.h"
#include "abs_quant.h"
/*----------------------------------------------------------------*
* encoding of start state
*---------------------------------------------------------------*/
void WebRtcIlbcfix_StateSearch(
iLBC_Enc_Inst_t *iLBCenc_inst,
/* (i) Encoder instance */
iLBC_bits *iLBC_encbits,/* (i/o) Encoded bits (output idxForMax
and idxVec, input state_first) */
int16_t *residual, /* (i) target residual vector */
int16_t *syntDenum, /* (i) lpc synthesis filter */
int16_t *weightDenum /* (i) weighting filter denuminator */
) {
int16_t k, index;
int16_t maxVal;
int16_t scale, shift;
int32_t maxValsq;
int16_t scaleRes;
int16_t max;
int i;
/* Stack based */
int16_t numerator[1+LPC_FILTERORDER];
int16_t residualLongVec[2*STATE_SHORT_LEN_30MS+LPC_FILTERORDER];
int16_t sampleMa[2*STATE_SHORT_LEN_30MS];
int16_t *residualLong = &residualLongVec[LPC_FILTERORDER];
int16_t *sampleAr = residualLong;
/* Scale to maximum 12 bits to avoid saturation in circular convolution filter */
max = WebRtcSpl_MaxAbsValueW16(residual, iLBCenc_inst->state_short_len);
scaleRes = WebRtcSpl_GetSizeInBits(max)-12;
scaleRes = WEBRTC_SPL_MAX(0, scaleRes);
/* Set up the filter coefficients for the circular convolution */
for (i=0; i<LPC_FILTERORDER+1; i++) {
numerator[i] = (syntDenum[LPC_FILTERORDER-i]>>scaleRes);
}
/* Copy the residual to a temporary buffer that we can filter
* and set the remaining samples to zero.
*/
WEBRTC_SPL_MEMCPY_W16(residualLong, residual, iLBCenc_inst->state_short_len);
WebRtcSpl_MemSetW16(residualLong + iLBCenc_inst->state_short_len, 0, iLBCenc_inst->state_short_len);
/* Run the Zero-Pole filter (Ciurcular convolution) */
WebRtcSpl_MemSetW16(residualLongVec, 0, LPC_FILTERORDER);
WebRtcSpl_FilterMAFastQ12(
residualLong, sampleMa,
numerator, LPC_FILTERORDER+1, (int16_t)(iLBCenc_inst->state_short_len + LPC_FILTERORDER));
WebRtcSpl_MemSetW16(&sampleMa[iLBCenc_inst->state_short_len + LPC_FILTERORDER], 0, iLBCenc_inst->state_short_len - LPC_FILTERORDER);
WebRtcSpl_FilterARFastQ12(
sampleMa, sampleAr,
syntDenum, LPC_FILTERORDER+1, (int16_t)(2*iLBCenc_inst->state_short_len));
for(k=0;k<iLBCenc_inst->state_short_len;k++){
sampleAr[k] += sampleAr[k+iLBCenc_inst->state_short_len];
}
/* Find maximum absolute value in the vector */
maxVal=WebRtcSpl_MaxAbsValueW16(sampleAr, iLBCenc_inst->state_short_len);
/* Find the best index */
if ((((int32_t)maxVal)<<scaleRes)<23170) {
maxValsq=((int32_t)maxVal*maxVal)<<(2+2*scaleRes);
} else {
maxValsq=(int32_t)WEBRTC_SPL_WORD32_MAX;
}
index=0;
for (i=0;i<63;i++) {
if (maxValsq>=WebRtcIlbcfix_kChooseFrgQuant[i]) {
index=i+1;
} else {
i=63;
}
}
iLBC_encbits->idxForMax=index;
/* Rescale the vector before quantization */
scale=WebRtcIlbcfix_kScale[index];
if (index<27) { /* scale table is in Q16, fout[] is in Q(-1) and we want the result to be in Q11 */
shift=4;
} else { /* scale table is in Q21, fout[] is in Q(-1) and we want the result to be in Q11 */
shift=9;
}
/* Set up vectors for AbsQuant and rescale it with the scale factor */
WebRtcSpl_ScaleVectorWithSat(sampleAr, sampleAr, scale,
iLBCenc_inst->state_short_len, (int16_t)(shift-scaleRes));
/* Quantize the values in fout[] */
WebRtcIlbcfix_AbsQuant(iLBCenc_inst, iLBC_encbits, sampleAr, weightDenum);
return;
}