2016-05-01 15:48:46 +00:00
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/***********************************************************************
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Copyright (c) 2006-2011, Skype Limited. All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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- Redistributions of source code must retain the above copyright notice,
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this list of conditions and the following disclaimer.
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- Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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- Neither the name of Internet Society, IETF or IETF Trust, nor the
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names of specific contributors, may be used to endorse or promote
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products derived from this software without specific prior written
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permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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POSSIBILITY OF SUCH DAMAGE.
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***********************************************************************/
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#ifndef __NSQ_DEL_DEC_MIPSR1_H__
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#define __NSQ_DEL_DEC_MIPSR1_H__
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2016-10-12 18:37:38 +00:00
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include "main.h"
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#include "stack_alloc.h"
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2016-05-01 15:48:46 +00:00
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#define OVERRIDE_silk_noise_shape_quantizer_del_dec
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static inline void silk_noise_shape_quantizer_del_dec(
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silk_nsq_state *NSQ, /* I/O NSQ state */
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NSQ_del_dec_struct psDelDec[], /* I/O Delayed decision states */
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opus_int signalType, /* I Signal type */
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const opus_int32 x_Q10[], /* I */
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opus_int8 pulses[], /* O */
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opus_int16 xq[], /* O */
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opus_int32 sLTP_Q15[], /* I/O LTP filter state */
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opus_int32 delayedGain_Q10[], /* I/O Gain delay buffer */
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const opus_int16 a_Q12[], /* I Short term prediction coefs */
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const opus_int16 b_Q14[], /* I Long term prediction coefs */
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const opus_int16 AR_shp_Q13[], /* I Noise shaping coefs */
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opus_int lag, /* I Pitch lag */
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opus_int32 HarmShapeFIRPacked_Q14, /* I */
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opus_int Tilt_Q14, /* I Spectral tilt */
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opus_int32 LF_shp_Q14, /* I */
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opus_int32 Gain_Q16, /* I */
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opus_int Lambda_Q10, /* I */
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opus_int offset_Q10, /* I */
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opus_int length, /* I Input length */
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opus_int subfr, /* I Subframe number */
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opus_int shapingLPCOrder, /* I Shaping LPC filter order */
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opus_int predictLPCOrder, /* I Prediction filter order */
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opus_int warping_Q16, /* I */
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opus_int nStatesDelayedDecision, /* I Number of states in decision tree */
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2019-11-02 16:59:07 +00:00
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opus_int *smpl_buf_idx, /* I/O Index to newest samples in buffers */
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2017-05-28 19:15:14 +00:00
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opus_int decisionDelay, /* I */
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int arch /* I */
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2016-05-01 15:48:46 +00:00
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)
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{
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opus_int i, j, k, Winner_ind, RDmin_ind, RDmax_ind, last_smple_idx;
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opus_int32 Winner_rand_state;
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opus_int32 LTP_pred_Q14, LPC_pred_Q14, n_AR_Q14, n_LTP_Q14;
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opus_int32 n_LF_Q14, r_Q10, rr_Q10, rd1_Q10, rd2_Q10, RDmin_Q10, RDmax_Q10;
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opus_int32 q1_Q0, q1_Q10, q2_Q10, exc_Q14, LPC_exc_Q14, xq_Q14, Gain_Q10;
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opus_int32 tmp1, tmp2, sLF_AR_shp_Q14;
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opus_int32 *pred_lag_ptr, *shp_lag_ptr, *psLPC_Q14;
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NSQ_sample_struct psSampleState[ MAX_DEL_DEC_STATES ][ 2 ];
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NSQ_del_dec_struct *psDD;
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NSQ_sample_struct *psSS;
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opus_int16 b_Q14_0, b_Q14_1, b_Q14_2, b_Q14_3, b_Q14_4;
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opus_int16 a_Q12_0, a_Q12_1, a_Q12_2, a_Q12_3, a_Q12_4, a_Q12_5, a_Q12_6;
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opus_int16 a_Q12_7, a_Q12_8, a_Q12_9, a_Q12_10, a_Q12_11, a_Q12_12, a_Q12_13;
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opus_int16 a_Q12_14, a_Q12_15;
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opus_int32 cur, prev, next;
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2017-05-28 19:15:14 +00:00
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/*Unused.*/
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(void)arch;
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2016-05-01 15:48:46 +00:00
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//Intialize b_Q14 variables
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b_Q14_0 = b_Q14[ 0 ];
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b_Q14_1 = b_Q14[ 1 ];
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b_Q14_2 = b_Q14[ 2 ];
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b_Q14_3 = b_Q14[ 3 ];
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b_Q14_4 = b_Q14[ 4 ];
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//Intialize a_Q12 variables
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a_Q12_0 = a_Q12[0];
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a_Q12_1 = a_Q12[1];
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a_Q12_2 = a_Q12[2];
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a_Q12_3 = a_Q12[3];
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a_Q12_4 = a_Q12[4];
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a_Q12_5 = a_Q12[5];
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a_Q12_6 = a_Q12[6];
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a_Q12_7 = a_Q12[7];
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a_Q12_8 = a_Q12[8];
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a_Q12_9 = a_Q12[9];
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a_Q12_10 = a_Q12[10];
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a_Q12_11 = a_Q12[11];
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a_Q12_12 = a_Q12[12];
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a_Q12_13 = a_Q12[13];
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a_Q12_14 = a_Q12[14];
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a_Q12_15 = a_Q12[15];
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long long temp64;
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silk_assert( nStatesDelayedDecision > 0 );
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shp_lag_ptr = &NSQ->sLTP_shp_Q14[ NSQ->sLTP_shp_buf_idx - lag + HARM_SHAPE_FIR_TAPS / 2 ];
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pred_lag_ptr = &sLTP_Q15[ NSQ->sLTP_buf_idx - lag + LTP_ORDER / 2 ];
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Gain_Q10 = silk_RSHIFT( Gain_Q16, 6 );
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for( i = 0; i < length; i++ ) {
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/* Perform common calculations used in all states */
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/* Long-term prediction */
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if( signalType == TYPE_VOICED ) {
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/* Unrolled loop */
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/* Avoids introducing a bias because silk_SMLAWB() always rounds to -inf */
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temp64 = __builtin_mips_mult(pred_lag_ptr[ 0 ], b_Q14_0 );
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temp64 = __builtin_mips_madd( temp64, pred_lag_ptr[ -1 ], b_Q14_1 );
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temp64 = __builtin_mips_madd( temp64, pred_lag_ptr[ -2 ], b_Q14_2 );
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temp64 = __builtin_mips_madd( temp64, pred_lag_ptr[ -3 ], b_Q14_3 );
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temp64 = __builtin_mips_madd( temp64, pred_lag_ptr[ -4 ], b_Q14_4 );
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temp64 += 32768;
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LTP_pred_Q14 = __builtin_mips_extr_w(temp64, 16);
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LTP_pred_Q14 = silk_LSHIFT( LTP_pred_Q14, 1 ); /* Q13 -> Q14 */
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pred_lag_ptr++;
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} else {
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LTP_pred_Q14 = 0;
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}
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/* Long-term shaping */
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if( lag > 0 ) {
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/* Symmetric, packed FIR coefficients */
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n_LTP_Q14 = silk_SMULWB( silk_ADD32( shp_lag_ptr[ 0 ], shp_lag_ptr[ -2 ] ), HarmShapeFIRPacked_Q14 );
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n_LTP_Q14 = silk_SMLAWT( n_LTP_Q14, shp_lag_ptr[ -1 ], HarmShapeFIRPacked_Q14 );
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n_LTP_Q14 = silk_SUB_LSHIFT32( LTP_pred_Q14, n_LTP_Q14, 2 ); /* Q12 -> Q14 */
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shp_lag_ptr++;
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} else {
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n_LTP_Q14 = 0;
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}
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for( k = 0; k < nStatesDelayedDecision; k++ ) {
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/* Delayed decision state */
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psDD = &psDelDec[ k ];
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/* Sample state */
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psSS = psSampleState[ k ];
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/* Generate dither */
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psDD->Seed = silk_RAND( psDD->Seed );
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/* Pointer used in short term prediction and shaping */
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psLPC_Q14 = &psDD->sLPC_Q14[ NSQ_LPC_BUF_LENGTH - 1 + i ];
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/* Short-term prediction */
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silk_assert( predictLPCOrder == 10 || predictLPCOrder == 16 );
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temp64 = __builtin_mips_mult(psLPC_Q14[ 0 ], a_Q12_0 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -1 ], a_Q12_1 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -2 ], a_Q12_2 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -3 ], a_Q12_3 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -4 ], a_Q12_4 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -5 ], a_Q12_5 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -6 ], a_Q12_6 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -7 ], a_Q12_7 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -8 ], a_Q12_8 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -9 ], a_Q12_9 );
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if( predictLPCOrder == 16 ) {
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -10 ], a_Q12_10 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -11 ], a_Q12_11 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -12 ], a_Q12_12 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -13 ], a_Q12_13 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -14 ], a_Q12_14 );
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temp64 = __builtin_mips_madd( temp64, psLPC_Q14[ -15 ], a_Q12_15 );
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}
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temp64 += 32768;
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LPC_pred_Q14 = __builtin_mips_extr_w(temp64, 16);
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LPC_pred_Q14 = silk_LSHIFT( LPC_pred_Q14, 4 ); /* Q10 -> Q14 */
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/* Noise shape feedback */
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silk_assert( ( shapingLPCOrder & 1 ) == 0 ); /* check that order is even */
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/* Output of lowpass section */
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tmp2 = silk_SMLAWB( psLPC_Q14[ 0 ], psDD->sAR2_Q14[ 0 ], warping_Q16 );
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/* Output of allpass section */
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tmp1 = silk_SMLAWB( psDD->sAR2_Q14[ 0 ], psDD->sAR2_Q14[ 1 ] - tmp2, warping_Q16 );
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psDD->sAR2_Q14[ 0 ] = tmp2;
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temp64 = __builtin_mips_mult(tmp2, AR_shp_Q13[ 0 ] );
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prev = psDD->sAR2_Q14[ 1 ];
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/* Loop over allpass sections */
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for( j = 2; j < shapingLPCOrder; j += 2 ) {
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cur = psDD->sAR2_Q14[ j ];
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next = psDD->sAR2_Q14[ j+1 ];
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/* Output of allpass section */
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tmp2 = silk_SMLAWB( prev, cur - tmp1, warping_Q16 );
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psDD->sAR2_Q14[ j - 1 ] = tmp1;
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temp64 = __builtin_mips_madd( temp64, tmp1, AR_shp_Q13[ j - 1 ] );
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temp64 = __builtin_mips_madd( temp64, tmp2, AR_shp_Q13[ j ] );
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/* Output of allpass section */
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tmp1 = silk_SMLAWB( cur, next - tmp2, warping_Q16 );
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psDD->sAR2_Q14[ j + 0 ] = tmp2;
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prev = next;
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}
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psDD->sAR2_Q14[ shapingLPCOrder - 1 ] = tmp1;
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temp64 = __builtin_mips_madd( temp64, tmp1, AR_shp_Q13[ shapingLPCOrder - 1 ] );
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temp64 += 32768;
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n_AR_Q14 = __builtin_mips_extr_w(temp64, 16);
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n_AR_Q14 = silk_LSHIFT( n_AR_Q14, 1 ); /* Q11 -> Q12 */
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n_AR_Q14 = silk_SMLAWB( n_AR_Q14, psDD->LF_AR_Q14, Tilt_Q14 ); /* Q12 */
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n_AR_Q14 = silk_LSHIFT( n_AR_Q14, 2 ); /* Q12 -> Q14 */
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n_LF_Q14 = silk_SMULWB( psDD->Shape_Q14[ *smpl_buf_idx ], LF_shp_Q14 ); /* Q12 */
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n_LF_Q14 = silk_SMLAWT( n_LF_Q14, psDD->LF_AR_Q14, LF_shp_Q14 ); /* Q12 */
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n_LF_Q14 = silk_LSHIFT( n_LF_Q14, 2 ); /* Q12 -> Q14 */
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/* Input minus prediction plus noise feedback */
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/* r = x[ i ] - LTP_pred - LPC_pred + n_AR + n_Tilt + n_LF + n_LTP */
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tmp1 = silk_ADD32( n_AR_Q14, n_LF_Q14 ); /* Q14 */
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tmp2 = silk_ADD32( n_LTP_Q14, LPC_pred_Q14 ); /* Q13 */
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tmp1 = silk_SUB32( tmp2, tmp1 ); /* Q13 */
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tmp1 = silk_RSHIFT_ROUND( tmp1, 4 ); /* Q10 */
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r_Q10 = silk_SUB32( x_Q10[ i ], tmp1 ); /* residual error Q10 */
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/* Flip sign depending on dither */
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if ( psDD->Seed < 0 ) {
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r_Q10 = -r_Q10;
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}
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r_Q10 = silk_LIMIT_32( r_Q10, -(31 << 10), 30 << 10 );
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/* Find two quantization level candidates and measure their rate-distortion */
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q1_Q10 = silk_SUB32( r_Q10, offset_Q10 );
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q1_Q0 = silk_RSHIFT( q1_Q10, 10 );
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if( q1_Q0 > 0 ) {
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q1_Q10 = silk_SUB32( silk_LSHIFT( q1_Q0, 10 ), QUANT_LEVEL_ADJUST_Q10 );
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q1_Q10 = silk_ADD32( q1_Q10, offset_Q10 );
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q2_Q10 = silk_ADD32( q1_Q10, 1024 );
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rd1_Q10 = silk_SMULBB( q1_Q10, Lambda_Q10 );
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rd2_Q10 = silk_SMULBB( q2_Q10, Lambda_Q10 );
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} else if( q1_Q0 == 0 ) {
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q1_Q10 = offset_Q10;
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q2_Q10 = silk_ADD32( q1_Q10, 1024 - QUANT_LEVEL_ADJUST_Q10 );
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rd1_Q10 = silk_SMULBB( q1_Q10, Lambda_Q10 );
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rd2_Q10 = silk_SMULBB( q2_Q10, Lambda_Q10 );
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} else if( q1_Q0 == -1 ) {
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q2_Q10 = offset_Q10;
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q1_Q10 = silk_SUB32( q2_Q10, 1024 - QUANT_LEVEL_ADJUST_Q10 );
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rd1_Q10 = silk_SMULBB( -q1_Q10, Lambda_Q10 );
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rd2_Q10 = silk_SMULBB( q2_Q10, Lambda_Q10 );
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} else { /* q1_Q0 < -1 */
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q1_Q10 = silk_ADD32( silk_LSHIFT( q1_Q0, 10 ), QUANT_LEVEL_ADJUST_Q10 );
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q1_Q10 = silk_ADD32( q1_Q10, offset_Q10 );
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q2_Q10 = silk_ADD32( q1_Q10, 1024 );
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rd1_Q10 = silk_SMULBB( -q1_Q10, Lambda_Q10 );
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rd2_Q10 = silk_SMULBB( -q2_Q10, Lambda_Q10 );
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}
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rr_Q10 = silk_SUB32( r_Q10, q1_Q10 );
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rd1_Q10 = silk_RSHIFT( silk_SMLABB( rd1_Q10, rr_Q10, rr_Q10 ), 10 );
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rr_Q10 = silk_SUB32( r_Q10, q2_Q10 );
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rd2_Q10 = silk_RSHIFT( silk_SMLABB( rd2_Q10, rr_Q10, rr_Q10 ), 10 );
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if( rd1_Q10 < rd2_Q10 ) {
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psSS[ 0 ].RD_Q10 = silk_ADD32( psDD->RD_Q10, rd1_Q10 );
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psSS[ 1 ].RD_Q10 = silk_ADD32( psDD->RD_Q10, rd2_Q10 );
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psSS[ 0 ].Q_Q10 = q1_Q10;
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psSS[ 1 ].Q_Q10 = q2_Q10;
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} else {
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psSS[ 0 ].RD_Q10 = silk_ADD32( psDD->RD_Q10, rd2_Q10 );
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psSS[ 1 ].RD_Q10 = silk_ADD32( psDD->RD_Q10, rd1_Q10 );
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psSS[ 0 ].Q_Q10 = q2_Q10;
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psSS[ 1 ].Q_Q10 = q1_Q10;
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}
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/* Update states for best quantization */
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/* Quantized excitation */
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exc_Q14 = silk_LSHIFT32( psSS[ 0 ].Q_Q10, 4 );
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if ( psDD->Seed < 0 ) {
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exc_Q14 = -exc_Q14;
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}
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/* Add predictions */
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LPC_exc_Q14 = silk_ADD32( exc_Q14, LTP_pred_Q14 );
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xq_Q14 = silk_ADD32( LPC_exc_Q14, LPC_pred_Q14 );
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/* Update states */
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sLF_AR_shp_Q14 = silk_SUB32( xq_Q14, n_AR_Q14 );
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psSS[ 0 ].sLTP_shp_Q14 = silk_SUB32( sLF_AR_shp_Q14, n_LF_Q14 );
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psSS[ 0 ].LF_AR_Q14 = sLF_AR_shp_Q14;
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psSS[ 0 ].LPC_exc_Q14 = LPC_exc_Q14;
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psSS[ 0 ].xq_Q14 = xq_Q14;
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/* Update states for second best quantization */
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/* Quantized excitation */
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exc_Q14 = silk_LSHIFT32( psSS[ 1 ].Q_Q10, 4 );
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if ( psDD->Seed < 0 ) {
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exc_Q14 = -exc_Q14;
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}
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/* Add predictions */
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LPC_exc_Q14 = silk_ADD32( exc_Q14, LTP_pred_Q14 );
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xq_Q14 = silk_ADD32( LPC_exc_Q14, LPC_pred_Q14 );
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/* Update states */
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sLF_AR_shp_Q14 = silk_SUB32( xq_Q14, n_AR_Q14 );
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psSS[ 1 ].sLTP_shp_Q14 = silk_SUB32( sLF_AR_shp_Q14, n_LF_Q14 );
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psSS[ 1 ].LF_AR_Q14 = sLF_AR_shp_Q14;
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psSS[ 1 ].LPC_exc_Q14 = LPC_exc_Q14;
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psSS[ 1 ].xq_Q14 = xq_Q14;
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}
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|
2019-11-02 16:59:07 +00:00
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*smpl_buf_idx = ( *smpl_buf_idx - 1 ) % DECISION_DELAY;
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if( *smpl_buf_idx < 0 ) *smpl_buf_idx += DECISION_DELAY;
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last_smple_idx = ( *smpl_buf_idx + decisionDelay ) % DECISION_DELAY;
|
2016-05-01 15:48:46 +00:00
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|
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|
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/* Find winner */
|
|
|
|
RDmin_Q10 = psSampleState[ 0 ][ 0 ].RD_Q10;
|
|
|
|
Winner_ind = 0;
|
|
|
|
for( k = 1; k < nStatesDelayedDecision; k++ ) {
|
|
|
|
if( psSampleState[ k ][ 0 ].RD_Q10 < RDmin_Q10 ) {
|
|
|
|
RDmin_Q10 = psSampleState[ k ][ 0 ].RD_Q10;
|
|
|
|
Winner_ind = k;
|
|
|
|
}
|
|
|
|
}
|
|
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|
|
|
|
|
/* Increase RD values of expired states */
|
|
|
|
Winner_rand_state = psDelDec[ Winner_ind ].RandState[ last_smple_idx ];
|
|
|
|
for( k = 0; k < nStatesDelayedDecision; k++ ) {
|
|
|
|
if( psDelDec[ k ].RandState[ last_smple_idx ] != Winner_rand_state ) {
|
|
|
|
psSampleState[ k ][ 0 ].RD_Q10 = silk_ADD32( psSampleState[ k ][ 0 ].RD_Q10, silk_int32_MAX >> 4 );
|
|
|
|
psSampleState[ k ][ 1 ].RD_Q10 = silk_ADD32( psSampleState[ k ][ 1 ].RD_Q10, silk_int32_MAX >> 4 );
|
|
|
|
silk_assert( psSampleState[ k ][ 0 ].RD_Q10 >= 0 );
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
/* Find worst in first set and best in second set */
|
|
|
|
RDmax_Q10 = psSampleState[ 0 ][ 0 ].RD_Q10;
|
|
|
|
RDmin_Q10 = psSampleState[ 0 ][ 1 ].RD_Q10;
|
|
|
|
RDmax_ind = 0;
|
|
|
|
RDmin_ind = 0;
|
|
|
|
for( k = 1; k < nStatesDelayedDecision; k++ ) {
|
|
|
|
/* find worst in first set */
|
|
|
|
if( psSampleState[ k ][ 0 ].RD_Q10 > RDmax_Q10 ) {
|
|
|
|
RDmax_Q10 = psSampleState[ k ][ 0 ].RD_Q10;
|
|
|
|
RDmax_ind = k;
|
|
|
|
}
|
|
|
|
/* find best in second set */
|
|
|
|
if( psSampleState[ k ][ 1 ].RD_Q10 < RDmin_Q10 ) {
|
|
|
|
RDmin_Q10 = psSampleState[ k ][ 1 ].RD_Q10;
|
|
|
|
RDmin_ind = k;
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
/* Replace a state if best from second set outperforms worst in first set */
|
|
|
|
if( RDmin_Q10 < RDmax_Q10 ) {
|
|
|
|
silk_memcpy( ( (opus_int32 *)&psDelDec[ RDmax_ind ] ) + i,
|
|
|
|
( (opus_int32 *)&psDelDec[ RDmin_ind ] ) + i, sizeof( NSQ_del_dec_struct ) - i * sizeof( opus_int32) );
|
|
|
|
silk_memcpy( &psSampleState[ RDmax_ind ][ 0 ], &psSampleState[ RDmin_ind ][ 1 ], sizeof( NSQ_sample_struct ) );
|
|
|
|
}
|
|
|
|
|
|
|
|
/* Write samples from winner to output and long-term filter states */
|
|
|
|
psDD = &psDelDec[ Winner_ind ];
|
|
|
|
if( subfr > 0 || i >= decisionDelay ) {
|
|
|
|
pulses[ i - decisionDelay ] = (opus_int8)silk_RSHIFT_ROUND( psDD->Q_Q10[ last_smple_idx ], 10 );
|
|
|
|
xq[ i - decisionDelay ] = (opus_int16)silk_SAT16( silk_RSHIFT_ROUND(
|
|
|
|
silk_SMULWW( psDD->Xq_Q14[ last_smple_idx ], delayedGain_Q10[ last_smple_idx ] ), 8 ) );
|
|
|
|
NSQ->sLTP_shp_Q14[ NSQ->sLTP_shp_buf_idx - decisionDelay ] = psDD->Shape_Q14[ last_smple_idx ];
|
|
|
|
sLTP_Q15[ NSQ->sLTP_buf_idx - decisionDelay ] = psDD->Pred_Q15[ last_smple_idx ];
|
|
|
|
}
|
|
|
|
NSQ->sLTP_shp_buf_idx++;
|
|
|
|
NSQ->sLTP_buf_idx++;
|
|
|
|
|
|
|
|
/* Update states */
|
|
|
|
for( k = 0; k < nStatesDelayedDecision; k++ ) {
|
|
|
|
psDD = &psDelDec[ k ];
|
|
|
|
psSS = &psSampleState[ k ][ 0 ];
|
|
|
|
psDD->LF_AR_Q14 = psSS->LF_AR_Q14;
|
|
|
|
psDD->sLPC_Q14[ NSQ_LPC_BUF_LENGTH + i ] = psSS->xq_Q14;
|
|
|
|
psDD->Xq_Q14[ *smpl_buf_idx ] = psSS->xq_Q14;
|
|
|
|
psDD->Q_Q10[ *smpl_buf_idx ] = psSS->Q_Q10;
|
|
|
|
psDD->Pred_Q15[ *smpl_buf_idx ] = silk_LSHIFT32( psSS->LPC_exc_Q14, 1 );
|
|
|
|
psDD->Shape_Q14[ *smpl_buf_idx ] = psSS->sLTP_shp_Q14;
|
|
|
|
psDD->Seed = silk_ADD32_ovflw( psDD->Seed, silk_RSHIFT_ROUND( psSS->Q_Q10, 10 ) );
|
|
|
|
psDD->RandState[ *smpl_buf_idx ] = psDD->Seed;
|
|
|
|
psDD->RD_Q10 = psSS->RD_Q10;
|
|
|
|
}
|
|
|
|
delayedGain_Q10[ *smpl_buf_idx ] = Gain_Q10;
|
|
|
|
}
|
|
|
|
/* Update LPC states */
|
|
|
|
for( k = 0; k < nStatesDelayedDecision; k++ ) {
|
|
|
|
psDD = &psDelDec[ k ];
|
|
|
|
silk_memcpy( psDD->sLPC_Q14, &psDD->sLPC_Q14[ length ], NSQ_LPC_BUF_LENGTH * sizeof( opus_int32 ) );
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
#endif /* __NSQ_DEL_DEC_MIPSR1_H__ */
|