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1 /* Copyright (c) 2014, Cisco Systems, INC
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2 Written by XiangMingZhu WeiZhou MinPeng YanWang
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3
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4 Redistribution and use in source and binary forms, with or without
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5 modification, are permitted provided that the following conditions
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6 are met:
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7
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8 - Redistributions of source code must retain the above copyright
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9 notice, this list of conditions and the following disclaimer.
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10
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11 - Redistributions in binary form must reproduce the above copyright
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12 notice, this list of conditions and the following disclaimer in the
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13 documentation and/or other materials provided with the distribution.
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14
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15 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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16 ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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17 LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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18 A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
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19 OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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20 EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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21 PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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22 PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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23 LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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24 NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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25 SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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26 */
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27
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28 #ifdef HAVE_CONFIG_H
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29 #include "config.h"
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30 #endif
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31
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32 #include <xmmintrin.h>
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33 #include <emmintrin.h>
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34 #include <smmintrin.h>
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35 #include "main.h"
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36 #include "celt/x86/x86cpu.h"
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37 #include "stack_alloc.h"
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38
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39 static OPUS_INLINE void silk_nsq_scale_states_sse4_1(
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40 const silk_encoder_state *psEncC, /* I Encoder State */
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41 silk_nsq_state *NSQ, /* I/O NSQ state */
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42 const opus_int32 x_Q3[], /* I input in Q3 */
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43 opus_int32 x_sc_Q10[], /* O input scaled with 1/Gain */
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44 const opus_int16 sLTP[], /* I re-whitened LTP state in Q0 */
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45 opus_int32 sLTP_Q15[], /* O LTP state matching scaled input */
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46 opus_int subfr, /* I subframe number */
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47 const opus_int LTP_scale_Q14, /* I */
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48 const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
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49 const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
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50 const opus_int signal_type /* I Signal type */
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51 );
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52
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53 static OPUS_INLINE void silk_noise_shape_quantizer_10_16_sse4_1(
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54 silk_nsq_state *NSQ, /* I/O NSQ state */
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55 opus_int signalType, /* I Signal type */
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56 const opus_int32 x_sc_Q10[], /* I */
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57 opus_int8 pulses[], /* O */
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58 opus_int16 xq[], /* O */
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59 opus_int32 sLTP_Q15[], /* I/O LTP state */
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60 const opus_int16 a_Q12[], /* I Short term prediction coefs */
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61 const opus_int16 b_Q14[], /* I Long term prediction coefs */
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62 const opus_int16 AR_shp_Q13[], /* I Noise shaping AR coefs */
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63 opus_int lag, /* I Pitch lag */
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64 opus_int32 HarmShapeFIRPacked_Q14, /* I */
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65 opus_int Tilt_Q14, /* I Spectral tilt */
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66 opus_int32 LF_shp_Q14, /* I */
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67 opus_int32 Gain_Q16, /* I */
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68 opus_int offset_Q10, /* I */
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69 opus_int length, /* I Input length */
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70 opus_int32 table[][4] /* I */
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71 );
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72
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73 void silk_NSQ_sse4_1(
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74 const silk_encoder_state *psEncC, /* I Encoder State */
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75 silk_nsq_state *NSQ, /* I/O NSQ state */
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76 SideInfoIndices *psIndices, /* I/O Quantization Indices */
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77 const opus_int32 x_Q3[], /* I Prefiltered input signal */
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78 opus_int8 pulses[], /* O Quantized pulse signal */
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79 const opus_int16 PredCoef_Q12[ 2 * MAX_LPC_ORDER ], /* I Short term prediction coefs */
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80 const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ], /* I Long term prediction coefs */
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81 const opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ], /* I Noise shaping coefs */
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82 const opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ], /* I Long term shaping coefs */
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83 const opus_int Tilt_Q14[ MAX_NB_SUBFR ], /* I Spectral tilt */
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84 const opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ], /* I Low frequency shaping coefs */
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85 const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I Quantization step sizes */
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86 const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lags */
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87 const opus_int Lambda_Q10, /* I Rate/distortion tradeoff */
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88 const opus_int LTP_scale_Q14 /* I LTP state scaling */
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89 )
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90 {
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91 opus_int k, lag, start_idx, LSF_interpolation_flag;
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92 const opus_int16 *A_Q12, *B_Q14, *AR_shp_Q13;
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93 opus_int16 *pxq;
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94 VARDECL( opus_int32, sLTP_Q15 );
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95 VARDECL( opus_int16, sLTP );
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96 opus_int32 HarmShapeFIRPacked_Q14;
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97 opus_int offset_Q10;
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98 VARDECL( opus_int32, x_sc_Q10 );
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99
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100 opus_int32 table[ 64 ][ 4 ];
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101 opus_int32 tmp1;
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102 opus_int32 q1_Q10, q2_Q10, rd1_Q20, rd2_Q20;
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103
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104 SAVE_STACK;
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105
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106 NSQ->rand_seed = psIndices->Seed;
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107
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108 /* Set unvoiced lag to the previous one, overwrite later for voiced */
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109 lag = NSQ->lagPrev;
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110
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111 silk_assert( NSQ->prev_gain_Q16 != 0 );
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112
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113 offset_Q10 = silk_Quantization_Offsets_Q10[ psIndices->signalType >> 1 ][ psIndices->quantOffsetType ];
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114
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115 /* 0 */
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116 q1_Q10 = offset_Q10;
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117 q2_Q10 = offset_Q10 + ( 1024 - QUANT_LEVEL_ADJUST_Q10 );
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118 rd1_Q20 = q1_Q10 * Lambda_Q10;
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119 rd2_Q20 = q2_Q10 * Lambda_Q10;
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120
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121 table[ 32 ][ 0 ] = q1_Q10;
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122 table[ 32 ][ 1 ] = q2_Q10;
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123 table[ 32 ][ 2 ] = 2 * (q1_Q10 - q2_Q10);
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124 table[ 32 ][ 3 ] = (rd1_Q20 - rd2_Q20) + (q1_Q10 * q1_Q10 - q2_Q10 * q2_Q10);
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125
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126 /* -1 */
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127 q1_Q10 = offset_Q10 - ( 1024 - QUANT_LEVEL_ADJUST_Q10 );
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128 q2_Q10 = offset_Q10;
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129 rd1_Q20 = - q1_Q10 * Lambda_Q10;
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130 rd2_Q20 = q2_Q10 * Lambda_Q10;
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131
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132 table[ 31 ][ 0 ] = q1_Q10;
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133 table[ 31 ][ 1 ] = q2_Q10;
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134 table[ 31 ][ 2 ] = 2 * (q1_Q10 - q2_Q10);
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135 table[ 31 ][ 3 ] = (rd1_Q20 - rd2_Q20) + (q1_Q10 * q1_Q10 - q2_Q10 * q2_Q10);
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136
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137 /* > 0 */
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138 for (k = 1; k <= 31; k++)
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139 {
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140 tmp1 = offset_Q10 + silk_LSHIFT( k, 10 );
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141
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142 q1_Q10 = tmp1 - QUANT_LEVEL_ADJUST_Q10;
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143 q2_Q10 = tmp1 - QUANT_LEVEL_ADJUST_Q10 + 1024;
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144 rd1_Q20 = q1_Q10 * Lambda_Q10;
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145 rd2_Q20 = q2_Q10 * Lambda_Q10;
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146
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147 table[ 32 + k ][ 0 ] = q1_Q10;
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148 table[ 32 + k ][ 1 ] = q2_Q10;
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149 table[ 32 + k ][ 2 ] = 2 * (q1_Q10 - q2_Q10);
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150 table[ 32 + k ][ 3 ] = (rd1_Q20 - rd2_Q20) + (q1_Q10 * q1_Q10 - q2_Q10 * q2_Q10);
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cannam@154
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151 }
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152
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cannam@154
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153 /* < -1 */
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cannam@154
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154 for (k = -32; k <= -2; k++)
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155 {
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156 tmp1 = offset_Q10 + silk_LSHIFT( k, 10 );
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157
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158 q1_Q10 = tmp1 + QUANT_LEVEL_ADJUST_Q10;
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159 q2_Q10 = tmp1 + QUANT_LEVEL_ADJUST_Q10 + 1024;
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160 rd1_Q20 = - q1_Q10 * Lambda_Q10;
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161 rd2_Q20 = - q2_Q10 * Lambda_Q10;
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162
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163 table[ 32 + k ][ 0 ] = q1_Q10;
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164 table[ 32 + k ][ 1 ] = q2_Q10;
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165 table[ 32 + k ][ 2 ] = 2 * (q1_Q10 - q2_Q10);
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166 table[ 32 + k ][ 3 ] = (rd1_Q20 - rd2_Q20) + (q1_Q10 * q1_Q10 - q2_Q10 * q2_Q10);
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167 }
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168
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169 if( psIndices->NLSFInterpCoef_Q2 == 4 ) {
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170 LSF_interpolation_flag = 0;
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171 } else {
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172 LSF_interpolation_flag = 1;
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173 }
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174
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cannam@154
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175 ALLOC( sLTP_Q15,
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176 psEncC->ltp_mem_length + psEncC->frame_length, opus_int32 );
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177 ALLOC( sLTP, psEncC->ltp_mem_length + psEncC->frame_length, opus_int16 );
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178 ALLOC( x_sc_Q10, psEncC->subfr_length, opus_int32 );
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cannam@154
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179 /* Set up pointers to start of sub frame */
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180 NSQ->sLTP_shp_buf_idx = psEncC->ltp_mem_length;
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181 NSQ->sLTP_buf_idx = psEncC->ltp_mem_length;
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182 pxq = &NSQ->xq[ psEncC->ltp_mem_length ];
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183 for( k = 0; k < psEncC->nb_subfr; k++ ) {
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184 A_Q12 = &PredCoef_Q12[ (( k >> 1 ) | ( 1 - LSF_interpolation_flag )) * MAX_LPC_ORDER ];
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185 B_Q14 = <PCoef_Q14[ k * LTP_ORDER ];
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186 AR_shp_Q13 = &AR2_Q13[ k * MAX_SHAPE_LPC_ORDER ];
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187
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188 /* Noise shape parameters */
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189 silk_assert( HarmShapeGain_Q14[ k ] >= 0 );
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190 HarmShapeFIRPacked_Q14 = silk_RSHIFT( HarmShapeGain_Q14[ k ], 2 );
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191 HarmShapeFIRPacked_Q14 |= silk_LSHIFT( (opus_int32)silk_RSHIFT( HarmShapeGain_Q14[ k ], 1 ), 16 );
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192
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193 NSQ->rewhite_flag = 0;
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194 if( psIndices->signalType == TYPE_VOICED ) {
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195 /* Voiced */
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196 lag = pitchL[ k ];
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197
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cannam@154
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198 /* Re-whitening */
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199 if( ( k & ( 3 - silk_LSHIFT( LSF_interpolation_flag, 1 ) ) ) == 0 ) {
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200 /* Rewhiten with new A coefs */
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201 start_idx = psEncC->ltp_mem_length - lag - psEncC->predictLPCOrder - LTP_ORDER / 2;
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202 celt_assert( start_idx > 0 );
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203
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204 silk_LPC_analysis_filter( &sLTP[ start_idx ], &NSQ->xq[ start_idx + k * psEncC->subfr_length ],
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205 A_Q12, psEncC->ltp_mem_length - start_idx, psEncC->predictLPCOrder, psEncC->arch );
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206
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207 NSQ->rewhite_flag = 1;
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208 NSQ->sLTP_buf_idx = psEncC->ltp_mem_length;
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209 }
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210 }
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211
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212 silk_nsq_scale_states_sse4_1( psEncC, NSQ, x_Q3, x_sc_Q10, sLTP, sLTP_Q15, k, LTP_scale_Q14, Gains_Q16, pitchL, psIndices->signalType );
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213
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214 if ( opus_likely( ( 10 == psEncC->shapingLPCOrder ) && ( 16 == psEncC->predictLPCOrder) ) )
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215 {
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cannam@154
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216 silk_noise_shape_quantizer_10_16_sse4_1( NSQ, psIndices->signalType, x_sc_Q10, pulses, pxq, sLTP_Q15, A_Q12, B_Q14,
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217 AR_shp_Q13, lag, HarmShapeFIRPacked_Q14, Tilt_Q14[ k ], LF_shp_Q14[ k ], Gains_Q16[ k ],
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218 offset_Q10, psEncC->subfr_length, &(table[32]) );
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219 }
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220 else
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221 {
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222 silk_noise_shape_quantizer( NSQ, psIndices->signalType, x_sc_Q10, pulses, pxq, sLTP_Q15, A_Q12, B_Q14,
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223 AR_shp_Q13, lag, HarmShapeFIRPacked_Q14, Tilt_Q14[ k ], LF_shp_Q14[ k ], Gains_Q16[ k ], Lambda_Q10,
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224 offset_Q10, psEncC->subfr_length, psEncC->shapingLPCOrder, psEncC->predictLPCOrder, psEncC->arch );
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cannam@154
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225 }
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cannam@154
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226
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cannam@154
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227 x_Q3 += psEncC->subfr_length;
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cannam@154
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228 pulses += psEncC->subfr_length;
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cannam@154
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229 pxq += psEncC->subfr_length;
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cannam@154
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230 }
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cannam@154
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231
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cannam@154
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232 /* Update lagPrev for next frame */
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cannam@154
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233 NSQ->lagPrev = pitchL[ psEncC->nb_subfr - 1 ];
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cannam@154
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234
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cannam@154
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235 /* Save quantized speech and noise shaping signals */
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cannam@154
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236 silk_memmove( NSQ->xq, &NSQ->xq[ psEncC->frame_length ], psEncC->ltp_mem_length * sizeof( opus_int16 ) );
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cannam@154
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237 silk_memmove( NSQ->sLTP_shp_Q14, &NSQ->sLTP_shp_Q14[ psEncC->frame_length ], psEncC->ltp_mem_length * sizeof( opus_int32 ) );
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238 RESTORE_STACK;
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cannam@154
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239 }
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cannam@154
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240
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cannam@154
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241 /***********************************/
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cannam@154
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242 /* silk_noise_shape_quantizer_10_16 */
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cannam@154
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243 /***********************************/
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cannam@154
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244 static OPUS_INLINE void silk_noise_shape_quantizer_10_16_sse4_1(
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cannam@154
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245 silk_nsq_state *NSQ, /* I/O NSQ state */
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cannam@154
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246 opus_int signalType, /* I Signal type */
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cannam@154
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247 const opus_int32 x_sc_Q10[], /* I */
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cannam@154
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248 opus_int8 pulses[], /* O */
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cannam@154
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249 opus_int16 xq[], /* O */
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cannam@154
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250 opus_int32 sLTP_Q15[], /* I/O LTP state */
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cannam@154
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251 const opus_int16 a_Q12[], /* I Short term prediction coefs */
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cannam@154
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252 const opus_int16 b_Q14[], /* I Long term prediction coefs */
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cannam@154
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253 const opus_int16 AR_shp_Q13[], /* I Noise shaping AR coefs */
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cannam@154
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254 opus_int lag, /* I Pitch lag */
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255 opus_int32 HarmShapeFIRPacked_Q14, /* I */
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cannam@154
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256 opus_int Tilt_Q14, /* I Spectral tilt */
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cannam@154
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257 opus_int32 LF_shp_Q14, /* I */
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cannam@154
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258 opus_int32 Gain_Q16, /* I */
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cannam@154
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259 opus_int offset_Q10, /* I */
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cannam@154
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260 opus_int length, /* I Input length */
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cannam@154
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261 opus_int32 table[][4] /* I */
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cannam@154
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262 )
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cannam@154
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263 {
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cannam@154
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264 opus_int i;
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cannam@154
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265 opus_int32 LTP_pred_Q13, LPC_pred_Q10, n_AR_Q12, n_LTP_Q13;
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cannam@154
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266 opus_int32 n_LF_Q12, r_Q10, q1_Q0, q1_Q10, q2_Q10;
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cannam@154
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267 opus_int32 exc_Q14, LPC_exc_Q14, xq_Q14, Gain_Q10;
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cannam@154
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268 opus_int32 tmp1, tmp2, sLF_AR_shp_Q14;
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cannam@154
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269 opus_int32 *psLPC_Q14, *shp_lag_ptr, *pred_lag_ptr;
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cannam@154
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270
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cannam@154
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271 __m128i xmm_tempa, xmm_tempb;
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272
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273 __m128i xmm_one;
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274
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275 __m128i psLPC_Q14_hi_01234567, psLPC_Q14_hi_89ABCDEF;
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cannam@154
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276 __m128i psLPC_Q14_lo_01234567, psLPC_Q14_lo_89ABCDEF;
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cannam@154
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277 __m128i a_Q12_01234567, a_Q12_89ABCDEF;
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cannam@154
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278
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cannam@154
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279 __m128i sAR2_Q14_hi_76543210, sAR2_Q14_lo_76543210;
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cannam@154
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280 __m128i AR_shp_Q13_76543210;
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cannam@154
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281
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cannam@154
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282 shp_lag_ptr = &NSQ->sLTP_shp_Q14[ NSQ->sLTP_shp_buf_idx - lag + HARM_SHAPE_FIR_TAPS / 2 ];
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283 pred_lag_ptr = &sLTP_Q15[ NSQ->sLTP_buf_idx - lag + LTP_ORDER / 2 ];
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cannam@154
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284 Gain_Q10 = silk_RSHIFT( Gain_Q16, 6 );
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285
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cannam@154
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286 /* Set up short term AR state */
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cannam@154
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287 psLPC_Q14 = &NSQ->sLPC_Q14[ NSQ_LPC_BUF_LENGTH - 1 ];
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cannam@154
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288
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cannam@154
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289 sLF_AR_shp_Q14 = NSQ->sLF_AR_shp_Q14;
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cannam@154
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290 xq_Q14 = psLPC_Q14[ 0 ];
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cannam@154
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291 LTP_pred_Q13 = 0;
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cannam@154
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292
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cannam@154
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293 /* load a_Q12 */
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cannam@154
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294 xmm_one = _mm_set_epi8( 1, 0, 3, 2, 5, 4, 7, 6, 9, 8, 11, 10, 13, 12, 15, 14 );
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295
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cannam@154
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296 /* load a_Q12[0] - a_Q12[7] */
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cannam@154
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297 a_Q12_01234567 = _mm_loadu_si128( (__m128i *)(&a_Q12[ 0 ] ) );
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cannam@154
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298 /* load a_Q12[ 8 ] - a_Q12[ 15 ] */
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cannam@154
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299 a_Q12_89ABCDEF = _mm_loadu_si128( (__m128i *)(&a_Q12[ 8 ] ) );
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300
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cannam@154
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301 a_Q12_01234567 = _mm_shuffle_epi8( a_Q12_01234567, xmm_one );
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cannam@154
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302 a_Q12_89ABCDEF = _mm_shuffle_epi8( a_Q12_89ABCDEF, xmm_one );
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cannam@154
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303
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cannam@154
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304 /* load AR_shp_Q13 */
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cannam@154
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305 AR_shp_Q13_76543210 = _mm_loadu_si128( (__m128i *)(&AR_shp_Q13[0] ) );
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cannam@154
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306
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cannam@154
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307 /* load psLPC_Q14 */
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cannam@154
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308 xmm_one = _mm_set_epi8(15, 14, 11, 10, 7, 6, 3, 2, 13, 12, 9, 8, 5, 4, 1, 0 );
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309
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cannam@154
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310 xmm_tempa = _mm_loadu_si128( (__m128i *)(&psLPC_Q14[-16]) );
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311 xmm_tempb = _mm_loadu_si128( (__m128i *)(&psLPC_Q14[-12]) );
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312
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cannam@154
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313 xmm_tempa = _mm_shuffle_epi8( xmm_tempa, xmm_one );
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cannam@154
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314 xmm_tempb = _mm_shuffle_epi8( xmm_tempb, xmm_one );
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315
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cannam@154
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316 psLPC_Q14_hi_89ABCDEF = _mm_unpackhi_epi64( xmm_tempa, xmm_tempb );
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cannam@154
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317 psLPC_Q14_lo_89ABCDEF = _mm_unpacklo_epi64( xmm_tempa, xmm_tempb );
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318
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cannam@154
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319 xmm_tempa = _mm_loadu_si128( (__m128i *)(&psLPC_Q14[ -8 ]) );
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cannam@154
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320 xmm_tempb = _mm_loadu_si128( (__m128i *)(&psLPC_Q14[ -4 ]) );
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cannam@154
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321
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cannam@154
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322 xmm_tempa = _mm_shuffle_epi8( xmm_tempa, xmm_one );
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cannam@154
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323 xmm_tempb = _mm_shuffle_epi8( xmm_tempb, xmm_one );
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cannam@154
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324
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cannam@154
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325 psLPC_Q14_hi_01234567 = _mm_unpackhi_epi64( xmm_tempa, xmm_tempb );
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cannam@154
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326 psLPC_Q14_lo_01234567 = _mm_unpacklo_epi64( xmm_tempa, xmm_tempb );
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cannam@154
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327
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cannam@154
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328 /* load sAR2_Q14 */
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cannam@154
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329 xmm_tempa = _mm_loadu_si128( (__m128i *)(&(NSQ->sAR2_Q14[ 0 ]) ) );
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cannam@154
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330 xmm_tempb = _mm_loadu_si128( (__m128i *)(&(NSQ->sAR2_Q14[ 4 ]) ) );
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cannam@154
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331
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cannam@154
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332 xmm_tempa = _mm_shuffle_epi8( xmm_tempa, xmm_one );
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cannam@154
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333 xmm_tempb = _mm_shuffle_epi8( xmm_tempb, xmm_one );
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cannam@154
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334
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cannam@154
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335 sAR2_Q14_hi_76543210 = _mm_unpackhi_epi64( xmm_tempa, xmm_tempb );
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cannam@154
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336 sAR2_Q14_lo_76543210 = _mm_unpacklo_epi64( xmm_tempa, xmm_tempb );
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cannam@154
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337
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cannam@154
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338 /* prepare 1 in 8 * 16bit */
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cannam@154
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339 xmm_one = _mm_set1_epi16(1);
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cannam@154
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340
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cannam@154
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341 for( i = 0; i < length; i++ )
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cannam@154
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342 {
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cannam@154
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343 /* Short-term prediction */
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cannam@154
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344 __m128i xmm_hi_07, xmm_hi_8F, xmm_lo_07, xmm_lo_8F;
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cannam@154
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345
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cannam@154
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346 /* Avoids introducing a bias because silk_SMLAWB() always rounds to -inf */
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cannam@154
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347 LPC_pred_Q10 = 8; /* silk_RSHIFT( predictLPCOrder, 1 ); */
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cannam@154
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348
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cannam@154
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349 /* shift psLPC_Q14 */
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cannam@154
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350 psLPC_Q14_hi_89ABCDEF = _mm_alignr_epi8( psLPC_Q14_hi_01234567, psLPC_Q14_hi_89ABCDEF, 2 );
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cannam@154
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351 psLPC_Q14_lo_89ABCDEF = _mm_alignr_epi8( psLPC_Q14_lo_01234567, psLPC_Q14_lo_89ABCDEF, 2 );
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cannam@154
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352
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cannam@154
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353 psLPC_Q14_hi_01234567 = _mm_srli_si128( psLPC_Q14_hi_01234567, 2 );
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cannam@154
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354 psLPC_Q14_lo_01234567 = _mm_srli_si128( psLPC_Q14_lo_01234567, 2 );
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cannam@154
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355
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cannam@154
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356 psLPC_Q14_hi_01234567 = _mm_insert_epi16( psLPC_Q14_hi_01234567, (xq_Q14 >> 16), 7 );
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cannam@154
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357 psLPC_Q14_lo_01234567 = _mm_insert_epi16( psLPC_Q14_lo_01234567, (xq_Q14), 7 );
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cannam@154
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358
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cannam@154
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359 /* high part, use pmaddwd, results in 4 32-bit */
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cannam@154
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360 xmm_hi_07 = _mm_madd_epi16( psLPC_Q14_hi_01234567, a_Q12_01234567 );
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cannam@154
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361 xmm_hi_8F = _mm_madd_epi16( psLPC_Q14_hi_89ABCDEF, a_Q12_89ABCDEF );
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cannam@154
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362
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cannam@154
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363 /* low part, use pmulhw, results in 8 16-bit, note we need simulate unsigned * signed, _mm_srai_epi16(psLPC_Q14_lo_01234567, 15) */
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cannam@154
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364 xmm_tempa = _mm_cmpgt_epi16( _mm_setzero_si128(), psLPC_Q14_lo_01234567 );
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cannam@154
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365 xmm_tempb = _mm_cmpgt_epi16( _mm_setzero_si128(), psLPC_Q14_lo_89ABCDEF );
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cannam@154
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366
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cannam@154
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367 xmm_tempa = _mm_and_si128( xmm_tempa, a_Q12_01234567 );
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cannam@154
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368 xmm_tempb = _mm_and_si128( xmm_tempb, a_Q12_89ABCDEF );
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cannam@154
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369
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cannam@154
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370 xmm_lo_07 = _mm_mulhi_epi16( psLPC_Q14_lo_01234567, a_Q12_01234567 );
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cannam@154
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371 xmm_lo_8F = _mm_mulhi_epi16( psLPC_Q14_lo_89ABCDEF, a_Q12_89ABCDEF );
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cannam@154
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372
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cannam@154
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373 xmm_lo_07 = _mm_add_epi16( xmm_lo_07, xmm_tempa );
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cannam@154
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374 xmm_lo_8F = _mm_add_epi16( xmm_lo_8F, xmm_tempb );
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cannam@154
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375
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cannam@154
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376 xmm_lo_07 = _mm_madd_epi16( xmm_lo_07, xmm_one );
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cannam@154
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377 xmm_lo_8F = _mm_madd_epi16( xmm_lo_8F, xmm_one );
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cannam@154
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378
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cannam@154
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379 /* accumulate */
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cannam@154
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380 xmm_hi_07 = _mm_add_epi32( xmm_hi_07, xmm_hi_8F );
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cannam@154
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381 xmm_lo_07 = _mm_add_epi32( xmm_lo_07, xmm_lo_8F );
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cannam@154
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382
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cannam@154
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383 xmm_hi_07 = _mm_add_epi32( xmm_hi_07, xmm_lo_07 );
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cannam@154
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384
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cannam@154
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385 xmm_hi_07 = _mm_add_epi32( xmm_hi_07, _mm_unpackhi_epi64(xmm_hi_07, xmm_hi_07 ) );
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cannam@154
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386 xmm_hi_07 = _mm_add_epi32( xmm_hi_07, _mm_shufflelo_epi16(xmm_hi_07, 0x0E ) );
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cannam@154
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387
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cannam@154
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388 LPC_pred_Q10 += _mm_cvtsi128_si32( xmm_hi_07 );
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cannam@154
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389
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cannam@154
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390 /* Long-term prediction */
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cannam@154
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391 if ( opus_likely( signalType == TYPE_VOICED ) ) {
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cannam@154
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392 /* Unrolled loop */
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cannam@154
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393 /* Avoids introducing a bias because silk_SMLAWB() always rounds to -inf */
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cannam@154
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394 LTP_pred_Q13 = 2;
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cannam@154
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395 {
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cannam@154
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396 __m128i b_Q14_3210, b_Q14_0123, pred_lag_ptr_0123;
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cannam@154
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397
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cannam@154
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398 b_Q14_3210 = OP_CVTEPI16_EPI32_M64( b_Q14 );
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cannam@154
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399 b_Q14_0123 = _mm_shuffle_epi32( b_Q14_3210, 0x1B );
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cannam@154
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400
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cannam@154
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401 /* loaded: [0] [-1] [-2] [-3] */
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cannam@154
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402 pred_lag_ptr_0123 = _mm_loadu_si128( (__m128i *)(&pred_lag_ptr[ -3 ] ) );
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cannam@154
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403 /* shuffle to [-3] [-2] [-1] [0] and to new xmm */
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cannam@154
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404 xmm_tempa = _mm_shuffle_epi32( pred_lag_ptr_0123, 0x1B );
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cannam@154
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405 /*64-bit multiply, a[2] * b[-2], a[0] * b[0] */
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cannam@154
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406 xmm_tempa = _mm_mul_epi32( xmm_tempa, b_Q14_3210 );
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cannam@154
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407 /* right shift 2 bytes (16 bits), zero extended */
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cannam@154
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408 xmm_tempa = _mm_srli_si128( xmm_tempa, 2 );
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cannam@154
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409
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cannam@154
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410 /* a[1] * b[-1], a[3] * b[-3] */
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cannam@154
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411 pred_lag_ptr_0123 = _mm_mul_epi32( pred_lag_ptr_0123, b_Q14_0123 );
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cannam@154
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412 pred_lag_ptr_0123 = _mm_srli_si128( pred_lag_ptr_0123, 2 );
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cannam@154
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413
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cannam@154
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414 pred_lag_ptr_0123 = _mm_add_epi32( pred_lag_ptr_0123, xmm_tempa );
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cannam@154
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415 /* equal shift right 8 bytes*/
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cannam@154
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416 xmm_tempa = _mm_shuffle_epi32( pred_lag_ptr_0123, _MM_SHUFFLE( 0, 0, 3, 2 ) );
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cannam@154
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417 xmm_tempa = _mm_add_epi32( xmm_tempa, pred_lag_ptr_0123 );
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cannam@154
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418
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cannam@154
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419 LTP_pred_Q13 += _mm_cvtsi128_si32( xmm_tempa );
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cannam@154
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420
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cannam@154
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421 LTP_pred_Q13 = silk_SMLAWB( LTP_pred_Q13, pred_lag_ptr[ -4 ], b_Q14[ 4 ] );
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cannam@154
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422 pred_lag_ptr++;
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cannam@154
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423 }
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cannam@154
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424 }
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cannam@154
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425
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cannam@154
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426 /* Noise shape feedback */
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cannam@154
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427 NSQ->sAR2_Q14[ 9 ] = NSQ->sAR2_Q14[ 8 ];
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cannam@154
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428 NSQ->sAR2_Q14[ 8 ] = _mm_cvtsi128_si32( _mm_srli_si128(_mm_unpackhi_epi16( sAR2_Q14_lo_76543210, sAR2_Q14_hi_76543210 ), 12 ) );
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cannam@154
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429
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cannam@154
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430 sAR2_Q14_hi_76543210 = _mm_slli_si128( sAR2_Q14_hi_76543210, 2 );
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cannam@154
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431 sAR2_Q14_lo_76543210 = _mm_slli_si128( sAR2_Q14_lo_76543210, 2 );
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cannam@154
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432
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cannam@154
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433 sAR2_Q14_hi_76543210 = _mm_insert_epi16( sAR2_Q14_hi_76543210, (xq_Q14 >> 16), 0 );
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cannam@154
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434 sAR2_Q14_lo_76543210 = _mm_insert_epi16( sAR2_Q14_lo_76543210, (xq_Q14), 0 );
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cannam@154
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435
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cannam@154
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436 /* high part, use pmaddwd, results in 4 32-bit */
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cannam@154
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437 xmm_hi_07 = _mm_madd_epi16( sAR2_Q14_hi_76543210, AR_shp_Q13_76543210 );
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cannam@154
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438
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cannam@154
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439 /* low part, use pmulhw, results in 8 16-bit, note we need simulate unsigned * signed,_mm_srai_epi16(sAR2_Q14_lo_76543210, 15) */
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cannam@154
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440 xmm_tempa = _mm_cmpgt_epi16( _mm_setzero_si128(), sAR2_Q14_lo_76543210 );
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cannam@154
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441 xmm_tempa = _mm_and_si128( xmm_tempa, AR_shp_Q13_76543210 );
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cannam@154
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442
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cannam@154
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443 xmm_lo_07 = _mm_mulhi_epi16( sAR2_Q14_lo_76543210, AR_shp_Q13_76543210 );
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cannam@154
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444 xmm_lo_07 = _mm_add_epi16( xmm_lo_07, xmm_tempa );
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cannam@154
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445
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cannam@154
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446 xmm_lo_07 = _mm_madd_epi16( xmm_lo_07, xmm_one );
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cannam@154
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447
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cannam@154
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448 /* accumulate */
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cannam@154
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449 xmm_hi_07 = _mm_add_epi32( xmm_hi_07, xmm_lo_07 );
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cannam@154
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450
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cannam@154
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451 xmm_hi_07 = _mm_add_epi32( xmm_hi_07, _mm_unpackhi_epi64(xmm_hi_07, xmm_hi_07 ) );
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cannam@154
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452 xmm_hi_07 = _mm_add_epi32( xmm_hi_07, _mm_shufflelo_epi16(xmm_hi_07, 0x0E ) );
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cannam@154
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453
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cannam@154
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454 n_AR_Q12 = 5 + _mm_cvtsi128_si32( xmm_hi_07 );
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cannam@154
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455
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cannam@154
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456 n_AR_Q12 = silk_SMLAWB( n_AR_Q12, NSQ->sAR2_Q14[ 8 ], AR_shp_Q13[ 8 ] );
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cannam@154
|
457 n_AR_Q12 = silk_SMLAWB( n_AR_Q12, NSQ->sAR2_Q14[ 9 ], AR_shp_Q13[ 9 ] );
|
|
cannam@154
|
458
|
|
cannam@154
|
459 n_AR_Q12 = silk_LSHIFT32( n_AR_Q12, 1 ); /* Q11 -> Q12 */
|
|
cannam@154
|
460 n_AR_Q12 = silk_SMLAWB( n_AR_Q12, sLF_AR_shp_Q14, Tilt_Q14 );
|
|
cannam@154
|
461
|
|
cannam@154
|
462 n_LF_Q12 = silk_SMULWB( NSQ->sLTP_shp_Q14[ NSQ->sLTP_shp_buf_idx - 1 ], LF_shp_Q14 );
|
|
cannam@154
|
463 n_LF_Q12 = silk_SMLAWT( n_LF_Q12, sLF_AR_shp_Q14, LF_shp_Q14 );
|
|
cannam@154
|
464
|
|
cannam@154
|
465 silk_assert( lag > 0 || signalType != TYPE_VOICED );
|
|
cannam@154
|
466
|
|
cannam@154
|
467 /* Combine prediction and noise shaping signals */
|
|
cannam@154
|
468 tmp1 = silk_SUB32( silk_LSHIFT32( LPC_pred_Q10, 2 ), n_AR_Q12 ); /* Q12 */
|
|
cannam@154
|
469 tmp1 = silk_SUB32( tmp1, n_LF_Q12 ); /* Q12 */
|
|
cannam@154
|
470 if( lag > 0 ) {
|
|
cannam@154
|
471 /* Symmetric, packed FIR coefficients */
|
|
cannam@154
|
472 n_LTP_Q13 = silk_SMULWB( silk_ADD32( shp_lag_ptr[ 0 ], shp_lag_ptr[ -2 ] ), HarmShapeFIRPacked_Q14 );
|
|
cannam@154
|
473 n_LTP_Q13 = silk_SMLAWT( n_LTP_Q13, shp_lag_ptr[ -1 ], HarmShapeFIRPacked_Q14 );
|
|
cannam@154
|
474 n_LTP_Q13 = silk_LSHIFT( n_LTP_Q13, 1 );
|
|
cannam@154
|
475 shp_lag_ptr++;
|
|
cannam@154
|
476
|
|
cannam@154
|
477 tmp2 = silk_SUB32( LTP_pred_Q13, n_LTP_Q13 ); /* Q13 */
|
|
cannam@154
|
478 tmp1 = silk_ADD_LSHIFT32( tmp2, tmp1, 1 ); /* Q13 */
|
|
cannam@154
|
479 tmp1 = silk_RSHIFT_ROUND( tmp1, 3 ); /* Q10 */
|
|
cannam@154
|
480 } else {
|
|
cannam@154
|
481 tmp1 = silk_RSHIFT_ROUND( tmp1, 2 ); /* Q10 */
|
|
cannam@154
|
482 }
|
|
cannam@154
|
483
|
|
cannam@154
|
484 r_Q10 = silk_SUB32( x_sc_Q10[ i ], tmp1 ); /* residual error Q10 */
|
|
cannam@154
|
485
|
|
cannam@154
|
486 /* Generate dither */
|
|
cannam@154
|
487 NSQ->rand_seed = silk_RAND( NSQ->rand_seed );
|
|
cannam@154
|
488
|
|
cannam@154
|
489 /* Flip sign depending on dither */
|
|
cannam@154
|
490 tmp2 = -r_Q10;
|
|
cannam@154
|
491 if ( NSQ->rand_seed < 0 ) r_Q10 = tmp2;
|
|
cannam@154
|
492
|
|
cannam@154
|
493 r_Q10 = silk_LIMIT_32( r_Q10, -(31 << 10), 30 << 10 );
|
|
cannam@154
|
494
|
|
cannam@154
|
495 /* Find two quantization level candidates and measure their rate-distortion */
|
|
cannam@154
|
496 q1_Q10 = silk_SUB32( r_Q10, offset_Q10 );
|
|
cannam@154
|
497 q1_Q0 = silk_RSHIFT( q1_Q10, 10 );
|
|
cannam@154
|
498
|
|
cannam@154
|
499 q1_Q10 = table[q1_Q0][0];
|
|
cannam@154
|
500 q2_Q10 = table[q1_Q0][1];
|
|
cannam@154
|
501
|
|
cannam@154
|
502 if (r_Q10 * table[q1_Q0][2] - table[q1_Q0][3] < 0)
|
|
cannam@154
|
503 {
|
|
cannam@154
|
504 q1_Q10 = q2_Q10;
|
|
cannam@154
|
505 }
|
|
cannam@154
|
506
|
|
cannam@154
|
507 pulses[ i ] = (opus_int8)silk_RSHIFT_ROUND( q1_Q10, 10 );
|
|
cannam@154
|
508
|
|
cannam@154
|
509 /* Excitation */
|
|
cannam@154
|
510 exc_Q14 = silk_LSHIFT( q1_Q10, 4 );
|
|
cannam@154
|
511
|
|
cannam@154
|
512 tmp2 = -exc_Q14;
|
|
cannam@154
|
513 if ( NSQ->rand_seed < 0 ) exc_Q14 = tmp2;
|
|
cannam@154
|
514
|
|
cannam@154
|
515 /* Add predictions */
|
|
cannam@154
|
516 LPC_exc_Q14 = silk_ADD_LSHIFT32( exc_Q14, LTP_pred_Q13, 1 );
|
|
cannam@154
|
517 xq_Q14 = silk_ADD_LSHIFT32( LPC_exc_Q14, LPC_pred_Q10, 4 );
|
|
cannam@154
|
518
|
|
cannam@154
|
519 /* Update states */
|
|
cannam@154
|
520 psLPC_Q14++;
|
|
cannam@154
|
521 *psLPC_Q14 = xq_Q14;
|
|
cannam@154
|
522 sLF_AR_shp_Q14 = silk_SUB_LSHIFT32( xq_Q14, n_AR_Q12, 2 );
|
|
cannam@154
|
523
|
|
cannam@154
|
524 NSQ->sLTP_shp_Q14[ NSQ->sLTP_shp_buf_idx ] = silk_SUB_LSHIFT32( sLF_AR_shp_Q14, n_LF_Q12, 2 );
|
|
cannam@154
|
525 sLTP_Q15[ NSQ->sLTP_buf_idx ] = silk_LSHIFT( LPC_exc_Q14, 1 );
|
|
cannam@154
|
526 NSQ->sLTP_shp_buf_idx++;
|
|
cannam@154
|
527 NSQ->sLTP_buf_idx++;
|
|
cannam@154
|
528
|
|
cannam@154
|
529 /* Make dither dependent on quantized signal */
|
|
cannam@154
|
530 NSQ->rand_seed = silk_ADD32_ovflw( NSQ->rand_seed, pulses[ i ] );
|
|
cannam@154
|
531 }
|
|
cannam@154
|
532
|
|
cannam@154
|
533 NSQ->sLF_AR_shp_Q14 = sLF_AR_shp_Q14;
|
|
cannam@154
|
534
|
|
cannam@154
|
535 /* Scale XQ back to normal level before saving */
|
|
cannam@154
|
536 psLPC_Q14 = &NSQ->sLPC_Q14[ NSQ_LPC_BUF_LENGTH ];
|
|
cannam@154
|
537
|
|
cannam@154
|
538 /* write back sAR2_Q14 */
|
|
cannam@154
|
539 xmm_tempa = _mm_unpackhi_epi16( sAR2_Q14_lo_76543210, sAR2_Q14_hi_76543210 );
|
|
cannam@154
|
540 xmm_tempb = _mm_unpacklo_epi16( sAR2_Q14_lo_76543210, sAR2_Q14_hi_76543210 );
|
|
cannam@154
|
541 _mm_storeu_si128( (__m128i *)(&NSQ->sAR2_Q14[ 4 ]), xmm_tempa );
|
|
cannam@154
|
542 _mm_storeu_si128( (__m128i *)(&NSQ->sAR2_Q14[ 0 ]), xmm_tempb );
|
|
cannam@154
|
543
|
|
cannam@154
|
544 /* xq[ i ] = (opus_int16)silk_SAT16( silk_RSHIFT_ROUND( silk_SMULWW( psLPC_Q14[ i ], Gain_Q10 ), 8 ) ); */
|
|
cannam@154
|
545 {
|
|
cannam@154
|
546 __m128i xmm_Gain_Q10;
|
|
cannam@154
|
547 __m128i xmm_xq_Q14_3210, xmm_xq_Q14_x3x1, xmm_xq_Q14_7654, xmm_xq_Q14_x7x5;
|
|
cannam@154
|
548
|
|
cannam@154
|
549 /* prepare (1 << 7) in packed 4 32-bits */
|
|
cannam@154
|
550 xmm_tempa = _mm_set1_epi32( (1 << 7) );
|
|
cannam@154
|
551
|
|
cannam@154
|
552 /* prepare Gain_Q10 in packed 4 32-bits */
|
|
cannam@154
|
553 xmm_Gain_Q10 = _mm_set1_epi32( Gain_Q10 );
|
|
cannam@154
|
554
|
|
cannam@154
|
555 /* process xq */
|
|
cannam@154
|
556 for (i = 0; i < length - 7; i += 8)
|
|
cannam@154
|
557 {
|
|
cannam@154
|
558 xmm_xq_Q14_3210 = _mm_loadu_si128( (__m128i *)(&(psLPC_Q14[ i + 0 ] ) ) );
|
|
cannam@154
|
559 xmm_xq_Q14_7654 = _mm_loadu_si128( (__m128i *)(&(psLPC_Q14[ i + 4 ] ) ) );
|
|
cannam@154
|
560
|
|
cannam@154
|
561 /* equal shift right 4 bytes*/
|
|
cannam@154
|
562 xmm_xq_Q14_x3x1 = _mm_shuffle_epi32( xmm_xq_Q14_3210, _MM_SHUFFLE( 0, 3, 2, 1 ) );
|
|
cannam@154
|
563 /* equal shift right 4 bytes*/
|
|
cannam@154
|
564 xmm_xq_Q14_x7x5 = _mm_shuffle_epi32( xmm_xq_Q14_7654, _MM_SHUFFLE( 0, 3, 2, 1 ) );
|
|
cannam@154
|
565
|
|
cannam@154
|
566 xmm_xq_Q14_3210 = _mm_mul_epi32( xmm_xq_Q14_3210, xmm_Gain_Q10 );
|
|
cannam@154
|
567 xmm_xq_Q14_x3x1 = _mm_mul_epi32( xmm_xq_Q14_x3x1, xmm_Gain_Q10 );
|
|
cannam@154
|
568 xmm_xq_Q14_7654 = _mm_mul_epi32( xmm_xq_Q14_7654, xmm_Gain_Q10 );
|
|
cannam@154
|
569 xmm_xq_Q14_x7x5 = _mm_mul_epi32( xmm_xq_Q14_x7x5, xmm_Gain_Q10 );
|
|
cannam@154
|
570
|
|
cannam@154
|
571 xmm_xq_Q14_3210 = _mm_srli_epi64( xmm_xq_Q14_3210, 16 );
|
|
cannam@154
|
572 xmm_xq_Q14_x3x1 = _mm_slli_epi64( xmm_xq_Q14_x3x1, 16 );
|
|
cannam@154
|
573 xmm_xq_Q14_7654 = _mm_srli_epi64( xmm_xq_Q14_7654, 16 );
|
|
cannam@154
|
574 xmm_xq_Q14_x7x5 = _mm_slli_epi64( xmm_xq_Q14_x7x5, 16 );
|
|
cannam@154
|
575
|
|
cannam@154
|
576 xmm_xq_Q14_3210 = _mm_blend_epi16( xmm_xq_Q14_3210, xmm_xq_Q14_x3x1, 0xCC );
|
|
cannam@154
|
577 xmm_xq_Q14_7654 = _mm_blend_epi16( xmm_xq_Q14_7654, xmm_xq_Q14_x7x5, 0xCC );
|
|
cannam@154
|
578
|
|
cannam@154
|
579 /* silk_RSHIFT_ROUND(xq, 8) */
|
|
cannam@154
|
580 xmm_xq_Q14_3210 = _mm_add_epi32( xmm_xq_Q14_3210, xmm_tempa );
|
|
cannam@154
|
581 xmm_xq_Q14_7654 = _mm_add_epi32( xmm_xq_Q14_7654, xmm_tempa );
|
|
cannam@154
|
582
|
|
cannam@154
|
583 xmm_xq_Q14_3210 = _mm_srai_epi32( xmm_xq_Q14_3210, 8 );
|
|
cannam@154
|
584 xmm_xq_Q14_7654 = _mm_srai_epi32( xmm_xq_Q14_7654, 8 );
|
|
cannam@154
|
585
|
|
cannam@154
|
586 /* silk_SAT16 */
|
|
cannam@154
|
587 xmm_xq_Q14_3210 = _mm_packs_epi32( xmm_xq_Q14_3210, xmm_xq_Q14_7654 );
|
|
cannam@154
|
588
|
|
cannam@154
|
589 /* save to xq */
|
|
cannam@154
|
590 _mm_storeu_si128( (__m128i *)(&xq[ i ] ), xmm_xq_Q14_3210 );
|
|
cannam@154
|
591 }
|
|
cannam@154
|
592 }
|
|
cannam@154
|
593 for ( ; i < length; i++)
|
|
cannam@154
|
594 {
|
|
cannam@154
|
595 xq[i] = (opus_int16)silk_SAT16( silk_RSHIFT_ROUND( silk_SMULWW( psLPC_Q14[ i ], Gain_Q10 ), 8 ) );
|
|
cannam@154
|
596 }
|
|
cannam@154
|
597
|
|
cannam@154
|
598 /* Update LPC synth buffer */
|
|
cannam@154
|
599 silk_memcpy( NSQ->sLPC_Q14, &NSQ->sLPC_Q14[ length ], NSQ_LPC_BUF_LENGTH * sizeof( opus_int32 ) );
|
|
cannam@154
|
600 }
|
|
cannam@154
|
601
|
|
cannam@154
|
602 static OPUS_INLINE void silk_nsq_scale_states_sse4_1(
|
|
cannam@154
|
603 const silk_encoder_state *psEncC, /* I Encoder State */
|
|
cannam@154
|
604 silk_nsq_state *NSQ, /* I/O NSQ state */
|
|
cannam@154
|
605 const opus_int32 x_Q3[], /* I input in Q3 */
|
|
cannam@154
|
606 opus_int32 x_sc_Q10[], /* O input scaled with 1/Gain */
|
|
cannam@154
|
607 const opus_int16 sLTP[], /* I re-whitened LTP state in Q0 */
|
|
cannam@154
|
608 opus_int32 sLTP_Q15[], /* O LTP state matching scaled input */
|
|
cannam@154
|
609 opus_int subfr, /* I subframe number */
|
|
cannam@154
|
610 const opus_int LTP_scale_Q14, /* I */
|
|
cannam@154
|
611 const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
|
|
cannam@154
|
612 const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
|
|
cannam@154
|
613 const opus_int signal_type /* I Signal type */
|
|
cannam@154
|
614 )
|
|
cannam@154
|
615 {
|
|
cannam@154
|
616 opus_int i, lag;
|
|
cannam@154
|
617 opus_int32 gain_adj_Q16, inv_gain_Q31, inv_gain_Q23;
|
|
cannam@154
|
618 __m128i xmm_inv_gain_Q23, xmm_x_Q3_x2x0, xmm_x_Q3_x3x1;
|
|
cannam@154
|
619
|
|
cannam@154
|
620 lag = pitchL[ subfr ];
|
|
cannam@154
|
621 inv_gain_Q31 = silk_INVERSE32_varQ( silk_max( Gains_Q16[ subfr ], 1 ), 47 );
|
|
cannam@154
|
622 silk_assert( inv_gain_Q31 != 0 );
|
|
cannam@154
|
623
|
|
cannam@154
|
624 /* Calculate gain adjustment factor */
|
|
cannam@154
|
625 if( Gains_Q16[ subfr ] != NSQ->prev_gain_Q16 ) {
|
|
cannam@154
|
626 gain_adj_Q16 = silk_DIV32_varQ( NSQ->prev_gain_Q16, Gains_Q16[ subfr ], 16 );
|
|
cannam@154
|
627 } else {
|
|
cannam@154
|
628 gain_adj_Q16 = (opus_int32)1 << 16;
|
|
cannam@154
|
629 }
|
|
cannam@154
|
630
|
|
cannam@154
|
631 /* Scale input */
|
|
cannam@154
|
632 inv_gain_Q23 = silk_RSHIFT_ROUND( inv_gain_Q31, 8 );
|
|
cannam@154
|
633
|
|
cannam@154
|
634 /* prepare inv_gain_Q23 in packed 4 32-bits */
|
|
cannam@154
|
635 xmm_inv_gain_Q23 = _mm_set1_epi32(inv_gain_Q23);
|
|
cannam@154
|
636
|
|
cannam@154
|
637 for( i = 0; i < psEncC->subfr_length - 3; i += 4 ) {
|
|
cannam@154
|
638 xmm_x_Q3_x2x0 = _mm_loadu_si128( (__m128i *)(&(x_Q3[ i ] ) ) );
|
|
cannam@154
|
639
|
|
cannam@154
|
640 /* equal shift right 4 bytes*/
|
|
cannam@154
|
641 xmm_x_Q3_x3x1 = _mm_shuffle_epi32( xmm_x_Q3_x2x0, _MM_SHUFFLE( 0, 3, 2, 1 ) );
|
|
cannam@154
|
642
|
|
cannam@154
|
643 xmm_x_Q3_x2x0 = _mm_mul_epi32( xmm_x_Q3_x2x0, xmm_inv_gain_Q23 );
|
|
cannam@154
|
644 xmm_x_Q3_x3x1 = _mm_mul_epi32( xmm_x_Q3_x3x1, xmm_inv_gain_Q23 );
|
|
cannam@154
|
645
|
|
cannam@154
|
646 xmm_x_Q3_x2x0 = _mm_srli_epi64( xmm_x_Q3_x2x0, 16 );
|
|
cannam@154
|
647 xmm_x_Q3_x3x1 = _mm_slli_epi64( xmm_x_Q3_x3x1, 16 );
|
|
cannam@154
|
648
|
|
cannam@154
|
649 xmm_x_Q3_x2x0 = _mm_blend_epi16( xmm_x_Q3_x2x0, xmm_x_Q3_x3x1, 0xCC );
|
|
cannam@154
|
650
|
|
cannam@154
|
651 _mm_storeu_si128( (__m128i *)(&(x_sc_Q10[ i ] ) ), xmm_x_Q3_x2x0 );
|
|
cannam@154
|
652 }
|
|
cannam@154
|
653
|
|
cannam@154
|
654 for( ; i < psEncC->subfr_length; i++ ) {
|
|
cannam@154
|
655 x_sc_Q10[ i ] = silk_SMULWW( x_Q3[ i ], inv_gain_Q23 );
|
|
cannam@154
|
656 }
|
|
cannam@154
|
657
|
|
cannam@154
|
658 /* Save inverse gain */
|
|
cannam@154
|
659 NSQ->prev_gain_Q16 = Gains_Q16[ subfr ];
|
|
cannam@154
|
660
|
|
cannam@154
|
661 /* After rewhitening the LTP state is un-scaled, so scale with inv_gain_Q16 */
|
|
cannam@154
|
662 if( NSQ->rewhite_flag ) {
|
|
cannam@154
|
663 if( subfr == 0 ) {
|
|
cannam@154
|
664 /* Do LTP downscaling */
|
|
cannam@154
|
665 inv_gain_Q31 = silk_LSHIFT( silk_SMULWB( inv_gain_Q31, LTP_scale_Q14 ), 2 );
|
|
cannam@154
|
666 }
|
|
cannam@154
|
667 for( i = NSQ->sLTP_buf_idx - lag - LTP_ORDER / 2; i < NSQ->sLTP_buf_idx; i++ ) {
|
|
cannam@154
|
668 silk_assert( i < MAX_FRAME_LENGTH );
|
|
cannam@154
|
669 sLTP_Q15[ i ] = silk_SMULWB( inv_gain_Q31, sLTP[ i ] );
|
|
cannam@154
|
670 }
|
|
cannam@154
|
671 }
|
|
cannam@154
|
672
|
|
cannam@154
|
673 /* Adjust for changing gain */
|
|
cannam@154
|
674 if( gain_adj_Q16 != (opus_int32)1 << 16 ) {
|
|
cannam@154
|
675 /* Scale long-term shaping state */
|
|
cannam@154
|
676 __m128i xmm_gain_adj_Q16, xmm_sLTP_shp_Q14_x2x0, xmm_sLTP_shp_Q14_x3x1;
|
|
cannam@154
|
677
|
|
cannam@154
|
678 /* prepare gain_adj_Q16 in packed 4 32-bits */
|
|
cannam@154
|
679 xmm_gain_adj_Q16 = _mm_set1_epi32(gain_adj_Q16);
|
|
cannam@154
|
680
|
|
cannam@154
|
681 for( i = NSQ->sLTP_shp_buf_idx - psEncC->ltp_mem_length; i < NSQ->sLTP_shp_buf_idx - 3; i += 4 )
|
|
cannam@154
|
682 {
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cannam@154
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683 xmm_sLTP_shp_Q14_x2x0 = _mm_loadu_si128( (__m128i *)(&(NSQ->sLTP_shp_Q14[ i ] ) ) );
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cannam@154
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684 /* equal shift right 4 bytes*/
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cannam@154
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685 xmm_sLTP_shp_Q14_x3x1 = _mm_shuffle_epi32( xmm_sLTP_shp_Q14_x2x0, _MM_SHUFFLE( 0, 3, 2, 1 ) );
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cannam@154
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686
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cannam@154
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687 xmm_sLTP_shp_Q14_x2x0 = _mm_mul_epi32( xmm_sLTP_shp_Q14_x2x0, xmm_gain_adj_Q16 );
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cannam@154
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688 xmm_sLTP_shp_Q14_x3x1 = _mm_mul_epi32( xmm_sLTP_shp_Q14_x3x1, xmm_gain_adj_Q16 );
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cannam@154
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689
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cannam@154
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690 xmm_sLTP_shp_Q14_x2x0 = _mm_srli_epi64( xmm_sLTP_shp_Q14_x2x0, 16 );
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cannam@154
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691 xmm_sLTP_shp_Q14_x3x1 = _mm_slli_epi64( xmm_sLTP_shp_Q14_x3x1, 16 );
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cannam@154
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692
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cannam@154
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693 xmm_sLTP_shp_Q14_x2x0 = _mm_blend_epi16( xmm_sLTP_shp_Q14_x2x0, xmm_sLTP_shp_Q14_x3x1, 0xCC );
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cannam@154
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694
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cannam@154
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695 _mm_storeu_si128( (__m128i *)(&(NSQ->sLTP_shp_Q14[ i ] ) ), xmm_sLTP_shp_Q14_x2x0 );
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cannam@154
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696 }
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cannam@154
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697
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cannam@154
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698 for( ; i < NSQ->sLTP_shp_buf_idx; i++ ) {
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cannam@154
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699 NSQ->sLTP_shp_Q14[ i ] = silk_SMULWW( gain_adj_Q16, NSQ->sLTP_shp_Q14[ i ] );
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cannam@154
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700 }
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cannam@154
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701
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cannam@154
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702 /* Scale long-term prediction state */
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cannam@154
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703 if( signal_type == TYPE_VOICED && NSQ->rewhite_flag == 0 ) {
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cannam@154
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704 for( i = NSQ->sLTP_buf_idx - lag - LTP_ORDER / 2; i < NSQ->sLTP_buf_idx; i++ ) {
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cannam@154
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705 sLTP_Q15[ i ] = silk_SMULWW( gain_adj_Q16, sLTP_Q15[ i ] );
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cannam@154
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706 }
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cannam@154
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707 }
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cannam@154
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708
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cannam@154
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709 NSQ->sLF_AR_shp_Q14 = silk_SMULWW( gain_adj_Q16, NSQ->sLF_AR_shp_Q14 );
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cannam@154
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710
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cannam@154
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711 /* Scale short-term prediction and shaping states */
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cannam@154
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712 for( i = 0; i < NSQ_LPC_BUF_LENGTH; i++ ) {
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cannam@154
|
713 NSQ->sLPC_Q14[ i ] = silk_SMULWW( gain_adj_Q16, NSQ->sLPC_Q14[ i ] );
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cannam@154
|
714 }
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cannam@154
|
715 for( i = 0; i < MAX_SHAPE_LPC_ORDER; i++ ) {
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cannam@154
|
716 NSQ->sAR2_Q14[ i ] = silk_SMULWW( gain_adj_Q16, NSQ->sAR2_Q14[ i ] );
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cannam@154
|
717 }
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cannam@154
|
718 }
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cannam@154
|
719 }
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