1*a58d3d2aSXin Li /***********************************************************************
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7*a58d3d2aSXin Li this list of conditions and the following disclaimer.
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26*a58d3d2aSXin Li ***********************************************************************/
27*a58d3d2aSXin Li
28*a58d3d2aSXin Li #ifdef HAVE_CONFIG_H
29*a58d3d2aSXin Li #include "config.h"
30*a58d3d2aSXin Li #endif
31*a58d3d2aSXin Li
32*a58d3d2aSXin Li #include "main_FLP.h"
33*a58d3d2aSXin Li
34*a58d3d2aSXin Li #define MAX_ITERATIONS_RESIDUAL_NRG 10
35*a58d3d2aSXin Li #define REGULARIZATION_FACTOR 1e-8f
36*a58d3d2aSXin Li
37*a58d3d2aSXin Li /* Residual energy: nrg = wxx - 2 * wXx * c + c' * wXX * c */
silk_residual_energy_covar_FLP(const silk_float * c,silk_float * wXX,const silk_float * wXx,const silk_float wxx,const opus_int D)38*a58d3d2aSXin Li silk_float silk_residual_energy_covar_FLP( /* O Weighted residual energy */
39*a58d3d2aSXin Li const silk_float *c, /* I Filter coefficients */
40*a58d3d2aSXin Li silk_float *wXX, /* I/O Weighted correlation matrix, reg. out */
41*a58d3d2aSXin Li const silk_float *wXx, /* I Weighted correlation vector */
42*a58d3d2aSXin Li const silk_float wxx, /* I Weighted correlation value */
43*a58d3d2aSXin Li const opus_int D /* I Dimension */
44*a58d3d2aSXin Li )
45*a58d3d2aSXin Li {
46*a58d3d2aSXin Li opus_int i, j, k;
47*a58d3d2aSXin Li silk_float tmp, nrg = 0.0f, regularization;
48*a58d3d2aSXin Li
49*a58d3d2aSXin Li /* Safety checks */
50*a58d3d2aSXin Li celt_assert( D >= 0 );
51*a58d3d2aSXin Li
52*a58d3d2aSXin Li regularization = REGULARIZATION_FACTOR * ( wXX[ 0 ] + wXX[ D * D - 1 ] );
53*a58d3d2aSXin Li for( k = 0; k < MAX_ITERATIONS_RESIDUAL_NRG; k++ ) {
54*a58d3d2aSXin Li nrg = wxx;
55*a58d3d2aSXin Li
56*a58d3d2aSXin Li tmp = 0.0f;
57*a58d3d2aSXin Li for( i = 0; i < D; i++ ) {
58*a58d3d2aSXin Li tmp += wXx[ i ] * c[ i ];
59*a58d3d2aSXin Li }
60*a58d3d2aSXin Li nrg -= 2.0f * tmp;
61*a58d3d2aSXin Li
62*a58d3d2aSXin Li /* compute c' * wXX * c, assuming wXX is symmetric */
63*a58d3d2aSXin Li for( i = 0; i < D; i++ ) {
64*a58d3d2aSXin Li tmp = 0.0f;
65*a58d3d2aSXin Li for( j = i + 1; j < D; j++ ) {
66*a58d3d2aSXin Li tmp += matrix_c_ptr( wXX, i, j, D ) * c[ j ];
67*a58d3d2aSXin Li }
68*a58d3d2aSXin Li nrg += c[ i ] * ( 2.0f * tmp + matrix_c_ptr( wXX, i, i, D ) * c[ i ] );
69*a58d3d2aSXin Li }
70*a58d3d2aSXin Li if( nrg > 0 ) {
71*a58d3d2aSXin Li break;
72*a58d3d2aSXin Li } else {
73*a58d3d2aSXin Li /* Add white noise */
74*a58d3d2aSXin Li for( i = 0; i < D; i++ ) {
75*a58d3d2aSXin Li matrix_c_ptr( wXX, i, i, D ) += regularization;
76*a58d3d2aSXin Li }
77*a58d3d2aSXin Li /* Increase noise for next run */
78*a58d3d2aSXin Li regularization *= 2.0f;
79*a58d3d2aSXin Li }
80*a58d3d2aSXin Li }
81*a58d3d2aSXin Li if( k == MAX_ITERATIONS_RESIDUAL_NRG ) {
82*a58d3d2aSXin Li silk_assert( nrg == 0 );
83*a58d3d2aSXin Li nrg = 1.0f;
84*a58d3d2aSXin Li }
85*a58d3d2aSXin Li
86*a58d3d2aSXin Li return nrg;
87*a58d3d2aSXin Li }
88*a58d3d2aSXin Li
89*a58d3d2aSXin Li /* Calculates residual energies of input subframes where all subframes have LPC_order */
90*a58d3d2aSXin Li /* of preceding samples */
silk_residual_energy_FLP(silk_float nrgs[MAX_NB_SUBFR],const silk_float x[],silk_float a[2][MAX_LPC_ORDER],const silk_float gains[],const opus_int subfr_length,const opus_int nb_subfr,const opus_int LPC_order)91*a58d3d2aSXin Li void silk_residual_energy_FLP(
92*a58d3d2aSXin Li silk_float nrgs[ MAX_NB_SUBFR ], /* O Residual energy per subframe */
93*a58d3d2aSXin Li const silk_float x[], /* I Input signal */
94*a58d3d2aSXin Li silk_float a[ 2 ][ MAX_LPC_ORDER ], /* I AR coefs for each frame half */
95*a58d3d2aSXin Li const silk_float gains[], /* I Quantization gains */
96*a58d3d2aSXin Li const opus_int subfr_length, /* I Subframe length */
97*a58d3d2aSXin Li const opus_int nb_subfr, /* I number of subframes */
98*a58d3d2aSXin Li const opus_int LPC_order /* I LPC order */
99*a58d3d2aSXin Li )
100*a58d3d2aSXin Li {
101*a58d3d2aSXin Li opus_int shift;
102*a58d3d2aSXin Li silk_float *LPC_res_ptr, LPC_res[ ( MAX_FRAME_LENGTH + MAX_NB_SUBFR * MAX_LPC_ORDER ) / 2 ];
103*a58d3d2aSXin Li
104*a58d3d2aSXin Li LPC_res_ptr = LPC_res + LPC_order;
105*a58d3d2aSXin Li shift = LPC_order + subfr_length;
106*a58d3d2aSXin Li
107*a58d3d2aSXin Li /* Filter input to create the LPC residual for each frame half, and measure subframe energies */
108*a58d3d2aSXin Li silk_LPC_analysis_filter_FLP( LPC_res, a[ 0 ], x + 0 * shift, 2 * shift, LPC_order );
109*a58d3d2aSXin Li nrgs[ 0 ] = ( silk_float )( gains[ 0 ] * gains[ 0 ] * silk_energy_FLP( LPC_res_ptr + 0 * shift, subfr_length ) );
110*a58d3d2aSXin Li nrgs[ 1 ] = ( silk_float )( gains[ 1 ] * gains[ 1 ] * silk_energy_FLP( LPC_res_ptr + 1 * shift, subfr_length ) );
111*a58d3d2aSXin Li
112*a58d3d2aSXin Li if( nb_subfr == MAX_NB_SUBFR ) {
113*a58d3d2aSXin Li silk_LPC_analysis_filter_FLP( LPC_res, a[ 1 ], x + 2 * shift, 2 * shift, LPC_order );
114*a58d3d2aSXin Li nrgs[ 2 ] = ( silk_float )( gains[ 2 ] * gains[ 2 ] * silk_energy_FLP( LPC_res_ptr + 0 * shift, subfr_length ) );
115*a58d3d2aSXin Li nrgs[ 3 ] = ( silk_float )( gains[ 3 ] * gains[ 3 ] * silk_energy_FLP( LPC_res_ptr + 1 * shift, subfr_length ) );
116*a58d3d2aSXin Li }
117*a58d3d2aSXin Li }
118