1*a58d3d2aSXin Li /***********************************************************************
2*a58d3d2aSXin Li Copyright (c) 2006-2011, Skype Limited. All rights reserved.
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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 /* conversion between prediction filter coefficients and LSFs */
33*a58d3d2aSXin Li /* order should be even */
34*a58d3d2aSXin Li /* a piecewise linear approximation maps LSF <-> cos(LSF) */
35*a58d3d2aSXin Li /* therefore the result is not accurate LSFs, but the two */
36*a58d3d2aSXin Li /* functions are accurate inverses of each other */
37*a58d3d2aSXin Li
38*a58d3d2aSXin Li #include "SigProc_FIX.h"
39*a58d3d2aSXin Li #include "tables.h"
40*a58d3d2aSXin Li
41*a58d3d2aSXin Li #define QA 16
42*a58d3d2aSXin Li
43*a58d3d2aSXin Li /* helper function for NLSF2A(..) */
silk_NLSF2A_find_poly(opus_int32 * out,const opus_int32 * cLSF,opus_int dd)44*a58d3d2aSXin Li static OPUS_INLINE void silk_NLSF2A_find_poly(
45*a58d3d2aSXin Li opus_int32 *out, /* O intermediate polynomial, QA [dd+1] */
46*a58d3d2aSXin Li const opus_int32 *cLSF, /* I vector of interleaved 2*cos(LSFs), QA [d] */
47*a58d3d2aSXin Li opus_int dd /* I polynomial order (= 1/2 * filter order) */
48*a58d3d2aSXin Li )
49*a58d3d2aSXin Li {
50*a58d3d2aSXin Li opus_int k, n;
51*a58d3d2aSXin Li opus_int32 ftmp;
52*a58d3d2aSXin Li
53*a58d3d2aSXin Li out[0] = silk_LSHIFT( 1, QA );
54*a58d3d2aSXin Li out[1] = -cLSF[0];
55*a58d3d2aSXin Li for( k = 1; k < dd; k++ ) {
56*a58d3d2aSXin Li ftmp = cLSF[2*k]; /* QA*/
57*a58d3d2aSXin Li out[k+1] = silk_LSHIFT( out[k-1], 1 ) - (opus_int32)silk_RSHIFT_ROUND64( silk_SMULL( ftmp, out[k] ), QA );
58*a58d3d2aSXin Li for( n = k; n > 1; n-- ) {
59*a58d3d2aSXin Li out[n] += out[n-2] - (opus_int32)silk_RSHIFT_ROUND64( silk_SMULL( ftmp, out[n-1] ), QA );
60*a58d3d2aSXin Li }
61*a58d3d2aSXin Li out[1] -= ftmp;
62*a58d3d2aSXin Li }
63*a58d3d2aSXin Li }
64*a58d3d2aSXin Li
65*a58d3d2aSXin Li /* compute whitening filter coefficients from normalized line spectral frequencies */
silk_NLSF2A(opus_int16 * a_Q12,const opus_int16 * NLSF,const opus_int d,int arch)66*a58d3d2aSXin Li void silk_NLSF2A(
67*a58d3d2aSXin Li opus_int16 *a_Q12, /* O monic whitening filter coefficients in Q12, [ d ] */
68*a58d3d2aSXin Li const opus_int16 *NLSF, /* I normalized line spectral frequencies in Q15, [ d ] */
69*a58d3d2aSXin Li const opus_int d, /* I filter order (should be even) */
70*a58d3d2aSXin Li int arch /* I Run-time architecture */
71*a58d3d2aSXin Li )
72*a58d3d2aSXin Li {
73*a58d3d2aSXin Li /* This ordering was found to maximize quality. It improves numerical accuracy of
74*a58d3d2aSXin Li silk_NLSF2A_find_poly() compared to "standard" ordering. */
75*a58d3d2aSXin Li static const unsigned char ordering16[16] = {
76*a58d3d2aSXin Li 0, 15, 8, 7, 4, 11, 12, 3, 2, 13, 10, 5, 6, 9, 14, 1
77*a58d3d2aSXin Li };
78*a58d3d2aSXin Li static const unsigned char ordering10[10] = {
79*a58d3d2aSXin Li 0, 9, 6, 3, 4, 5, 8, 1, 2, 7
80*a58d3d2aSXin Li };
81*a58d3d2aSXin Li const unsigned char *ordering;
82*a58d3d2aSXin Li opus_int k, i, dd;
83*a58d3d2aSXin Li opus_int32 cos_LSF_QA[ SILK_MAX_ORDER_LPC ];
84*a58d3d2aSXin Li opus_int32 P[ SILK_MAX_ORDER_LPC / 2 + 1 ], Q[ SILK_MAX_ORDER_LPC / 2 + 1 ];
85*a58d3d2aSXin Li opus_int32 Ptmp, Qtmp, f_int, f_frac, cos_val, delta;
86*a58d3d2aSXin Li opus_int32 a32_QA1[ SILK_MAX_ORDER_LPC ];
87*a58d3d2aSXin Li
88*a58d3d2aSXin Li silk_assert( LSF_COS_TAB_SZ_FIX == 128 );
89*a58d3d2aSXin Li celt_assert( d==10 || d==16 );
90*a58d3d2aSXin Li
91*a58d3d2aSXin Li /* convert LSFs to 2*cos(LSF), using piecewise linear curve from table */
92*a58d3d2aSXin Li ordering = d == 16 ? ordering16 : ordering10;
93*a58d3d2aSXin Li for( k = 0; k < d; k++ ) {
94*a58d3d2aSXin Li silk_assert( NLSF[k] >= 0 );
95*a58d3d2aSXin Li
96*a58d3d2aSXin Li /* f_int on a scale 0-127 (rounded down) */
97*a58d3d2aSXin Li f_int = silk_RSHIFT( NLSF[k], 15 - 7 );
98*a58d3d2aSXin Li
99*a58d3d2aSXin Li /* f_frac, range: 0..255 */
100*a58d3d2aSXin Li f_frac = NLSF[k] - silk_LSHIFT( f_int, 15 - 7 );
101*a58d3d2aSXin Li
102*a58d3d2aSXin Li silk_assert(f_int >= 0);
103*a58d3d2aSXin Li silk_assert(f_int < LSF_COS_TAB_SZ_FIX );
104*a58d3d2aSXin Li
105*a58d3d2aSXin Li /* Read start and end value from table */
106*a58d3d2aSXin Li cos_val = silk_LSFCosTab_FIX_Q12[ f_int ]; /* Q12 */
107*a58d3d2aSXin Li delta = silk_LSFCosTab_FIX_Q12[ f_int + 1 ] - cos_val; /* Q12, with a range of 0..200 */
108*a58d3d2aSXin Li
109*a58d3d2aSXin Li /* Linear interpolation */
110*a58d3d2aSXin Li cos_LSF_QA[ordering[k]] = silk_RSHIFT_ROUND( silk_LSHIFT( cos_val, 8 ) + silk_MUL( delta, f_frac ), 20 - QA ); /* QA */
111*a58d3d2aSXin Li }
112*a58d3d2aSXin Li
113*a58d3d2aSXin Li dd = silk_RSHIFT( d, 1 );
114*a58d3d2aSXin Li
115*a58d3d2aSXin Li /* generate even and odd polynomials using convolution */
116*a58d3d2aSXin Li silk_NLSF2A_find_poly( P, &cos_LSF_QA[ 0 ], dd );
117*a58d3d2aSXin Li silk_NLSF2A_find_poly( Q, &cos_LSF_QA[ 1 ], dd );
118*a58d3d2aSXin Li
119*a58d3d2aSXin Li /* convert even and odd polynomials to opus_int32 Q12 filter coefs */
120*a58d3d2aSXin Li for( k = 0; k < dd; k++ ) {
121*a58d3d2aSXin Li Ptmp = P[ k+1 ] + P[ k ];
122*a58d3d2aSXin Li Qtmp = Q[ k+1 ] - Q[ k ];
123*a58d3d2aSXin Li
124*a58d3d2aSXin Li /* the Ptmp and Qtmp values at this stage need to fit in int32 */
125*a58d3d2aSXin Li a32_QA1[ k ] = -Qtmp - Ptmp; /* QA+1 */
126*a58d3d2aSXin Li a32_QA1[ d-k-1 ] = Qtmp - Ptmp; /* QA+1 */
127*a58d3d2aSXin Li }
128*a58d3d2aSXin Li
129*a58d3d2aSXin Li /* Convert int32 coefficients to Q12 int16 coefs */
130*a58d3d2aSXin Li silk_LPC_fit( a_Q12, a32_QA1, 12, QA + 1, d );
131*a58d3d2aSXin Li
132*a58d3d2aSXin Li for( i = 0; silk_LPC_inverse_pred_gain( a_Q12, d, arch ) == 0 && i < MAX_LPC_STABILIZE_ITERATIONS; i++ ) {
133*a58d3d2aSXin Li /* Prediction coefficients are (too close to) unstable; apply bandwidth expansion */
134*a58d3d2aSXin Li /* on the unscaled coefficients, convert to Q12 and measure again */
135*a58d3d2aSXin Li silk_bwexpander_32( a32_QA1, d, 65536 - silk_LSHIFT( 2, i ) );
136*a58d3d2aSXin Li for( k = 0; k < d; k++ ) {
137*a58d3d2aSXin Li a_Q12[ k ] = (opus_int16)silk_RSHIFT_ROUND( a32_QA1[ k ], QA + 1 - 12 ); /* QA+1 -> Q12 */
138*a58d3d2aSXin Li }
139*a58d3d2aSXin Li }
140*a58d3d2aSXin Li }
141*a58d3d2aSXin Li
142