FreeCalypso > hg > gsm-codec-lib
view libtwamr/q_plsf_5.c @ 516:5353d7652f65
top Makefile: add hrutil
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Fri, 30 Aug 2024 08:15:41 +0000 |
| parents | 128ec87489b6 |
| children |
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/* ******************************************************************************** * * GSM AMR-NB speech codec R98 Version 7.6.0 December 12, 2001 * R99 Version 3.3.0 * REL-4 Version 4.1.0 * ******************************************************************************** * * File : q_plsf_5.c * Purpose : Quantization of 2 sets of LSF parameters using 1st * order MA prediction and split by 5 matrix * quantization (split-MQ) * ******************************************************************************** */ /* ******************************************************************************** * MODULE INCLUDE FILE AND VERSION ID ******************************************************************************** */ #include "namespace.h" #include "q_plsf.h" /* ******************************************************************************** * INCLUDE FILES ******************************************************************************** */ #include "typedef.h" #include "basic_op.h" #include "no_count.h" #include "lsp_lsf.h" #include "reorder.h" #include "lsfwt.h" #include "q_plsf5_tab.h" /* ******************************************************************************** * LOCAL PROGRAM CODE ******************************************************************************** */ /* Quantization of a 4 dimensional subvector */ static Word16 Vq_subvec (/* o : quantization index, Q0 */ Word16 *lsf_r1, /* i : 1st LSF residual vector, Q15 */ Word16 *lsf_r2, /* i : 2nd LSF residual vector, Q15 */ const Word16 *dico, /* i : quantization codebook, Q15 */ Word16 *wf1, /* i : 1st LSF weighting factors Q13 */ Word16 *wf2, /* i : 2nd LSF weighting factors Q13 */ Word16 dico_size /* i : size of quantization codebook, Q0 */ ) { Word16 index = 0; /* initialization only needed to keep gcc silent */ Word16 i, temp; const Word16 *p_dico; Word32 dist_min, dist; dist_min = MAX_32; move32 (); p_dico = dico; move16 (); for (i = 0; i < dico_size; i++) { temp = sub (lsf_r1[0], *p_dico++); temp = mult (wf1[0], temp); dist = L_mult (temp, temp); temp = sub (lsf_r1[1], *p_dico++); temp = mult (wf1[1], temp); dist = L_mac (dist, temp, temp); temp = sub (lsf_r2[0], *p_dico++); temp = mult (wf2[0], temp); dist = L_mac (dist, temp, temp); temp = sub (lsf_r2[1], *p_dico++); temp = mult (wf2[1], temp); dist = L_mac (dist, temp, temp); test (); if (L_sub (dist, dist_min) < (Word32) 0) { dist_min = dist; move32 (); index = i; move16 (); } } /* Reading the selected vector */ p_dico = &dico[shl (index, 2)]; move16 (); lsf_r1[0] = *p_dico++; move16 (); lsf_r1[1] = *p_dico++; move16 (); lsf_r2[0] = *p_dico++; move16 (); lsf_r2[1] = *p_dico++; move16 (); return index; } /* Quantization of a 4 dimensional subvector with a signed codebook */ static Word16 Vq_subvec_s ( /* o : quantization index Q0 */ Word16 *lsf_r1, /* i : 1st LSF residual vector Q15 */ Word16 *lsf_r2, /* i : and LSF residual vector Q15 */ const Word16 *dico, /* i : quantization codebook Q15 */ Word16 *wf1, /* i : 1st LSF weighting factors Q13 */ Word16 *wf2, /* i : 2nd LSF weighting factors Q13 */ Word16 dico_size) /* i : size of quantization codebook Q0 */ { Word16 index = 0; /* initialization only needed to keep gcc silent */ Word16 sign = 0; /* initialization only needed to keep gcc silent */ Word16 i, temp; const Word16 *p_dico; Word32 dist_min, dist; dist_min = MAX_32; move32 (); p_dico = dico; move16 (); for (i = 0; i < dico_size; i++) { /* test positive */ temp = sub (lsf_r1[0], *p_dico++); temp = mult (wf1[0], temp); dist = L_mult (temp, temp); temp = sub (lsf_r1[1], *p_dico++); temp = mult (wf1[1], temp); dist = L_mac (dist, temp, temp); temp = sub (lsf_r2[0], *p_dico++); temp = mult (wf2[0], temp); dist = L_mac (dist, temp, temp); temp = sub (lsf_r2[1], *p_dico++); temp = mult (wf2[1], temp); dist = L_mac (dist, temp, temp); test (); if (L_sub (dist, dist_min) < (Word32) 0) { dist_min = dist; move32 (); index = i; move16 (); sign = 0; move16 (); } /* test negative */ p_dico -= 4; move16 (); temp = add (lsf_r1[0], *p_dico++); temp = mult (wf1[0], temp); dist = L_mult (temp, temp); temp = add (lsf_r1[1], *p_dico++); temp = mult (wf1[1], temp); dist = L_mac (dist, temp, temp); temp = add (lsf_r2[0], *p_dico++); temp = mult (wf2[0], temp); dist = L_mac (dist, temp, temp); temp = add (lsf_r2[1], *p_dico++); temp = mult (wf2[1], temp); dist = L_mac (dist, temp, temp); test (); if (L_sub (dist, dist_min) < (Word32) 0) { dist_min = dist; move32 (); index = i; move16 (); sign = 1; move16 (); } } /* Reading the selected vector */ p_dico = &dico[shl (index, 2)]; move16 (); test (); if (sign == 0) { lsf_r1[0] = *p_dico++; move16 (); lsf_r1[1] = *p_dico++; move16 (); lsf_r2[0] = *p_dico++; move16 (); lsf_r2[1] = *p_dico++; move16 (); } else { lsf_r1[0] = negate (*p_dico++); move16 (); lsf_r1[1] = negate (*p_dico++); move16 (); lsf_r2[0] = negate (*p_dico++); move16 (); lsf_r2[1] = negate (*p_dico++); move16 (); } index = shl (index, 1); index = add (index, sign); return index; } /* ******************************************************************************** * PUBLIC PROGRAM CODE ******************************************************************************** */ /************************************************************************* * FUNCTION: Q_plsf_5() * * PURPOSE: Quantization of 2 sets of LSF parameters using 1st order MA * prediction and split by 5 matrix quantization (split-MQ) * * DESCRIPTION: * * p[i] = pred_factor*past_rq[i]; i=0,...,m-1 * r1[i]= lsf1[i] - p[i]; i=0,...,m-1 * r2[i]= lsf2[i] - p[i]; i=0,...,m-1 * where: * lsf1[i] 1st mean-removed LSF vector. * lsf2[i] 2nd mean-removed LSF vector. * r1[i] 1st residual prediction vector. * r2[i] 2nd residual prediction vector. * past_r2q[i] Past quantized residual (2nd vector). * * The residual vectors r1[i] and r2[i] are jointly quantized using * split-MQ with 5 codebooks. Each 4th dimension submatrix contains 2 * elements from each residual vector. The 5 submatrices are as follows: * {r1[0], r1[1], r2[0], r2[1]}; {r1[2], r1[3], r2[2], r2[3]}; * {r1[4], r1[5], r2[4], r2[5]}; {r1[6], r1[7], r2[6], r2[7]}; * {r1[8], r1[9], r2[8], r2[9]}; * *************************************************************************/ void Q_plsf_5 ( Q_plsfState *st, Word16 *lsp1, /* i : 1st LSP vector, Q15 */ Word16 *lsp2, /* i : 2nd LSP vector, Q15 */ Word16 *lsp1_q, /* o : quantized 1st LSP vector, Q15 */ Word16 *lsp2_q, /* o : quantized 2nd LSP vector, Q15 */ Word16 *indice /* o : quantization indices of 5 matrices, Q0 */ ) { Word16 i; Word16 lsf1[M], lsf2[M], wf1[M], wf2[M], lsf_p[M], lsf_r1[M], lsf_r2[M]; Word16 lsf1_q[M], lsf2_q[M]; /* convert LSFs to normalize frequency domain 0..16384 */ Lsp_lsf (lsp1, lsf1, M); Lsp_lsf (lsp2, lsf2, M); /* Compute LSF weighting factors (Q13) */ Lsf_wt (lsf1, wf1); Lsf_wt (lsf2, wf2); /* Compute predicted LSF and prediction error */ for (i = 0; i < M; i++) { lsf_p[i] = add (mean_lsf[i], mult (st->past_rq[i], LSP_PRED_FAC_MR122)); move16 (); lsf_r1[i] = sub (lsf1[i], lsf_p[i]); move16 (); lsf_r2[i] = sub (lsf2[i], lsf_p[i]); move16 (); } /*---- Split-MQ of prediction error ----*/ indice[0] = Vq_subvec (&lsf_r1[0], &lsf_r2[0], dico1_lsf, &wf1[0], &wf2[0], DICO1_SIZE); move16 (); indice[1] = Vq_subvec (&lsf_r1[2], &lsf_r2[2], dico2_lsf, &wf1[2], &wf2[2], DICO2_SIZE); move16 (); indice[2] = Vq_subvec_s (&lsf_r1[4], &lsf_r2[4], dico3_lsf, &wf1[4], &wf2[4], DICO3_SIZE); move16 (); indice[3] = Vq_subvec (&lsf_r1[6], &lsf_r2[6], dico4_lsf, &wf1[6], &wf2[6], DICO4_SIZE); move16 (); indice[4] = Vq_subvec (&lsf_r1[8], &lsf_r2[8], dico5_lsf, &wf1[8], &wf2[8], DICO5_SIZE); move16 (); /* Compute quantized LSFs and update the past quantized residual */ for (i = 0; i < M; i++) { lsf1_q[i] = add (lsf_r1[i], lsf_p[i]); move16 (); lsf2_q[i] = add (lsf_r2[i], lsf_p[i]); move16 (); st->past_rq[i] = lsf_r2[i]; move16 (); } /* verification that LSFs has minimum distance of LSF_GAP */ Reorder_lsf (lsf1_q, LSF_GAP, M); Reorder_lsf (lsf2_q, LSF_GAP, M); /* convert LSFs to the cosine domain */ Lsf_lsp (lsf1_q, lsp1_q, M); Lsf_lsp (lsf2_q, lsp2_q, M); }