FreeCalypso > hg > gsm-codec-lib
view libtwamr/d_plsf_3.c @ 585:3c6bf0d26ee7 default tip
TW-TS-005 reader: fix maximum line length bug
TW-TS-005 section 4.1 states:
The maximum allowed length of each line is 80 characters, not
including the OS-specific newline encoding.
The implementation of this line length limit in the TW-TS-005 hex file
reader function in the present suite was wrong, such that lines of
the full maximum length could not be read. Fix it.
Note that this bug affects comment lines too, not just actual RTP
payloads. Neither Annex A nor Annex B features an RTP payload format
that goes to the maximum of 40 bytes, but if a comment line goes to
the maximum allowed length of 80 characters not including the
terminating newline, the bug will be triggered, necessitating
the present fix.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Tue, 25 Feb 2025 07:49:28 +0000 |
| parents | 05a46720af0f |
| children |
line wrap: on
line source
/* ******************************************************************************** * * 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 : d_plsf_3.c * Purpose : Decodes the LSP parameters using the received * quantization indices. 1st order MA prediction and * split by 3 vector quantization (split-VQ) * ******************************************************************************** */ /* ******************************************************************************** * MODULE INCLUDE FILE AND VERSION ID ******************************************************************************** */ #include "namespace.h" #include "d_plsf.h" /* ******************************************************************************** * INCLUDE FILES ******************************************************************************** */ #include "typedef.h" #include "basic_op.h" #include "no_count.h" #include "lsp_lsf.h" #include "reorder.h" #include "memops.h" #include "q_plsf3_tab.h" /* ******************************************************************************** * LOCAL VARIABLES AND TABLES ******************************************************************************** */ /* ALPHA -> 0.9 */ /* ONE_ALPHA-> (1.0-ALPHA) */ #define ALPHA 29491 #define ONE_ALPHA 3277 /* ******************************************************************************** * PUBLIC PROGRAM CODE ******************************************************************************** */ /************************************************************************* * * FUNCTION: D_plsf_3() * * PURPOSE: Decodes the LSP parameters using the received quantization * indices.1st order MA prediction and split by 3 vector * quantization (split-VQ) * *************************************************************************/ void D_plsf_3( D_plsfState *st, /* i/o: State struct */ enum Mode mode, /* i : coder mode */ Word16 bfi, /* i : bad frame indicator (set to 1 if a */ /* bad frame is received) */ Word16 * indice, /* i : quantization indices of 3 submatrices, Q0 */ Word16 * lsp1_q /* o : quantized 1st LSP vector, Q15 */ ) { Word16 i, index; const Word16 *p_cb1, *p_cb2, *p_cb3, *p_dico; Word16 temp; Word16 lsf1_r[M]; Word16 lsf1_q[M]; test (); if (bfi != 0) /* if bad frame */ { /* use the past LSFs slightly shifted towards their mean */ for (i = 0; i < M; i++) { /* lsfi_q[i] = ALPHA*past_lsf_q[i] + ONE_ALPHA*mean_lsf3[i]; */ lsf1_q[i] = add(mult(st->past_lsf_q[i], ALPHA), mult(mean_lsf3[i], ONE_ALPHA)); move16 (); } /* estimate past quantized residual to be used in next frame */ test(); if (sub(mode, MRDTX) != 0) { for (i = 0; i < M; i++) { /* temp = mean_lsf3[i] + past_r2_q[i] * PRED_FAC; */ temp = add(mean_lsf3[i], mult(st->past_r_q[i], pred_fac[i])); st->past_r_q[i] = sub(lsf1_q[i], temp); move16 (); } } else { for (i = 0; i < M; i++) { /* temp = mean_lsf3[i] + past_r2_q[i]; */ temp = add(mean_lsf3[i], st->past_r_q[i]); st->past_r_q[i] = sub(lsf1_q[i], temp); move16 (); } } } else /* if good LSFs received */ { test (); test (); if (sub (mode, MR475) == 0 || sub (mode, MR515) == 0) { /* MR475, MR515 */ p_cb1 = dico1_lsf3; move16 (); p_cb2 = dico2_lsf3; move16 (); p_cb3 = mr515_3_lsf; move16 (); } else if (sub (mode, MR795) == 0) { /* MR795 */ test(); p_cb1 = mr795_1_lsf; move16 (); p_cb2 = dico2_lsf3; move16 (); p_cb3 = dico3_lsf3; move16 (); } else { /* MR59, MR67, MR74, MR102, MRDTX */ test(); p_cb1 = dico1_lsf3; move16 (); p_cb2 = dico2_lsf3; move16 (); p_cb3 = dico3_lsf3; move16 (); } /* decode prediction residuals from 3 received indices */ index = *indice++; move16 (); p_dico = &p_cb1[add(index, add(index, index))]; move16 (); lsf1_r[0] = *p_dico++; move16 (); lsf1_r[1] = *p_dico++; move16 (); lsf1_r[2] = *p_dico++; move16 (); index = *indice++; move16 (); test (); test (); if ((sub (mode, MR475) == 0) || (sub (mode, MR515) == 0)) { /* MR475, MR515 only using every second entry */ index = shl(index,1); } p_dico = &p_cb2[add(index, add(index, index))]; move16 (); lsf1_r[3] = *p_dico++; move16 (); lsf1_r[4] = *p_dico++; move16 (); lsf1_r[5] = *p_dico++; move16 (); index = *indice++; move16 (); p_dico = &p_cb3[shl(index, 2)]; move16 (); lsf1_r[6] = *p_dico++; move16 (); lsf1_r[7] = *p_dico++; move16 (); lsf1_r[8] = *p_dico++; move16 (); lsf1_r[9] = *p_dico++; move16 (); /* Compute quantized LSFs and update the past quantized residual */ if (sub(mode, MRDTX) != 0) for (i = 0; i < M; i++) { temp = add(mean_lsf3[i], mult(st->past_r_q[i], pred_fac[i])); lsf1_q[i] = add(lsf1_r[i], temp); move16 (); st->past_r_q[i] = lsf1_r[i]; move16 (); } else for (i = 0; i < M; i++) { temp = add(mean_lsf3[i], st->past_r_q[i]); lsf1_q[i] = add(lsf1_r[i], temp); move16 (); st->past_r_q[i] = lsf1_r[i]; move16 (); } } /* verification that LSFs has minimum distance of LSF_GAP Hz */ Reorder_lsf(lsf1_q, LSF_GAP, M); Copy (lsf1_q, st->past_lsf_q, M); /* convert LSFs to the cosine domain */ Lsf_lsp(lsf1_q, lsp1_q, M); return; } void Init_D_plsf_3(D_plsfState *st, /* i/o: State struct */ Word16 index /* i : past_rq_init[] index [0, 7] */) { Copy(&past_rq_init[index * M], st->past_r_q, M); }