/*----------------------------------------------------------------------------- * int_qlpc - interpolated M LSP parameters and convert to M+1 LPC coeffs *----------------------------------------------------------------------------- */ void int_qlpc( GFLOAT lsp_old[], /* input : LSPs for past frame (0:M-1) */ GFLOAT lsp_new[], /* input : LSPs for present frame (0:M-1) */ GFLOAT az[] /* output: filter parameters in 2 subfr (dim 2(m+1)) */ ) { int i; GFLOAT lsp[M]; for (i = 0; i < M; i++) lsp[i] = lsp_old[i]*(F)0.5 + lsp_new[i]*(F)0.5; lsp_az(lsp, az); lsp_az(lsp_new, &az[M+1]); }
/*-------------------------------------------------------------------------- * decod_ld8c - decoder *-------------------------------------------------------------------------- */ void decod_ld8c( int parm[], /* (i) : vector of synthesis parameters parm[0] = bad frame indicator (bfi) */ int voicing, /* (i) : voicing decision from previous frame */ FLOAT synth_buf[], /* (i/o) : synthesis speech */ FLOAT Az_dec[], /* (o) : decoded LP filter in 2 subframes */ int *t0_first, /* (o) : decoded pitch lag in first subframe */ int *bwd_dominant,/* (o) : bwd dominant indicator */ int *m_pst, /* (o) : LPC order for postfilter */ int *Vad /* output: decoded frame type */ ) { /* Scalars */ int i, j, i_subfr; int t0, t0_frac, index; int bfi; int lp_mode; /* Backward / Forward mode indication */ FLOAT g_p, g_c; /* fixed and adaptive codebook gain */ int bad_pitch; /* bad pitch indicator */ FLOAT tmp; FLOAT energy; int rate; /* Tables */ FLOAT A_t_bwd[2*M_BWDP1]; /* LPC Backward filter */ FLOAT A_t_fwd[2*MP1]; /* LPC Forward filter */ FLOAT rc_bwd[M_BWD]; /* LPC backward reflection coefficients */ FLOAT r_bwd[M_BWDP1]; /* Autocorrelations (backward) */ FLOAT lsp_new[M]; /* LSPs */ FLOAT code[L_SUBFR]; /* ACELP codevector */ FLOAT exc_phdisp[L_SUBFR]; /* excitation after phase dispersion */ FLOAT *pA_t; /* Pointer on A_t */ int stationnary; int m_aq; FLOAT *synth; int sat_filter; /* for G.729B */ int ftyp; FLOAT lsfq_mem[MA_NP][M]; synth = synth_buf + MEM_SYN_BWD; /* Test bad frame indicator (bfi) */ bfi = *parm++; /* Test frame type */ ftyp = *parm++; if(bfi == 1) { ftyp = past_ftyp; if(ftyp == 1) ftyp = 0; if(ftyp > 2) { /* G.729 maintenance */ if(ftyp == 3) parm[4] = 1; else { if(prev_lp_mode == 0) parm[5] = 1; else parm[3] = 1; } } parm[-1] = ftyp; } *Vad = ftyp; rate = ftyp - 2; /* Decoding the Backward/Forward LPC decision */ /* ------------------------------------------ */ if( rate != G729E) lp_mode = 0; else { if (bfi != 0) { lp_mode = prev_lp_mode; /* Frame erased => lp_mode = previous lp_mode */ *parm++ = lp_mode; } else { lp_mode = *parm++; } if(prev_bfi != 0) voicing = prev_voicing; } if( bfi == 0) { c_muting = (F)1.; count_bfi = 0; } /* -------------------- */ /* Backward LP analysis */ /* -------------------- */ if (rate == G729E) { /* LPC recursive Window as in G728 */ autocorr_hyb_window(synth_buf, r_bwd, rexp); /* Autocorrelations */ lag_window_bwd(r_bwd); /* Lag windowing */ /* Levinson (as in G729) */ levinsone(M_BWD, r_bwd, &A_t_bwd[M_BWDP1], rc_bwd, old_A_bwd, old_rc_bwd ); /* Tests saturation of A_t_bwd */ sat_filter = 0; for (i=M_BWDP1; i<2*M_BWDP1; i++) if (A_t_bwd[i] >= (F)8.) sat_filter = 1; if (sat_filter == 1) copy(A_t_bwd_mem, &A_t_bwd[M_BWDP1], M_BWDP1); else copy(&A_t_bwd[M_BWDP1], A_t_bwd_mem, M_BWDP1); /* Additional bandwidth expansion on backward filter */ weight_az(&A_t_bwd[M_BWDP1], GAMMA_BWD, M_BWD, &A_t_bwd[M_BWDP1]); } /*--------------------------------------------------* * Update synthesis signal for next frame. * *--------------------------------------------------*/ copy(&synth_buf[L_FRAME], &synth_buf[0], MEM_SYN_BWD); if(lp_mode == 1) { if ((c_fe != (F)0.)) { /* Interpolation of the backward filter after a bad frame */ /* A_t_bwd(z) = c_fe . A_bwd_mem(z) + (1 - c_fe) . A_t_bwd(z) */ /* ---------------------------------------------------------- */ tmp = (F)1. - c_fe; pA_t = A_t_bwd + M_BWDP1; for (i=0; i<M_BWDP1; i++) { pA_t[i] *= tmp; pA_t[i] += c_fe * A_bwd_mem[i]; } } } /* Memorize the last good backward filter when the frame is erased */ if ((bfi != 0)&&(prev_bfi == 0) && (past_ftyp >3)) copy(&A_t_bwd[M_BWDP1], A_bwd_mem, M_BWDP1); /* for G.729B */ /* Processing non active frames (SID & not transmitted: ftyp = 1 or 0) */ if(ftyp < 2) { /* get_decfreq_prev(lsfq_mem); */ for (i=0; i<MA_NP; i++) copy(&freq_prev[i][0], &lsfq_mem[i][0], M); dec_cng(past_ftyp, sid_sav, &parm[-1], exc, lsp_old, A_t_fwd, &seed, lsfq_mem); /* update_decfreq_prev(lsfq_mem); */ for (i=0; i<MA_NP; i++) copy(&lsfq_mem[i][0], &freq_prev[i][0], M); pA_t = A_t_fwd; for (i_subfr = 0; i_subfr < L_FRAME; i_subfr += L_SUBFR) { syn_filte(M, pA_t, &exc[i_subfr], &synth[i_subfr], L_SUBFR, &mem_syn[M_BWD-M], 0); copy(&synth[i_subfr+L_SUBFR-M_BWD], mem_syn, M_BWD); *t0_first = prev_t0; pA_t += MP1; } sharp = SHARPMIN; c_int = (F)1.1; /* for gain decoding in case of frame erasure */ stat_bwd = 0; stationnary = 0; /* for pitch tracking in case of frame erasure */ stat_pitch = 0; /* update the previous filter for the next frame */ copy(&A_t_fwd[MP1], prev_filter, MP1); for(i=MP1; i<M_BWDP1; i++) prev_filter[i] = (F)0.; } /***************************/ /* Processing active frame */ /***************************/ else { seed = INIT_SEED; /* ---------------------------- */ /* LPC decoding in forward mode */ /* ---------------------------- */ if (lp_mode == 0) { /* Decode the LSPs */ d_lspe(parm, lsp_new, bfi, freq_prev, prev_lsp, &prev_ma); parm += 2; if( prev_lp_mode == 0) { /* Interpolation of LPC for the 2 subframes */ int_qlpc(lsp_old, lsp_new, A_t_fwd); } else { /* no interpolation */ lsp_az(lsp_new, A_t_fwd); /* Subframe 1*/ copy(A_t_fwd, &A_t_fwd[MP1], MP1); /* Subframe 2 */ } /* update the LSFs for the next frame */ copy(lsp_new, lsp_old, M); c_int = (F)1.1; pA_t = A_t_fwd; m_aq = M; /* update the previous filter for the next frame */ copy(&A_t_fwd[MP1], prev_filter, MP1); for(i=MP1; i<M_BWDP1; i++) prev_filter[i] = (F)0.; } else { int_bwd(A_t_bwd, prev_filter, &c_int); pA_t = A_t_bwd; m_aq = M_BWD; /* update the previous filter for the next frame */ copy(&A_t_bwd[M_BWDP1], prev_filter, M_BWDP1); } /*------------------------------------------------------------------------* * Loop for every subframe in the analysis frame * *------------------------------------------------------------------------* * The subframe size is L_SUBFR and the loop is repeated L_FRAME/L_SUBFR * * times * * - decode the pitch delay * * - decode algebraic code * * - decode pitch and codebook gains * * - find the excitation and compute synthesis speech * *------------------------------------------------------------------------*/ for (i_subfr = 0; i_subfr < L_FRAME; i_subfr += L_SUBFR) { index = *parm++; /* pitch index */ if(i_subfr == 0) { if (rate == G729D) i = 0; /* no pitch parity at 6.4 kb/s */ else i = *parm++; /* get parity check result */ bad_pitch = bfi + i; if( bad_pitch == 0) { dec_lag3cp(index, PIT_MIN, PIT_MAX, i_subfr, &t0, &t0_frac, rate); prev_t0 = t0; prev_t0_frac = t0_frac; } else { /* Bad frame, or parity error */ if (bfi == 0) printf(" ! Wrong Pitch 1st subfr. ! "); t0 = prev_t0; if (rate == G729E) { t0_frac = prev_t0_frac; } else { t0_frac = 0; prev_t0++; if(prev_t0 > PIT_MAX) { prev_t0 = PIT_MAX; } } } *t0_first = t0; /* If first frame */ } else { /* second subframe */ if( bfi == 0) { dec_lag3cp(index, PIT_MIN, PIT_MAX, i_subfr, &t0, &t0_frac, rate); prev_t0 = t0; prev_t0_frac = t0_frac; } else { t0 = prev_t0; if (rate == G729E) { t0_frac = prev_t0_frac; } else { t0_frac = 0; prev_t0++; if(prev_t0 > PIT_MAX) prev_t0 = PIT_MAX; } } } /*-------------------------------------------------* * - Find the adaptive codebook vector. * *-------------------------------------------------*/ pred_lt_3(&exc[i_subfr], t0, t0_frac, L_SUBFR); /* --------------------------------- */ /* pitch tracking for frame erasures */ /* --------------------------------- */ if( rate == G729E) { track_pit(&prev_t0, &prev_t0_frac, &prev_pitch, &stat_pitch, &pitch_sta, &frac_sta); } else { i = prev_t0; j = prev_t0_frac; track_pit(&i, &j, &prev_pitch, &stat_pitch, &pitch_sta, &frac_sta); } /*-------------------------------------------------------* * - Decode innovative codebook. * *-------------------------------------------------------*/ if(bfi != 0) { /* Bad frame */ parm[0] = (int)random_g729c(&seed_fer); parm[1] = (int)random_g729c(&seed_fer); if (rate == G729E) { parm[2] = (int)random_g729c(&seed_fer); parm[3] = (int)random_g729c(&seed_fer); parm[4] = (int)random_g729c(&seed_fer); } } stationnary = 0; /* to avoid visual warning */ if (rate == G729) { /* case 8 kbps */ decod_ACELP(parm[1], parm[0], code); parm += 2; /* for gain decoding in case of frame erasure */ stat_bwd = 0; stationnary = 0; } else if (rate == G729D) { /* case 8 kbps */ decod_ACELP64(parm[1], parm[0], code); parm += 2; /* for gain decoding in case of frame erasure */ stat_bwd = 0; stationnary = 0; } else if (rate == G729E) { /* case 11.8 kbps */ if (lp_mode == 0) { dec_ACELP_10i40_35bits(parm, code); /* for gain decoding in case of frame erasure */ stat_bwd = 0; stationnary = 0; } else { dec_ACELP_12i40_44bits(parm, code); /* for gain decoding in case of frame erasure */ stat_bwd++; if (stat_bwd >= 30) { stationnary = 1; stat_bwd = 30; } else stationnary = 0; } parm += 5; } /*-------------------------------------------------------* * - Add the fixed-gain pitch contribution to code[]. * *-------------------------------------------------------*/ for (i = t0; i < L_SUBFR; i++) code[i] += sharp * code[i-t0]; /*-------------------------------------------------* * - Decode pitch and codebook gains. * *-------------------------------------------------*/ index = *parm++; /* index of energy VQ */ if (rate == G729D) dec_gain_6k(index, code, L_SUBFR, bfi, &gain_pitch, &gain_code); else dec_gaine(index, code, L_SUBFR, bfi, &gain_pitch, &gain_code, rate, gain_pit_mem, gain_cod_mem, &c_muting, count_bfi, stationnary); /*-------------------------------------------------------------* * - Update previous gains *-------------------------------------------------------------*/ gain_pit_mem = gain_pitch; gain_cod_mem = gain_code; /*-------------------------------------------------------------* * - Update pitch sharpening "sharp" with quantized gain_pitch * *-------------------------------------------------------------*/ sharp = gain_pitch; if (sharp > SHARPMAX) sharp = SHARPMAX; if (sharp < SHARPMIN) sharp = SHARPMIN; /*-------------------------------------------------------* * - Find the total excitation. * * - Find synthesis speech corresponding to exc[]. * *-------------------------------------------------------*/ if(bfi != 0) { /* Bad frame */ count_bfi++; if (voicing == 0 ) { g_p = (F)0.; g_c = gain_code; } else { g_p = gain_pitch; g_c = (F)0.; } } else { g_p = gain_pitch; g_c = gain_code; } for (i = 0; i < L_SUBFR; i++) { exc[i+i_subfr] = g_p * exc[i+i_subfr] + g_c * code[i]; } if (rate == G729D) { PhDisp(&exc[i_subfr], exc_phdisp, gain_code, gain_pitch, code); syn_filte(m_aq, pA_t, exc_phdisp, &synth[i_subfr], L_SUBFR, &mem_syn[M_BWD-m_aq], 0); } else { syn_filte(m_aq, pA_t, &exc[i_subfr], &synth[i_subfr], L_SUBFR, &mem_syn[M_BWD-m_aq], 0); /* Updates state machine for phase dispersion in 6.4 kbps mode, if running at other rate */ Update_PhDisp(gain_pitch, gain_code); } copy(&synth[i_subfr+L_SUBFR-M_BWD], mem_syn, M_BWD); pA_t += m_aq+1; /* interpolated LPC parameters for next subframe */ } } /*------------* * For G729b *-----------*/ if(bfi == 0) { sid_sav = (FLOAT)0.0; for(i=0; i<L_FRAME; i++) { sid_sav += exc[i] * exc[i]; } } past_ftyp = ftyp; /*------------* * For G729E *-----------*/ energy = ener_dB(synth, L_FRAME); if (energy >= (F)40.) tst_bwd_dominant(bwd_dominant, lp_mode); /*--------------------------------------------------* * Update signal for next frame. * * -> shift to the left by L_FRAME exc[] * *--------------------------------------------------*/ copy(&old_exc[L_FRAME], &old_exc[0], PIT_MAX+L_INTERPOL); if( lp_mode == 0) { copy(A_t_fwd, Az_dec, 2*MP1); *m_pst = M; } else { copy(A_t_bwd, Az_dec, 2*M_BWDP1); *m_pst = M_BWD; } prev_bfi = bfi; prev_lp_mode = lp_mode; prev_voicing = voicing; if (bfi != 0) c_fe = (F)1.; else { if (lp_mode == 0) c_fe = 0; else { if (*bwd_dominant == 1) c_fe -= (F)0.1; else c_fe -= (F)0.5; if (c_fe < 0) c_fe= 0; } } return; }