/*************************************************************************
*
* Function: cl_ltp_init
* Purpose: Allocates state memory and initializes state memory
*
**************************************************************************
*/
int cl_ltp_init (clLtpState *state)
{
if (state == (clLtpState *) NULL){
fprintf(stderr, "cl_ltp_init: invalid parameter\n");
return -1;
}
/* init the sub state */
if (Pitch_fr_init(&state->pitchSt)) {
cl_ltp_reset(state);
return -1;
}
cl_ltp_reset(state);
return 0;
}
/***************************************************************************
* FUNCTION: cod_amr
*
* PURPOSE: Main encoder routine.
*
* DESCRIPTION: This function is called every 20 ms speech frame,
* operating on the newly read 160 speech samples. It performs the
* principle encoding functions to produce the set of encoded parameters
* which include the LSP, adaptive codebook, and fixed codebook
* quantization indices (addresses and gains).
*
* INPUTS:
* No input argument are passed to this function. However, before
* calling this function, 160 new speech data should be copied to the
* vector new_speech[]. This is a global pointer which is declared in
* this file (it points to the end of speech buffer minus 160).
*
* OUTPUTS:
*
* ana[]: vector of analysis parameters.
* synth[]: Local synthesis speech (for debugging purposes)
*
***************************************************************************/
int cod_amr(
cod_amrState *st, /* i/o : State struct */
enum Mode mode, /* i : AMR mode */
Word16 new_speech[], /* i : speech input (L_FRAME) */
Word16 ana[], /* o : Analysis parameters */
enum Mode *usedMode, /* o : used mode */
Word16 synth[] /* o : Local synthesis */
)
{
/* LPC coefficients */
Word16 A_t[(MP1) * 4]; /* A(z) unquantized for the 4 subframes */
Word16 Aq_t[(MP1) * 4]; /* A(z) quantized for the 4 subframes */
Word16 *A, *Aq; /* Pointer on A_t and Aq_t */
Word16 lsp_new[M];
/* Other vectors */
Word16 xn[L_SUBFR]; /* Target vector for pitch search */
Word16 xn2[L_SUBFR]; /* Target vector for codebook search */
Word16 code[L_SUBFR]; /* Fixed codebook excitation */
Word16 y1[L_SUBFR]; /* Filtered adaptive excitation */
Word16 y2[L_SUBFR]; /* Filtered fixed codebook excitation */
Word16 gCoeff[6]; /* Correlations between xn, y1, & y2: */
Word16 res[L_SUBFR]; /* Short term (LPC) prediction residual */
Word16 res2[L_SUBFR]; /* Long term (LTP) prediction residual */
/* Vector and scalars needed for the MR475 */
Word16 xn_sf0[L_SUBFR]; /* Target vector for pitch search */
Word16 y2_sf0[L_SUBFR]; /* Filtered codebook innovation */
Word16 code_sf0[L_SUBFR]; /* Fixed codebook excitation */
Word16 h1_sf0[L_SUBFR]; /* The impulse response of sf0 */
Word16 mem_syn_save[M]; /* Filter memory */
Word16 mem_w0_save[M]; /* Filter memory */
Word16 mem_err_save[M]; /* Filter memory */
Word16 sharp_save; /* Sharpening */
Word16 evenSubfr; /* Even subframe indicator */
Word16 T0_sf0 = 0; /* Integer pitch lag of sf0 */
Word16 T0_frac_sf0 = 0; /* Fractional pitch lag of sf0 */
Word16 i_subfr_sf0 = 0; /* Position in exc[] for sf0 */
Word16 gain_pit_sf0; /* Quantized pitch gain for sf0 */
Word16 gain_code_sf0; /* Quantized codebook gain for sf0 */
/* Scalars */
Word16 i_subfr, subfrNr;
Word16 T_op[L_FRAME/L_FRAME_BY2];
Word16 T0, T0_frac;
Word16 gain_pit, gain_code;
/* Flags */
Word16 lsp_flag = 0; /* indicates resonance in LPC filter */
Word16 gp_limit; /* pitch gain limit value */
Word16 vad_flag; /* VAD decision flag */
Word16 compute_sid_flag; /* SID analysis flag */
Copy(new_speech, st->new_speech, L_FRAME);
*usedMode = mode; move16 ();
/* DTX processing */
if (st->dtx)
{ /* no test() call since this if is only in simulation env */
/* Find VAD decision */
#ifdef VAD2
vad_flag = vad2 (st->new_speech, st->vadSt);
vad_flag = vad2 (st->new_speech+80, st->vadSt) || vad_flag; logic16();
#else
vad_flag = vad1(st->vadSt, st->new_speech);
#endif
fwc (); /* function worst case */
/* NB! usedMode may change here */
compute_sid_flag = tx_dtx_handler(st->dtx_encSt,
vad_flag,
usedMode);
}
else
{
compute_sid_flag = 0; move16 ();
}
/*------------------------------------------------------------------------*
* - Perform LPC analysis: *
* * autocorrelation + lag windowing *
* * Levinson-durbin algorithm to find a[] *
* * convert a[] to lsp[] *
* * quantize and code the LSPs *
* * find the interpolated LSPs and convert to a[] for all *
* subframes (both quantized and unquantized) *
*------------------------------------------------------------------------*/
/* LP analysis */
lpc(st->lpcSt, mode, st->p_window, st->p_window_12k2, A_t);
fwc (); /* function worst case */
/* From A(z) to lsp. LSP quantization and interpolation */
lsp(st->lspSt, mode, *usedMode, A_t, Aq_t, lsp_new, &ana);
fwc (); /* function worst case */
/* Buffer lsp's and energy */
dtx_buffer(st->dtx_encSt,
lsp_new,
st->new_speech);
/* Check if in DTX mode */
test();
if (sub(*usedMode, MRDTX) == 0)
{
dtx_enc(st->dtx_encSt,
compute_sid_flag,
st->lspSt->qSt,
st->gainQuantSt->gc_predSt,
&ana);
Set_zero(st->old_exc, PIT_MAX + L_INTERPOL);
Set_zero(st->mem_w0, M);
Set_zero(st->mem_err, M);
Set_zero(st->zero, L_SUBFR);
Set_zero(st->hvec, L_SUBFR); /* set to zero "h1[-L_SUBFR..-1]" */
/* Reset lsp states */
lsp_reset(st->lspSt);
Copy(lsp_new, st->lspSt->lsp_old, M);
Copy(lsp_new, st->lspSt->lsp_old_q, M);
/* Reset clLtp states */
cl_ltp_reset(st->clLtpSt);
st->sharp = SHARPMIN; move16 ();
}
else
{
/* check resonance in the filter */
lsp_flag = check_lsp(st->tonStabSt, st->lspSt->lsp_old); move16 ();
}
/*----------------------------------------------------------------------*
* - Find the weighted input speech w_sp[] for the whole speech frame *
* - Find the open-loop pitch delay for first 2 subframes *
* - Set the range for searching closed-loop pitch in 1st subframe *
* - Find the open-loop pitch delay for last 2 subframes *
*----------------------------------------------------------------------*/
#ifdef VAD2
if (st->dtx)
{ /* no test() call since this if is only in simulation env */
st->vadSt->L_Rmax = 0; move32 ();
st->vadSt->L_R0 = 0; move32 ();
}
#endif
for(subfrNr = 0, i_subfr = 0;
subfrNr < L_FRAME/L_FRAME_BY2;
subfrNr++, i_subfr += L_FRAME_BY2)
{
/* Pre-processing on 80 samples */
pre_big(mode, gamma1, gamma1_12k2, gamma2, A_t, i_subfr, st->speech,
st->mem_w, st->wsp);
test (); test ();
if ((sub(mode, MR475) != 0) && (sub(mode, MR515) != 0))
{
/* Find open loop pitch lag for two subframes */
ol_ltp(st->pitchOLWghtSt, st->vadSt, mode, &st->wsp[i_subfr],
&T_op[subfrNr], st->old_lags, st->ol_gain_flg, subfrNr,
st->dtx);
}
}
fwc (); /* function worst case */
test (); test();
if ((sub(mode, MR475) == 0) || (sub(mode, MR515) == 0))
{
/* Find open loop pitch lag for ONE FRAME ONLY */
/* search on 160 samples */
ol_ltp(st->pitchOLWghtSt, st->vadSt, mode, &st->wsp[0], &T_op[0],
st->old_lags, st->ol_gain_flg, 1, st->dtx);
T_op[1] = T_op[0]; move16 ();
}
fwc (); /* function worst case */
#ifdef VAD2
if (st->dtx)
{ /* no test() call since this if is only in simulation env */
LTP_flag_update(st->vadSt, mode);
}
#endif
#ifndef VAD2
/* run VAD pitch detection */
if (st->dtx)
{ /* no test() call since this if is only in simulation env */
vad_pitch_detection(st->vadSt, T_op);
}
#endif
fwc (); /* function worst case */
if (sub(*usedMode, MRDTX) == 0)
{
goto the_end;
}
/*------------------------------------------------------------------------*
* Loop for every subframe in the analysis frame *
*------------------------------------------------------------------------*
* To find the pitch and innovation parameters. The subframe size is *
* L_SUBFR and the loop is repeated L_FRAME/L_SUBFR times. *
* - find the weighted LPC coefficients *
* - find the LPC residual signal res[] *
* - compute the target signal for pitch search *
* - compute impulse response of weighted synthesis filter (h1[]) *
* - find the closed-loop pitch parameters *
* - encode the pitch dealy *
* - update the impulse response h1[] by including fixed-gain pitch *
* - find target vector for codebook search *
* - codebook search *
* - encode codebook address *
* - VQ of pitch and codebook gains *
* - find synthesis speech *
* - update states of weighting filter *
*------------------------------------------------------------------------*/
A = A_t; /* pointer to interpolated LPC parameters */
Aq = Aq_t; /* pointer to interpolated quantized LPC parameters */
evenSubfr = 0; move16 ();
subfrNr = -1; move16 ();
for (i_subfr = 0; i_subfr < L_FRAME; i_subfr += L_SUBFR)
{
subfrNr = add(subfrNr, 1);
evenSubfr = sub(1, evenSubfr);
/* Save states for the MR475 mode */
test(); test();
if ((evenSubfr != 0) && (sub(*usedMode, MR475) == 0))
{
Copy(st->mem_syn, mem_syn_save, M);
Copy(st->mem_w0, mem_w0_save, M);
Copy(st->mem_err, mem_err_save, M);
sharp_save = st->sharp;
}
/*-----------------------------------------------------------------*
* - Preprocessing of subframe *
*-----------------------------------------------------------------*/
test();
if (sub(*usedMode, MR475) != 0)
{
subframePreProc(*usedMode, gamma1, gamma1_12k2,
gamma2, A, Aq, &st->speech[i_subfr],
st->mem_err, st->mem_w0, st->zero,
st->ai_zero, &st->exc[i_subfr],
st->h1, xn, res, st->error);
}
else
{ /* MR475 */
subframePreProc(*usedMode, gamma1, gamma1_12k2,
gamma2, A, Aq, &st->speech[i_subfr],
st->mem_err, mem_w0_save, st->zero,
st->ai_zero, &st->exc[i_subfr],
st->h1, xn, res, st->error);
/* save impulse response (modified in cbsearch) */
test ();
if (evenSubfr != 0)
{
Copy (st->h1, h1_sf0, L_SUBFR);
}
}
/* copy the LP residual (res2 is modified in the CL LTP search) */
Copy (res, res2, L_SUBFR);
fwc (); /* function worst case */
/*-----------------------------------------------------------------*
* - Closed-loop LTP search *
*-----------------------------------------------------------------*/
cl_ltp(st->clLtpSt, st->tonStabSt, *usedMode, i_subfr, T_op, st->h1,
&st->exc[i_subfr], res2, xn, lsp_flag, xn2, y1,
&T0, &T0_frac, &gain_pit, gCoeff, &ana,
&gp_limit);
/* update LTP lag history */
move16 (); test(); test ();
if ((subfrNr == 0) && (st->ol_gain_flg[0] > 0))
{
st->old_lags[1] = T0; move16 ();
}
move16 (); test(); test ();
if ((sub(subfrNr, 3) == 0) && (st->ol_gain_flg[1] > 0))
{
st->old_lags[0] = T0; move16 ();
}
fwc (); /* function worst case */
/*-----------------------------------------------------------------*
* - Inovative codebook search (find index and gain) *
*-----------------------------------------------------------------*/
cbsearch(xn2, st->h1, T0, st->sharp, gain_pit, res2,
code, y2, &ana, *usedMode, subfrNr);
fwc (); /* function worst case */
/*------------------------------------------------------*
* - Quantization of gains. *
*------------------------------------------------------*/
gainQuant(st->gainQuantSt, *usedMode, res, &st->exc[i_subfr], code,
xn, xn2, y1, y2, gCoeff, evenSubfr, gp_limit,
&gain_pit_sf0, &gain_code_sf0,
&gain_pit, &gain_code, &ana);
fwc (); /* function worst case */
/* update gain history */
update_gp_clipping(st->tonStabSt, gain_pit);
test();
if (sub(*usedMode, MR475) != 0)
{
/* Subframe Post Porcessing */
subframePostProc(st->speech, *usedMode, i_subfr, gain_pit,
gain_code, Aq, synth, xn, code, y1, y2, st->mem_syn,
st->mem_err, st->mem_w0, st->exc, &st->sharp);
}
else
{
test();
if (evenSubfr != 0)
{
i_subfr_sf0 = i_subfr; move16 ();
Copy(xn, xn_sf0, L_SUBFR);
Copy(y2, y2_sf0, L_SUBFR);
Copy(code, code_sf0, L_SUBFR);
T0_sf0 = T0; move16 ();
T0_frac_sf0 = T0_frac; move16 ();
/* Subframe Post Porcessing */
subframePostProc(st->speech, *usedMode, i_subfr, gain_pit,
gain_code, Aq, synth, xn, code, y1, y2,
mem_syn_save, st->mem_err, mem_w0_save,
st->exc, &st->sharp);
st->sharp = sharp_save; move16();
}
else
{
/* update both subframes for the MR475 */
/* Restore states for the MR475 mode */
Copy(mem_err_save, st->mem_err, M);
/* re-build excitation for sf 0 */
Pred_lt_3or6(&st->exc[i_subfr_sf0], T0_sf0, T0_frac_sf0,
L_SUBFR, 1);
Convolve(&st->exc[i_subfr_sf0], h1_sf0, y1, L_SUBFR);
Aq -= MP1;
subframePostProc(st->speech, *usedMode, i_subfr_sf0,
gain_pit_sf0, gain_code_sf0, Aq,
synth, xn_sf0, code_sf0, y1, y2_sf0,
st->mem_syn, st->mem_err, st->mem_w0, st->exc,
&sharp_save); /* overwrites sharp_save */
Aq += MP1;
/* re-run pre-processing to get xn right (needed by postproc) */
/* (this also reconstructs the unsharpened h1 for sf 1) */
subframePreProc(*usedMode, gamma1, gamma1_12k2,
gamma2, A, Aq, &st->speech[i_subfr],
st->mem_err, st->mem_w0, st->zero,
st->ai_zero, &st->exc[i_subfr],
st->h1, xn, res, st->error);
/* re-build excitation sf 1 (changed if lag < L_SUBFR) */
Pred_lt_3or6(&st->exc[i_subfr], T0, T0_frac, L_SUBFR, 1);
Convolve(&st->exc[i_subfr], st->h1, y1, L_SUBFR);
subframePostProc(st->speech, *usedMode, i_subfr, gain_pit,
gain_code, Aq, synth, xn, code, y1, y2,
st->mem_syn, st->mem_err, st->mem_w0,
st->exc, &st->sharp);
}
}
fwc (); /* function worst case */
A += MP1; /* interpolated LPC parameters for next subframe */
Aq += MP1;
}
Copy(&st->old_exc[L_FRAME], &st->old_exc[0], PIT_MAX + L_INTERPOL);
the_end:
/*--------------------------------------------------*
* Update signal for next frame. *
*--------------------------------------------------*/
Copy(&st->old_wsp[L_FRAME], &st->old_wsp[0], PIT_MAX);
Copy(&st->old_speech[L_FRAME], &st->old_speech[0], L_TOTAL - L_FRAME);
fwc (); /* function worst case */
return 0;
}
/*
**************************************************************************
*
* Function : cod_amr_reset
* Purpose : Resets state memory
*
**************************************************************************
*/
int cod_amr_reset (cod_amrState *st)
{
Word16 i;
if (st == (cod_amrState *) NULL){
fprintf(stderr, "cod_amr_reset: invalid parameter\n");
return -1;
}
/*-----------------------------------------------------------------------*
* Initialize pointers to speech vector. *
*-----------------------------------------------------------------------*/
st->new_speech = st->old_speech + L_TOTAL - L_FRAME; /* New speech */
st->speech = st->new_speech - L_NEXT; /* Present frame */
st->p_window = st->old_speech + L_TOTAL - L_WINDOW; /* For LPC window */
st->p_window_12k2 = st->p_window - L_NEXT; /* EFR LPC window: no lookahead */
/* Initialize static pointers */
st->wsp = st->old_wsp + PIT_MAX;
st->exc = st->old_exc + PIT_MAX + L_INTERPOL;
st->zero = st->ai_zero + MP1;
st->error = st->mem_err + M;
st->h1 = &st->hvec[L_SUBFR];
/* Static vectors to zero */
Set_zero(st->old_speech, L_TOTAL);
Set_zero(st->old_exc, PIT_MAX + L_INTERPOL);
Set_zero(st->old_wsp, PIT_MAX);
Set_zero(st->mem_syn, M);
Set_zero(st->mem_w, M);
Set_zero(st->mem_w0, M);
Set_zero(st->mem_err, M);
Set_zero(st->zero, L_SUBFR);
Set_zero(st->hvec, L_SUBFR); /* set to zero "h1[-L_SUBFR..-1]" */
/* OL LTP states */
for (i = 0; i < 5; i++)
{
st->old_lags[i] = 40;
}
/* Reset lpc states */
lpc_reset(st->lpcSt);
/* Reset lsp states */
lsp_reset(st->lspSt);
/* Reset clLtp states */
cl_ltp_reset(st->clLtpSt);
gainQuant_reset(st->gainQuantSt);
p_ol_wgh_reset(st->pitchOLWghtSt);
ton_stab_reset(st->tonStabSt);
#ifndef VAD2
vad1_reset(st->vadSt);
#else
vad2_reset(st->vadSt);
#endif
dtx_enc_reset(st->dtx_encSt);
st->sharp = SHARPMIN;
return 0;
}
