FreeCalypso > hg > gsm-codec-lib
view libtwamr/gain_q.c @ 468:4104b0390fab
efrtest: new program gsmefr-dlcap-sync
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 13 May 2024 07:21:09 +0000 |
parents | ccba5812fa44 |
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 : gain_q.c * Purpose : Quantazation of gains * ******************************************************************************** */ /* ******************************************************************************** * MODULE INCLUDE FILE AND VERSION ID ******************************************************************************** */ #include "namespace.h" #include "gain_q.h" /* ******************************************************************************** * INCLUDE FILES ******************************************************************************** */ #include "tw_amr.h" #include "typedef.h" #include "basic_op.h" #include "no_count.h" #include "qua_gain.h" #include "cnst.h" #include "g_code.h" #include "q_gain_c.h" #include "gc_pred.h" #include "calc_en.h" #include "qgain795.h" #include "qgain475.h" #include "memops.h" /* ******************************************************************************** * PUBLIC PROGRAM CODE ******************************************************************************** */ /************************************************************************* * * Function: gainQuant_reset * Purpose: Initializes state memory to zero * ************************************************************************** */ void gainQuant_reset (gainQuantState *state) { state->sf0_exp_gcode0 = 0; state->sf0_frac_gcode0 = 0; state->sf0_exp_target_en = 0; state->sf0_frac_target_en = 0; Set_zero (state->sf0_exp_coeff, 5); Set_zero (state->sf0_frac_coeff, 5); gc_pred_reset(&state->gc_predSt); gc_pred_reset(&state->gc_predUnqSt); gain_adapt_reset(&state->adaptSt); } int gainQuant( gainQuantState *st, /* i/o : State struct */ enum Mode mode, /* i : coder mode */ Word16 res[], /* i : LP residual, Q0 */ Word16 exc[], /* i : LTP excitation (unfiltered), Q0 */ Word16 code[], /* i : CB innovation (unfiltered), Q13 */ /* (unsharpened for MR475) */ Word16 xn[], /* i : Target vector. */ Word16 xn2[], /* i : Target vector. */ Word16 y1[], /* i : Adaptive codebook. */ Word16 Y2[], /* i : Filtered innovative vector. */ Word16 g_coeff[], /* i : Correlations <xn y1> <y1 y1> */ /* Compute in G_pitch(). */ Word16 even_subframe, /* i : even subframe indicator flag */ Word16 gp_limit, /* i : pitch gain limit */ Word16 *sf0_gain_pit, /* o : Pitch gain sf 0. MR475 */ Word16 *sf0_gain_cod, /* o : Code gain sf 0. MR475 */ Word16 *gain_pit, /* i/o : Pitch gain. */ Word16 *gain_cod, /* o : Code gain. */ /* MR475: gain_* unquantized in even */ /* subframes, quantized otherwise */ Word16 **anap /* o : Index of quantization */ ) { Word16 exp_gcode0; Word16 frac_gcode0; Word16 qua_ener_MR122; Word16 qua_ener; Word16 frac_coeff[5]; Word16 exp_coeff[5]; Word16 exp_en, frac_en; Word16 cod_gain_exp, cod_gain_frac; test (); if (sub (mode, MR475) == 0) { test (); if (even_subframe != 0) { /* save position in output parameter stream and current state of codebook gain predictor */ st->gain_idx_ptr = (*anap)++; gc_pred_copy(&st->gc_predSt, &st->gc_predUnqSt); /* predict codebook gain (using "unquantized" predictor)*/ /* (note that code[] is unsharpened in MR475) */ gc_pred(&st->gc_predUnqSt, mode, code, &st->sf0_exp_gcode0, &st->sf0_frac_gcode0, &exp_en, &frac_en); /* calculate energy coefficients for quantization and store them in state structure (will be used in next subframe when real quantizer is run) */ calc_filt_energies(mode, xn, xn2, y1, Y2, g_coeff, st->sf0_frac_coeff, st->sf0_exp_coeff, &cod_gain_frac, &cod_gain_exp); /* store optimum codebook gain (Q1) */ *gain_cod = shl (cod_gain_frac, add (cod_gain_exp, 1)); move16 (); calc_target_energy(xn, &st->sf0_exp_target_en, &st->sf0_frac_target_en); /* calculate optimum codebook gain and update "unquantized" predictor */ MR475_update_unq_pred(&st->gc_predUnqSt, st->sf0_exp_gcode0, st->sf0_frac_gcode0, cod_gain_exp, cod_gain_frac); /* the real quantizer is not run here... */ } else { /* predict codebook gain (using "unquantized" predictor) */ /* (note that code[] is unsharpened in MR475) */ gc_pred(&st->gc_predUnqSt, mode, code, &exp_gcode0, &frac_gcode0, &exp_en, &frac_en); /* calculate energy coefficients for quantization */ calc_filt_energies(mode, xn, xn2, y1, Y2, g_coeff, frac_coeff, exp_coeff, &cod_gain_frac, &cod_gain_exp); calc_target_energy(xn, &exp_en, &frac_en); /* run real (4-dim) quantizer and update real gain predictor */ *st->gain_idx_ptr = MR475_gain_quant( &st->gc_predSt, st->sf0_exp_gcode0, st->sf0_frac_gcode0, st->sf0_exp_coeff, st->sf0_frac_coeff, st->sf0_exp_target_en, st->sf0_frac_target_en, code, exp_gcode0, frac_gcode0, exp_coeff, frac_coeff, exp_en, frac_en, gp_limit, sf0_gain_pit, sf0_gain_cod, gain_pit, gain_cod); } } else { /*-------------------------------------------------------------------* * predict codebook gain and quantize * * (also compute normalized CB innovation energy for MR795) * *-------------------------------------------------------------------*/ gc_pred(&st->gc_predSt, mode, code, &exp_gcode0, &frac_gcode0, &exp_en, &frac_en); test (); if (sub(mode, MR122) == 0) { *gain_cod = G_code (xn2, Y2); move16 (); *(*anap)++ = q_gain_code (mode, exp_gcode0, frac_gcode0, gain_cod, &qua_ener_MR122, &qua_ener); move16 (); } else { /* calculate energy coefficients for quantization */ calc_filt_energies(mode, xn, xn2, y1, Y2, g_coeff, frac_coeff, exp_coeff, &cod_gain_frac, &cod_gain_exp); test (); if (sub (mode, MR795) == 0) { MR795_gain_quant(&st->adaptSt, res, exc, code, frac_coeff, exp_coeff, exp_en, frac_en, exp_gcode0, frac_gcode0, L_SUBFR, cod_gain_frac, cod_gain_exp, gp_limit, gain_pit, gain_cod, &qua_ener_MR122, &qua_ener, anap); } else { *(*anap)++ = Qua_gain(mode, exp_gcode0, frac_gcode0, frac_coeff, exp_coeff, gp_limit, gain_pit, gain_cod, &qua_ener_MR122, &qua_ener); move16 (); } } /*------------------------------------------------------------------* * update table of past quantized energies * * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * * st->past_qua_en(Q10) = 20 * Log10(qua_gain_code) / constant * * = Log2(qua_gain_code) * * = qua_ener * * constant = 20*Log10(2) * *------------------------------------------------------------------*/ gc_pred_update(&st->gc_predSt, qua_ener_MR122, qua_ener); } return 0; }