/* ------------------------------------------------------------------ * Copyright (C) 1998-2009 PacketVideo * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either * express or implied. * See the License for the specific language governing permissions * and limitations under the License. * ------------------------------------------------------------------- */ /**************************************************************************************** Portions of this file are derived from the following 3GPP standard: 3GPP TS 26.073 ANSI-C code for the Adaptive Multi-Rate (AMR) speech codec Available from http://www.3gpp.org (C) 2004, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TTA, TTC) Permission to distribute, modify and use this file under the standard license terms listed above has been obtained from the copyright holder. ****************************************************************************************/ /* ------------------------------------------------------------------------------ Pathname: ./audio/gsm-amr/c/src/qua_gain.c Functions: Date: 02/05/2002 ------------------------------------------------------------------------------ REVISION HISTORY Description: Updated template used to PV coding template. Changed to accept the pOverflow flag for EPOC compatibility. Description: Changed include files to lowercase. Description: Replaced OSCL mem type functions and eliminated include files that now are chosen by OSCL definitions Description: Replaced "int" and/or "char" with OSCL defined types. Description: Added #ifdef __cplusplus around extern'ed table. Description: ------------------------------------------------------------------------------ MODULE DESCRIPTION Quantization of pitch and codebook gains. ------------------------------------------------------------------------------ */ /*---------------------------------------------------------------------------- ; INCLUDES ----------------------------------------------------------------------------*/ #include "qua_gain.h" #include "typedef.h" #include "basic_op.h" #include "mode.h" #include "cnst.h" #include "pow2.h" #include "gc_pred.h" /*--------------------------------------------------------------------------*/ #ifdef __cplusplus extern "C" { #endif /*---------------------------------------------------------------------------- ; MACROS ; Define module specific macros here ----------------------------------------------------------------------------*/ /*---------------------------------------------------------------------------- ; DEFINES ; Include all pre-processor statements here. Include conditional ; compile variables also. ----------------------------------------------------------------------------*/ /*---------------------------------------------------------------------------- ; LOCAL FUNCTION DEFINITIONS ; Function Prototype declaration ----------------------------------------------------------------------------*/ /*---------------------------------------------------------------------------- ; LOCAL VARIABLE DEFINITIONS ; Variable declaration - defined here and used outside this module ----------------------------------------------------------------------------*/ /*---------------------------------------------------------------------------- ; EXTERNAL GLOBAL STORE/BUFFER/POINTER REFERENCES ; Declare variables used in this module but defined elsewhere ----------------------------------------------------------------------------*/ extern const Word16 table_gain_lowrates[]; extern const Word16 table_gain_highrates[]; /*--------------------------------------------------------------------------*/ #ifdef __cplusplus } #endif /* ------------------------------------------------------------------------------ FUNCTION NAME: ------------------------------------------------------------------------------ INPUT AND OUTPUT DEFINITIONS Inputs: mode -- enum Mode -- AMR mode Word16 exp_gcode0 -- Word16 -- predicted CB gain (exponent), Q0 Word16 frac_gcode0 -- Word16 -- predicted CB gain (fraction), Q15 Word16 frac_coeff -- Word16 Array -- energy coeff. (5), fraction part, Q15 Word16 exp_coeff -- Word16 Array -- energy coeff. (5), exponent part, Q0 (frac_coeff and exp_coeff computed in calc_filt_energies()) Word16 gp_limit -- Word16 -- pitch gain limit Outputs: Word16 *gain_pit -- Pointer to Word16 -- Pitch gain, Q14 Word16 *gain_cod -- Pointer to Word16 -- Code gain, Q1 Word16 *qua_ener_MR122 -- Pointer to Word16 -- quantized energy error, Q10 (for MR122 MA predictor update) Word16 *qua_ener -- Pointer to Word16 -- quantized energy error, Q10 (for other MA predictor update) Flag *pOverflow -- Pointer to Flag -- overflow indicator Returns: Word16 -- index of quantization. Global Variables Used: Local Variables Needed: None ------------------------------------------------------------------------------ FUNCTION DESCRIPTION Quantization of pitch and codebook gains. ------------------------------------------------------------------------------ REQUIREMENTS None ------------------------------------------------------------------------------ REFERENCES qua_gain.c, UMTS GSM AMR speech codec, R99 - Version 3.2.0, March 2, 2001 ------------------------------------------------------------------------------ PSEUDO-CODE ------------------------------------------------------------------------------ RESOURCES USED [optional] When the code is written for a specific target processor the the resources used should be documented below. HEAP MEMORY USED: x bytes STACK MEMORY USED: x bytes CLOCK CYCLES: (cycle count equation for this function) + (variable used to represent cycle count for each subroutine called) where: (cycle count variable) = cycle count for [subroutine name] ------------------------------------------------------------------------------ CAUTION [optional] [State any special notes, constraints or cautions for users of this function] ------------------------------------------------------------------------------ */ Word16 Qua_gain( /* o : index of quantization. */ enum Mode mode, /* i : AMR mode */ Word16 exp_gcode0, /* i : predicted CB gain (exponent), Q0 */ Word16 frac_gcode0, /* i : predicted CB gain (fraction), Q15 */ Word16 frac_coeff[], /* i : energy coeff. (5), fraction part, Q15 */ Word16 exp_coeff[], /* i : energy coeff. (5), exponent part, Q0 */ /* (frac_coeff and exp_coeff computed in */ /* calc_filt_energies()) */ Word16 gp_limit, /* i : pitch gain limit */ Word16 *gain_pit, /* o : Pitch gain, Q14 */ Word16 *gain_cod, /* o : Code gain, Q1 */ Word16 *qua_ener_MR122, /* o : quantized energy error, Q10 */ /* (for MR122 MA predictor update) */ Word16 *qua_ener, /* o : quantized energy error, Q10 */ /* (for other MA predictor update) */ Flag *pOverflow /* o : overflow indicator */ ) { const Word16 *p; Word16 i; Word16 j; Word16 index = 0; Word16 gcode0; Word16 e_max; Word16 temp; Word16 exp_code; Word16 g_pitch; Word16 g2_pitch; Word16 g_code; Word16 g2_code; Word16 g_pit_cod; Word16 coeff[5]; Word16 coeff_lo[5]; Word16 exp_max[5]; Word32 L_tmp; Word32 L_tmp2; Word32 dist_min; const Word16 *table_gain; Word16 table_len; if (mode == MR102 || mode == MR74 || mode == MR67) { table_len = VQ_SIZE_HIGHRATES; table_gain = table_gain_highrates; } else { table_len = VQ_SIZE_LOWRATES; table_gain = table_gain_lowrates; } /*-------------------------------------------------------------------* * predicted codebook gain * * ~~~~~~~~~~~~~~~~~~~~~~~ * * gc0 = 2^exp_gcode0 + 2^frac_gcode0 * * * * gcode0 (Q14) = 2^14*2^frac_gcode0 = gc0 * 2^(14-exp_gcode0) * *-------------------------------------------------------------------*/ gcode0 = (Word16)(Pow2(14, frac_gcode0, pOverflow)); /*-------------------------------------------------------------------* * Scaling considerations: * * ~~~~~~~~~~~~~~~~~~~~~~~ * *-------------------------------------------------------------------*/ /* * The error energy (sum) to be minimized consists of five terms, t[0..4]. * * t[0] = gp^2 * * t[1] = -2*gp * * t[2] = gc^2 * * t[3] = -2*gc * * t[4] = 2*gp*gc * * */ /* determine the scaling exponent for g_code: ec = ec0 - 11 */ exp_code = sub(exp_gcode0, 11, pOverflow); /* calculate exp_max[i] = s[i]-1 */ exp_max[0] = sub(exp_coeff[0], 13, pOverflow); exp_max[1] = sub(exp_coeff[1], 14, pOverflow); temp = shl(exp_code, 1, pOverflow); temp = add(15, temp, pOverflow); exp_max[2] = add(exp_coeff[2], temp, pOverflow); exp_max[3] = add(exp_coeff[3], exp_code, pOverflow); temp = add(1, exp_code, pOverflow); exp_max[4] = add(exp_coeff[4], temp, pOverflow); /*-------------------------------------------------------------------* * Find maximum exponent: * * ~~~~~~~~~~~~~~~~~~~~~~ * * * * For the sum operation, all terms must have the same scaling; * * that scaling should be low enough to prevent overflow. There- * * fore, the maximum scale is determined and all coefficients are * * re-scaled: * * * * e_max = max(exp_max[i]) + 1; * * e = exp_max[i]-e_max; e <= 0! * * c[i] = c[i]*2^e * *-------------------------------------------------------------------*/ e_max = exp_max[0]; for (i = 1; i < 5; i++) { if (exp_max[i] > e_max) { e_max = exp_max[i]; } } e_max = add(e_max, 1, pOverflow); /* To avoid overflow */ for (i = 0; i < 5; i++) { j = sub(e_max, exp_max[i], pOverflow); L_tmp = L_deposit_h(frac_coeff[i]); L_tmp = L_shr(L_tmp, j, pOverflow); L_Extract(L_tmp, &coeff[i], &coeff_lo[i], pOverflow); } /*-------------------------------------------------------------------* * Codebook search: * * ~~~~~~~~~~~~~~~~ * * * * For each pair (g_pitch, g_fac) in the table calculate the * * terms t[0..4] and sum them up; the result is the mean squared * * error for the quantized gains from the table. The index for the * * minimum MSE is stored and finally used to retrieve the quantized * * gains * *-------------------------------------------------------------------*/ /* start with "infinite" MSE */ dist_min = MAX_32; p = &table_gain[0]; for (i = 0; i < table_len; i++) { g_pitch = *p++; g_code = *p++; /* this is g_fac */ p++; /* skip log2(g_fac) */ p++; /* skip 20*log10(g_fac) */ if (g_pitch <= gp_limit) { g_code = mult(g_code, gcode0, pOverflow); g2_pitch = mult(g_pitch, g_pitch, pOverflow); g2_code = mult(g_code, g_code, pOverflow); g_pit_cod = mult(g_code, g_pitch, pOverflow); L_tmp = Mpy_32_16(coeff[0], coeff_lo[0], g2_pitch, pOverflow); L_tmp2 = Mpy_32_16(coeff[1], coeff_lo[1], g_pitch, pOverflow); L_tmp = L_add(L_tmp, L_tmp2, pOverflow); L_tmp2 = Mpy_32_16(coeff[2], coeff_lo[2], g2_code, pOverflow); L_tmp = L_add(L_tmp, L_tmp2, pOverflow); L_tmp2 = Mpy_32_16(coeff[3], coeff_lo[3], g_code, pOverflow); L_tmp = L_add(L_tmp, L_tmp2, pOverflow); L_tmp2 = Mpy_32_16(coeff[4], coeff_lo[4], g_pit_cod, pOverflow); L_tmp = L_add(L_tmp, L_tmp2, pOverflow); /* store table index if MSE for this index is lower than the minimum MSE seen so far */ if (L_tmp < dist_min) { dist_min = L_tmp; index = i; } } } /*------------------------------------------------------------------* * read quantized gains and new values for MA predictor memories * * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * *------------------------------------------------------------------*/ /* Read the quantized gains */ p = &table_gain[shl(index, 2, pOverflow)]; *gain_pit = *p++; g_code = *p++; *qua_ener_MR122 = *p++; *qua_ener = *p; /*------------------------------------------------------------------* * calculate final fixed codebook gain: * * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * * * * gc = gc0 * g * *------------------------------------------------------------------*/ L_tmp = L_mult(g_code, gcode0, pOverflow); temp = sub(10, exp_gcode0, pOverflow); L_tmp = L_shr(L_tmp, temp, pOverflow); *gain_cod = extract_h(L_tmp); return index; }