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275131628d
scalarproduct instead. Patch by Aurelien Jacobs. Originally committed as revision 16391 to svn://svn.ffmpeg.org/ffmpeg/trunk
224 lines
7.5 KiB
C
224 lines
7.5 KiB
C
/*
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* gain code, gain pitch and pitch delay decoding
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*
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* Copyright (c) 2008 Vladimir Voroshilov
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*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* FFmpeg is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with FFmpeg; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#ifndef AVCODEC_ACELP_PITCH_DELAY_H
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#define AVCODEC_ACELP_PITCH_DELAY_H
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#include <stdint.h>
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#include "dsputil.h"
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#define PITCH_DELAY_MIN 20
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#define PITCH_DELAY_MAX 143
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/**
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* \brief Decode pitch delay of the first subframe encoded by 8 bits with 1/3
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* resolution.
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* \param ac_index adaptive codebook index (8 bits)
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*
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* \return pitch delay in 1/3 units
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*
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* Pitch delay is coded:
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* with 1/3 resolution, 19 < pitch_delay < 85
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* integers only, 85 <= pitch_delay <= 143
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*/
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int ff_acelp_decode_8bit_to_1st_delay3(int ac_index);
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/**
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* \brief Decode pitch delay of the second subframe encoded by 5 or 6 bits
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* with 1/3 precision.
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* \param ac_index adaptive codebook index (5 or 6 bits)
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* \param pitch_delay_min lower bound (integer) of pitch delay interval
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* for second subframe
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*
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* \return pitch delay in 1/3 units
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*
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* Pitch delay is coded:
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* with 1/3 resolution, -6 < pitch_delay - int(prev_pitch_delay) < 5
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*
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* \remark The routine is used in G.729 @8k, AMR @10.2k, AMR @7.95k,
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* AMR @7.4k for the second subframe.
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*/
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int ff_acelp_decode_5_6_bit_to_2nd_delay3(
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int ac_index,
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int pitch_delay_min);
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/**
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* \brief Decode pitch delay with 1/3 precision.
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* \param ac_index adaptive codebook index (4 bits)
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* \param pitch_delay_min lower bound (integer) of pitch delay interval for
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* second subframe
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*
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* \return pitch delay in 1/3 units
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*
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* Pitch delay is coded:
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* integers only, -6 < pitch_delay - int(prev_pitch_delay) <= -2
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* with 1/3 resolution, -2 < pitch_delay - int(prev_pitch_delay) < 1
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* integers only, 1 <= pitch_delay - int(prev_pitch_delay) < 5
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*
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* \remark The routine is used in G.729 @6.4k, AMR @6.7k, AMR @5.9k,
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* AMR @5.15k, AMR @4.75k for the second subframe.
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*/
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int ff_acelp_decode_4bit_to_2nd_delay3(
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int ac_index,
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int pitch_delay_min);
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/**
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* \brief Decode pitch delay of the first subframe encoded by 9 bits
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* with 1/6 precision.
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* \param ac_index adaptive codebook index (9 bits)
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* \param pitch_delay_min lower bound (integer) of pitch delay interval for
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* second subframe
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*
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* \return pitch delay in 1/6 units
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*
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* Pitch delay is coded:
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* with 1/6 resolution, 17 < pitch_delay < 95
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* integers only, 95 <= pitch_delay <= 143
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*
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* \remark The routine is used in AMR @12.2k for the first and third subframes.
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*/
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int ff_acelp_decode_9bit_to_1st_delay6(int ac_index);
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/**
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* \brief Decode pitch delay of the second subframe encoded by 6 bits
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* with 1/6 precision.
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* \param ac_index adaptive codebook index (6 bits)
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* \param pitch_delay_min lower bound (integer) of pitch delay interval for
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* second subframe
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*
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* \return pitch delay in 1/6 units
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*
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* Pitch delay is coded:
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* with 1/6 resolution, -6 < pitch_delay - int(prev_pitch_delay) < 5
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*
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* \remark The routine is used in AMR @12.2k for the second and fourth subframes.
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*/
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int ff_acelp_decode_6bit_to_2nd_delay6(
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int ac_index,
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int pitch_delay_min);
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/**
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* \brief Update past quantized energies
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* \param quant_energy [in/out] past quantized energies (5.10)
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* \param gain_corr_factor gain correction factor
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* \param log2_ma_pred_order log2() of MA prediction order
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* \param erasure frame erasure flag
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*
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* If frame erasure flag is not equal to zero, memory is updated with
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* averaged energy, attenuated by 4dB:
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* max(avg(quant_energy[i])-4, -14), i=0,ma_pred_order
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*
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* In normal mode memory is updated with
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* Er - Ep = 20 * log10(gain_corr_factor)
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*
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* \remark The routine is used in G.729 and AMR (all modes).
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*/
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void ff_acelp_update_past_gain(
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int16_t* quant_energy,
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int gain_corr_factor,
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int log2_ma_pred_order,
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int erasure);
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/**
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* \brief Decode the adaptive codebook gain and add
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* correction (4.1.5 and 3.9.1 of G.729).
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* \param dsp initialized dsputil context
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* \param gain_corr_factor gain correction factor (2.13)
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* \param fc_v fixed-codebook vector (2.13)
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* \param mr_energy mean innovation energy and fixed-point correction (7.13)
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* \param quant_energy [in/out] past quantized energies (5.10)
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* \param subframe_size length of subframe
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* \param ma_pred_order MA prediction order
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*
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* \return quantized fixed-codebook gain (14.1)
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*
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* The routine implements equations 69, 66 and 71 of the G.729 specification (3.9.1)
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*
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* Em - mean innovation energy (dB, constant, depends on decoding algorithm)
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* Ep - mean-removed predicted energy (dB)
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* Er - mean-removed innovation energy (dB)
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* Ei - mean energy of the fixed-codebook contribution (dB)
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* N - subframe_size
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* M - MA (Moving Average) prediction order
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* gc - fixed-codebook gain
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* gc_p - predicted fixed-codebook gain
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*
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* Fixed codebook gain is computed using predicted gain gc_p and
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* correction factor gain_corr_factor as shown below:
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*
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* gc = gc_p * gain_corr_factor
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*
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* The predicted fixed codebook gain gc_p is found by predicting
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* the energy of the fixed-codebook contribution from the energy
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* of previous fixed-codebook contributions.
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*
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* mean = 1/N * sum(i,0,N){ fc_v[i] * fc_v[i] }
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*
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* Ei = 10log(mean)
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*
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* Er = 10log(1/N * gc^2 * mean) - Em = 20log(gc) + Ei - Em
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*
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* Replacing Er with Ep and gc with gc_p we will receive:
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*
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* Ep = 10log(1/N * gc_p^2 * mean) - Em = 20log(gc_p) + Ei - Em
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*
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* and from above:
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*
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* gc_p = 10^((Ep - Ei + Em) / 20)
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*
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* Ep is predicted using past energies and prediction coefficients:
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*
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* Ep = sum(i,0,M){ ma_prediction_coeff[i] * quant_energy[i] }
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*
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* gc_p in fixed-point arithmetic is calculated as following:
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*
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* mean = 1/N * sum(i,0,N){ (fc_v[i] / 2^13) * (fc_v[i] / 2^13) } =
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* = 1/N * sum(i,0,N) { fc_v[i] * fc_v[i] } / 2^26
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*
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* Ei = 10log(mean) = -10log(N) - 10log(2^26) +
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* + 10log(sum(i,0,N) { fc_v[i] * fc_v[i] })
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*
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* Ep - Ei + Em = Ep + Em + 10log(N) + 10log(2^26) -
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* - 10log(sum(i,0,N) { fc_v[i] * fc_v[i] }) =
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* = Ep + mr_energy - 10log(sum(i,0,N) { fc_v[i] * fc_v[i] })
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*
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* gc_p = 10 ^ ((Ep - Ei + Em) / 20) =
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* = 2 ^ (3.3219 * (Ep - Ei + Em) / 20) = 2 ^ (0.166 * (Ep - Ei + Em))
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*
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* where
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*
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* mr_energy = Em + 10log(N) + 10log(2^26)
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*
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* \remark The routine is used in G.729 and AMR (all modes).
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*/
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int16_t ff_acelp_decode_gain_code(
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DSPContext *dsp,
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int gain_corr_factor,
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const int16_t* fc_v,
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int mr_energy,
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const int16_t* quant_energy,
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const int16_t* ma_prediction_coeff,
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int subframe_size,
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int max_pred_order);
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#endif /* AVCODEC_ACELP_PITCH_DELAY_H */
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