mirror of
https://github.com/f4exb/sdrangel.git
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244 lines
6.2 KiB
C++
244 lines
6.2 KiB
C++
/* anf.c
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This file is part of a program that implements a Software-Defined Radio.
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Copyright (C) 2012, 2013 Warren Pratt, NR0V
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Copyright (C) 2024 Edouard Griffiths, F4EXB Adapted to SDRangel
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program 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
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; 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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The author can be reached by email at
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warren@wpratt.com
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*/
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#include "comm.hpp"
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#include "amd.hpp"
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#include "snb.hpp"
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#include "emnr.hpp"
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#include "anr.hpp"
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#include "anf.hpp"
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#include "bandpass.hpp"
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#include "RXA.hpp"
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namespace WDSP {
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ANF* ANF::create_anf(
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int run,
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int position,
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int buff_size,
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double *in_buff,
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double *out_buff,
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int dline_size,
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int n_taps,
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int delay,
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double two_mu,
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double gamma,
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double lidx,
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double lidx_min,
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double lidx_max,
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double ngamma,
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double den_mult,
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double lincr,
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double ldecr
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)
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{
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ANF *a = new ANF;
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a->run = run;
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a->position = position;
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a->buff_size = buff_size;
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a->in_buff = in_buff;
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a->out_buff = out_buff;
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a->dline_size = dline_size;
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a->mask = dline_size - 1;
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a->n_taps = n_taps;
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a->delay = delay;
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a->two_mu = two_mu;
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a->gamma = gamma;
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a->in_idx = 0;
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a->lidx = lidx;
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a->lidx_min = lidx_min;
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a->lidx_max = lidx_max;
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a->ngamma = ngamma;
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a->den_mult = den_mult;
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a->lincr = lincr;
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a->ldecr = ldecr;
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memset (a->d, 0, sizeof(double) * ANF_DLINE_SIZE);
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memset (a->w, 0, sizeof(double) * ANF_DLINE_SIZE);
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return a;
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}
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void ANF::destroy_anf (ANF *a)
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{
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delete a;
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}
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void ANF::xanf(ANF *a, int position)
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{
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int i, j, idx;
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double c0, c1;
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double y, error, sigma, inv_sigp;
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double nel, nev;
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if (a->run && (a->position == position))
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{
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for (i = 0; i < a->buff_size; i++)
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{
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a->d[a->in_idx] = a->in_buff[2 * i + 0];
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y = 0;
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sigma = 0;
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for (j = 0; j < a->n_taps; j++)
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{
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idx = (a->in_idx + j + a->delay) & a->mask;
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y += a->w[j] * a->d[idx];
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sigma += a->d[idx] * a->d[idx];
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}
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inv_sigp = 1.0 / (sigma + 1e-10);
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error = a->d[a->in_idx] - y;
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a->out_buff[2 * i + 0] = error;
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a->out_buff[2 * i + 1] = 0.0;
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if((nel = error * (1.0 - a->two_mu * sigma * inv_sigp)) < 0.0) nel = -nel;
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if((nev = a->d[a->in_idx] - (1.0 - a->two_mu * a->ngamma) * y - a->two_mu * error * sigma * inv_sigp) < 0.0) nev = -nev;
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if (nev < nel)
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{
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if ((a->lidx += a->lincr) > a->lidx_max) a->lidx = a->lidx_max;
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}
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else
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{
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if ((a->lidx -= a->ldecr) < a->lidx_min) a->lidx = a->lidx_min;
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}
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a->ngamma = a->gamma * (a->lidx * a->lidx) * (a->lidx * a->lidx) * a->den_mult;
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c0 = 1.0 - a->two_mu * a->ngamma;
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c1 = a->two_mu * error * inv_sigp;
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for (j = 0; j < a->n_taps; j++)
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{
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idx = (a->in_idx + j + a->delay) & a->mask;
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a->w[j] = c0 * a->w[j] + c1 * a->d[idx];
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}
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a->in_idx = (a->in_idx + a->mask) & a->mask;
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}
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}
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else if (a->in_buff != a->out_buff)
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memcpy (a->out_buff, a->in_buff, a->buff_size * sizeof (dcomplex));
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}
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void ANF::flush_anf (ANF *a)
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{
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memset (a->d, 0, sizeof(double) * ANF_DLINE_SIZE);
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memset (a->w, 0, sizeof(double) * ANF_DLINE_SIZE);
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a->in_idx = 0;
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}
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void ANF::setBuffers_anf (ANF *a, double* in, double* out)
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{
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a->in_buff = in;
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a->out_buff = out;
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}
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void ANF::setSamplerate_anf (ANF *a, int)
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{
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flush_anf (a);
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}
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void ANF::setSize_anf (ANF *a, int size)
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{
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a->buff_size = size;
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flush_anf (a);
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}
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/********************************************************************************************************
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* *
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* RXA Properties *
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* *
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********************************************************************************************************/
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void ANF::SetANFRun (RXA& rxa, int run)
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{
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ANF *a = rxa.anf.p;
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if (a->run != run)
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{
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RXA::bp1Check (rxa, rxa.amd.p->run, rxa.snba.p->run,
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rxa.emnr.p->run, run, rxa.anr.p->run);
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rxa.csDSP.lock();
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a->run = run;
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RXA::bp1Set (rxa);
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flush_anf (a);
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rxa.csDSP.unlock();
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}
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}
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void ANF::SetANFVals (RXA& rxa, int taps, int delay, double gain, double leakage)
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{
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rxa.csDSP.lock();
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rxa.anf.p->n_taps = taps;
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rxa.anf.p->delay = delay;
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rxa.anf.p->two_mu = gain; //try two_mu = 1e-4
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rxa.anf.p->gamma = leakage; //try gamma = 0.10
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flush_anf (rxa.anf.p);
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rxa.csDSP.unlock();
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}
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void ANF::SetANFTaps (RXA& rxa, int taps)
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{
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rxa.csDSP.lock();
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rxa.anf.p->n_taps = taps;
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flush_anf (rxa.anf.p);
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rxa.csDSP.unlock();
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}
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void ANF::SetANFDelay (RXA& rxa, int delay)
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{
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rxa.csDSP.lock();
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rxa.anf.p->delay = delay;
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flush_anf (rxa.anf.p);
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rxa.csDSP.unlock();
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}
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void ANF::SetANFGain (RXA& rxa, double gain)
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{
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rxa.csDSP.lock();
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rxa.anf.p->two_mu = gain;
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flush_anf (rxa.anf.p);
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rxa.csDSP.unlock();
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}
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void ANF::SetANFLeakage (RXA& rxa, double leakage)
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{
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rxa.csDSP.lock();
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rxa.anf.p->gamma = leakage;
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flush_anf (rxa.anf.p);
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rxa.csDSP.unlock();
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}
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void ANF::SetANFPosition (RXA& rxa, int position)
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{
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rxa.csDSP.lock();
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rxa.anf.p->position = position;
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rxa.bp1.p->position = position;
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flush_anf (rxa.anf.p);
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rxa.csDSP.unlock();
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}
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} // namespace WDSP
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