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248 lines
6.3 KiB
C++
248 lines
6.3 KiB
C++
/* firmin.c
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This file is part of a program that implements a Software-Defined Radio.
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Copyright (C) 2016 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 "fir.hpp"
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#include "fircore.hpp"
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namespace WDSP {
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/********************************************************************************************************
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* *
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* Partitioned Overlap-Save Filter Kernel *
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* *
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********************************************************************************************************/
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void FIRCORE::plan()
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{
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// must call for change in 'nc', 'size', 'out'
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nfor = nc / size;
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cset = 0;
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buffidx = 0;
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idxmask = nfor - 1;
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fftin.resize(2 * size * 2);
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fftout.resize(nfor);
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fmask[0].resize(nfor);
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fmask[1].resize(nfor);
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maskgen.resize(2 * size * 2);
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pcfor.resize(nfor);
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maskplan[0].resize(nfor);
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maskplan[1].resize(nfor);
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for (int i = 0; i < nfor; i++)
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{
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fftout[i].resize(2 * size * 2);
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fmask[0][i].resize(2 * size * 2);
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fmask[1][i].resize(2 * size * 2);
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pcfor[i] = fftwf_plan_dft_1d(
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2 * size,
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(fftwf_complex *)fftin.data(),
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(fftwf_complex *)fftout[i].data(),
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FFTW_FORWARD,
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FFTW_PATIENT
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);
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maskplan[0][i] = fftwf_plan_dft_1d(
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2 * size,
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(fftwf_complex *)maskgen.data(),
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(fftwf_complex *)fmask[0][i].data(),
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FFTW_FORWARD,
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FFTW_PATIENT
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);
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maskplan[1][i] = fftwf_plan_dft_1d(
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2 * size,
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(fftwf_complex *)maskgen.data(),
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(fftwf_complex *)fmask[1][i].data(),
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FFTW_FORWARD,
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FFTW_PATIENT
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);
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}
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accum.resize(2 * size * 2);
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crev = fftwf_plan_dft_1d(
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2 * size,
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(fftwf_complex *)accum.data(),
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(fftwf_complex *)out,
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FFTW_BACKWARD,
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FFTW_PATIENT
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);
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masks_ready = 0;
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}
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void FIRCORE::calc(int _flip)
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{
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// call for change in frequency, rate, wintype, gain
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// must also call after a call to plan_firopt()
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if (mp)
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FIR::mp_imp (nc, impulse, imp, 16, 0);
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else
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std::copy(impulse.begin(), impulse.end(), imp.begin());
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for (int i = 0; i < nfor; i++)
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{
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// I right-justified the impulse response => take output from left side of output buff, discard right side
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// Be careful about flipping an asymmetrical impulse response.
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std::copy(&(imp[2 * size * i]), &(imp[2 * size * i]) + size * 2, &(maskgen[2 * size]));
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fftwf_execute (maskplan[1 - cset][i]);
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}
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masks_ready = 1;
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if (_flip)
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{
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cset = 1 - cset;
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masks_ready = 0;
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}
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}
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FIRCORE::FIRCORE(
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int _size,
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float* _in,
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float* _out,
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int _mp,
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const std::vector<float>& _impulse
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)
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{
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size = _size;
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in = _in;
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out = _out;
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nc = (int) (_impulse.size() / 2);
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mp = _mp;
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plan();
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impulse.resize(_impulse.size());
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imp.resize(_impulse.size());
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std::copy(_impulse.begin(), _impulse.end(), impulse.begin());
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calc(1);
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}
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void FIRCORE::deplan()
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{
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fftwf_destroy_plan (crev);
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for (int i = 0; i < nfor; i++)
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{
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fftwf_destroy_plan (pcfor[i]);
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fftwf_destroy_plan (maskplan[0][i]);
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fftwf_destroy_plan (maskplan[1][i]);
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}
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}
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FIRCORE::~FIRCORE()
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{
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deplan();
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}
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void FIRCORE::flush()
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{
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std::fill(fftin.begin(), fftin.end(), 0);
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for (int i = 0; i < nfor; i++)
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std::fill(fftout[i].begin(), fftout[i].end(), 0);
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buffidx = 0;
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}
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void FIRCORE::execute()
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{
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int k;
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std::copy(in, in + size * 2, &(fftin[2 * size]));
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fftwf_execute (pcfor[buffidx]);
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k = buffidx;
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std::fill(accum.begin(), accum.end(), 0);
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for (int j = 0; j < nfor; j++)
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{
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for (int i = 0; i < 2 * size; i++)
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{
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accum[2 * i + 0] += fftout[k][2 * i + 0] * fmask[cset][j][2 * i + 0] - fftout[k][2 * i + 1] * fmask[cset][j][2 * i + 1];
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accum[2 * i + 1] += fftout[k][2 * i + 0] * fmask[cset][j][2 * i + 1] + fftout[k][2 * i + 1] * fmask[cset][j][2 * i + 0];
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}
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k = (k + idxmask) & idxmask;
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}
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buffidx = (buffidx + 1) & idxmask;
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fftwf_execute (crev);
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std::copy(&(fftin[2 * size]), &(fftin[2 * size]) + size * 2, fftin.begin());
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}
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void FIRCORE::setBuffers(float* _in, float* _out)
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{
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in = _in;
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out = _out;
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deplan();
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plan();
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calc(1);
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}
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void FIRCORE::setSize(int _size)
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{
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size = _size;
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deplan();
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plan();
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calc(1);
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}
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void FIRCORE::setImpulse(const std::vector<float>& _impulse, int _update)
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{
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auto imp_nc = (int) (_impulse.size() / 2);
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if (imp_nc == nc) // to be on the safe side but setNc would be called if impulse size changes
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{
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std::copy(_impulse.begin(), _impulse.end(), impulse.begin());
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calc(_update);
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}
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else{
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setNc(_impulse);
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}
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}
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void FIRCORE::setNc(const std::vector<float>& _impulse)
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{
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// because of FFT planning, this will probably cause a glitch in audio if done during dataflow
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deplan();
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nc = (int) (_impulse.size() / 2);
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plan();
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imp.resize(nc * 2);
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impulse.resize(nc * 2);
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std::copy(_impulse.begin(), _impulse.end(), impulse.begin());
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calc(1);
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}
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void FIRCORE::setMp(int _mp)
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{
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mp = _mp;
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calc(1);
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}
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void FIRCORE::setUpdate()
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{
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if (masks_ready)
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{
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cset = 1 - cset;
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masks_ready = 0;
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}
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}
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} // namespace WDSP
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