mirror of
https://github.com/f4exb/sdrangel.git
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166 lines
6.4 KiB
C++
166 lines
6.4 KiB
C++
/* ssql.h
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This file is part of a program that implements a Software-Defined Radio.
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Copyright (C) 2023 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@pratt.one
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*/
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#ifndef wdsp_ssql_h
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#define wdsp_ssql_h
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#include <vector>
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#include "export.h"
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namespace WDSP {
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class WDSP_API FTOV // Frequency to Voltage Converter
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{
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public:
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int run; // 0 => don't run; 1 => run
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int size; // buffer size
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int rate; // sample-rate
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int rsize; // rate * time_to_fill_ring, e.g., 48K/s * 50ms = 2400
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double fmax; // frequency (Hz) for full output, e.g., 2000 (Hz)
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float* in; // pointer to the intput buffer for ftov
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float* out; // pointer to the output buffer for ftov
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std::vector<int> ring; // the ring
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int rptr; // index into the ring
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double inlast; // holds last sample from previous buffer
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int rcount; // count of zero-crossings currently in the ring
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double div; // divisor for 'rcount' to produce output of 1.0 at 'fmax'
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double eps; // minimum input change to count as a signal edge transition
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FTOV(
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int run,
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int size,
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int rate,
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int rsize,
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double fmax,
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float* in,
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float* out
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);
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FTOV(const FTOV&) = delete;
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FTOV& operator=(FTOV& other) = delete;
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~FTOV() = default;
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void flush();
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void execute();
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};
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class CBL;
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class FTDV;
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class DBQLP;
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class WDSP_API SSQL // Syllabic Squelch
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{
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public:
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enum class SSQLState
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{
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MUTED,
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INCREASE,
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UNMUTED,
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DECREASE
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};
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int run; // 0 if squelch system is OFF; 1 if it's ON
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int size; // size of input/output buffers
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float* in; // squelch input signal buffer
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float* out; // squelch output signal buffer
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int rate; // sample rate
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SSQLState state; // state machine control
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int count; // count variable for raised cosine transitions
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double tup; // time for turn-on transition
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double tdown; // time for turn-off transition
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int ntup; // number of samples for turn-on transition
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int ntdown; // number of samples for turn-off transition
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std::vector<double> cup; // coefficients for up-slew
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std::vector<double> cdown; // coefficients for down-slew
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double muted_gain; // audio gain while muted; 0.0 for complete silence
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std::vector<float> b1; // buffer to hold output of dc-block function
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std::vector<float> ibuff; // buffer containing only 'I' component
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std::vector<float> ftovbuff; // buffer containing output of f to v converter
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std::vector<float> lpbuff; // buffer containing output of low-pass filter
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std::vector<int> wdbuff; // buffer containing output of window detector
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CBL *dcbl; // pointer to DC Blocker data structure
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FTOV *cvtr; // pointer to F to V Converter data structure
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DBQLP *filt; // pointer to Bi-Quad Low-Pass Filter data structure
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int ftov_rsize; // ring size for f_to_v converter
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double ftov_fmax; // fmax for f_to_v converter
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// window detector
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double wdtau; // window detector time constant
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double wdmult; // window detector time constant multiplier
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double wdaverage; // average signal value
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double wthresh; // window threshold above/below average
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// trigger
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double tr_thresh; // trigger threshold: 100K/(100K+22K)=0.8197
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double tr_tau_unmute; // trigger unmute time-constant: (100K||220K)*10uF = 0.6875
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double tr_ss_unmute; // trigger steady-state level for unmute: 100K/(100K+220K)=0.3125
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double tr_tau_mute; // trigger mute time-constant: 220K*10uF = 2.2
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double tr_ss_mute; // trigger steady-state level for mute: 1.0
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double tr_voltage; // trigger voltage
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double mute_mult; // multiplier for successive voltage calcs when muted
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double unmute_mult; // multiplier for successive voltage calcs when unmuted
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std::vector<int> tr_signal; // trigger signal, 0 or 1
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SSQL(
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int run,
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int size,
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float* in,
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float* out,
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int rate,
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double tup,
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double tdown,
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double muted_gain,
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double tau_mute,
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double tau_unmute,
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double wthresh,
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double tr_thresh,
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int rsize,
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double fmax
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);
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SSQL(const SSQL&) = delete;
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SSQL& operator=(const SSQL& other) = delete;
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~SSQL();
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void flush();
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void execute();
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void setBuffers(float* in, float* out);
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void setSamplerate(int rate);
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void setSize(int size);
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// RXA Properties
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void setRun(int run);
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void setThreshold(double threshold);
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void setTauMute(double tau_mute);
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void setTauUnMute(double tau_unmute);
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private:
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void compute_slews();
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void calc();
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void decalc();
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};
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} // namespace WDSP
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#endif
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