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sdrangel/wdsp/meter.cpp
2024-06-16 19:14:31 +02:00

179 lines
5.1 KiB
C++

/* meter.c
This file is part of a program that implements a Software-Defined Radio.
Copyright (C) 2013 Warren Pratt, NR0V
Copyright (C) 2024 Edouard Griffiths, F4EXB Adapted to SDRangel
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
The author can be reached by email at
warren@wpratt.com
*/
#include "comm.hpp"
#include "meterlog10.hpp"
#include "meter.hpp"
namespace WDSP {
void METER::calc_meter (METER *a)
{
a->mult_average = exp(-1.0 / (a->rate * a->tau_average));
a->mult_peak = exp(-1.0 / (a->rate * a->tau_peak_decay));
flush_meter(a);
}
METER* METER::create_meter (
int run,
int* prun,
int size,
double* buff,
int rate,
double tau_av,
double tau_decay,
double* result,
QRecursiveMutex** pmtupdate,
int enum_av,
int enum_pk,
int enum_gain,
double* pgain
)
{
METER *a = new METER;
a->run = run;
a->prun = prun;
a->size = size;
a->buff = buff;
a->rate = (double)rate;
a->tau_average = tau_av;
a->tau_peak_decay = tau_decay;
a->result = result;
a->enum_av = enum_av;
a->enum_pk = enum_pk;
a->enum_gain = enum_gain;
a->pgain = pgain;
calc_meter(a);
pmtupdate[enum_av] = &a->mtupdate;
pmtupdate[enum_pk] = &a->mtupdate;
pmtupdate[enum_gain] = &a->mtupdate;
return a;
}
void METER::destroy_meter (METER *a)
{
delete a;
}
void METER::flush_meter (METER *a)
{
a->avg = 0.0;
a->peak = 0.0;
a->result[a->enum_av] = -400.0;
a->result[a->enum_pk] = -400.0;
if ((a->pgain != 0) && (a->enum_gain >= 0))
a->result[a->enum_gain] = -400.0;
}
void METER::xmeter (METER *a)
{
int srun;
a->mtupdate.lock();
if (a->prun != 0)
srun = *(a->prun);
else
srun = 1;
if (a->run && srun)
{
int i;
double smag;
double np = 0.0;
for (i = 0; i < a->size; i++)
{
smag = a->buff[2 * i + 0] * a->buff[2 * i + 0] + a->buff[2 * i + 1] * a->buff[2 * i + 1];
a->avg = a->avg * a->mult_average + (1.0 - a->mult_average) * smag;
a->peak *= a->mult_peak;
if (smag > np) np = smag;
}
if (np > a->peak) a->peak = np;
a->result[a->enum_av] = 10.0 * MemLog::mlog10 (a->avg + 1.0e-40);
a->result[a->enum_pk] = 10.0 * MemLog::mlog10 (a->peak + 1.0e-40);
if ((a->pgain != 0) && (a->enum_gain >= 0))
a->result[a->enum_gain] = 20.0 * MemLog::mlog10 (*a->pgain + 1.0e-40);
}
else
{
if (a->enum_av >= 0) a->result[a->enum_av] = - 400.0;
if (a->enum_pk >= 0) a->result[a->enum_pk] = - 400.0;
if (a->enum_gain >= 0) a->result[a->enum_gain] = + 0.0;
}
a->mtupdate.unlock();
}
void METER::setBuffers_meter (METER *a, double* in)
{
a->buff = in;
}
void METER::setSamplerate_meter (METER *a, int rate)
{
a->rate = rate;
calc_meter(a);
}
void METER::setSize_meter (METER *a, int size)
{
a->size = size;
flush_meter (a);
}
/********************************************************************************************************
* *
* RXA Properties *
* *
********************************************************************************************************/
// PORT
// double GetRXAMeter (int channel, int mt)
// {
// double val;
// CRITICAL_SECTION* a = rxa[channel].pmtupdate[mt];
// EnterCriticalSection (a);
// val = rxa[channel].meter[mt];
// LeaveCriticalSection (a);
// return val;
// }
/********************************************************************************************************
* *
* TXA Properties *
* *
********************************************************************************************************/
// PORT
// double GetTXAMeter (int channel, int mt)
// {
// double val;
// CRITICAL_SECTION* a = txa[channel].pmtupdate[mt];
// EnterCriticalSection (a);
// val = txa[channel].meter[mt];
// LeaveCriticalSection (a);
// return val;
// }
} // namespace WDSP