2021-08-23 12:25:28 +00:00
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from csdr.chain import Chain
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from pycsdr.modules import Shift, FirDecimate, Bandpass, Squelch, FractionalDecimator, Writer
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from pycsdr.types import Format
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import math
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class Decimator(Chain):
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def __init__(self, inputRate: int, outputRate: int):
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if outputRate > inputRate:
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raise ValueError("impossible decimation: cannot upsample {} to {}".format(inputRate, outputRate))
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self.inputRate = inputRate
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self.outputRate = outputRate
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decimation, fraction = self._getDecimation(outputRate)
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transition = 0.15 * (outputRate / float(self.inputRate))
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# set the cutoff on the fist decimation stage lower so that the resulting output
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# is already prepared for the second (fractional) decimation stage.
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# this spares us a second filter.
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cutoff = 0.5 * decimation / (self.inputRate / outputRate)
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workers = [
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FirDecimate(decimation, transition, cutoff),
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]
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if fraction != 1.0:
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workers += [FractionalDecimator(Format.COMPLEX_FLOAT, fraction)]
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super().__init__(workers)
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def _getDecimation(self, outputRate: int) -> (int, float):
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d = self.inputRate / outputRate
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dInt = int(d)
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dFloat = float(self.inputRate / dInt) / outputRate
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return dInt, dFloat
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def _reconfigure(self):
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decimation, fraction = self._getDecimation(self.outputRate)
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transition = 0.15 * (self.outputRate / float(self.inputRate))
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cutoff = 0.5 * decimation / (self.inputRate / self.outputRate)
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self.replace(0, FirDecimate(decimation, transition, cutoff))
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index = self.indexOf(lambda x: isinstance(x, FractionalDecimator))
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if fraction != 1.0:
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decimator = FractionalDecimator(Format.COMPLEX_FLOAT, fraction)
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if index >= 0:
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self.replace(index, decimator)
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else:
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self.append(decimator)
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elif index >= 0:
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self.remove(index)
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def setOutputRate(self, outputRate: int) -> None:
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if outputRate == self.outputRate:
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return
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self.outputRate = outputRate
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self._reconfigure()
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def setInputRate(self, inputRate: int) -> None:
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if inputRate == self.inputRate:
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return
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self.inputRate = inputRate
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self._reconfigure()
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class Selector(Chain):
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2021-09-06 13:05:33 +00:00
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def __init__(self, inputRate: int, outputRate: int, shiftRate: float, withSquelch: bool = True):
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2021-08-23 12:25:28 +00:00
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self.outputRate = outputRate
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self.shift = Shift(shiftRate)
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self.decimation = Decimator(inputRate, outputRate)
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self.bandpass = self._buildBandpass()
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self.bandpassCutoffs = None
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self.setBandpass(-4000, 4000)
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2021-09-06 13:05:33 +00:00
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workers = [self.shift, self.decimation, self.bandpass]
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2021-08-23 12:25:28 +00:00
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2021-09-06 13:05:33 +00:00
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if withSquelch:
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self.readings_per_second = 4
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# s-meter readings are available every 1024 samples
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# the reporting interval is measured in those 1024-sample blocks
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self.squelch = Squelch(5, int(outputRate / (self.readings_per_second * 1024)))
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workers += [self.squelch]
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2021-08-23 12:25:28 +00:00
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super().__init__(workers)
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def _buildBandpass(self) -> Bandpass:
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bp_transition = 320.0 / self.outputRate
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return Bandpass(transition=bp_transition, use_fft=True)
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def setShiftRate(self, rate: float) -> None:
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self.shift.setRate(rate)
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def _convertToLinear(self, db: float) -> float:
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return float(math.pow(10, db / 10))
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def setSquelchLevel(self, level: float) -> None:
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self.squelch.setSquelchLevel(self._convertToLinear(level))
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def setBandpass(self, lowCut: float, highCut: float) -> None:
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self.bandpassCutoffs = [lowCut, highCut]
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scaled = [x / self.outputRate for x in self.bandpassCutoffs]
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self.bandpass.setBandpass(*scaled)
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def setLowCut(self, lowCut: float) -> None:
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self.bandpassCutoffs[0] = lowCut
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self.setBandpass(*self.bandpassCutoffs)
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def setHighCut(self, highCut: float) -> None:
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self.bandpassCutoffs[1] = highCut
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self.setBandpass(*self.bandpassCutoffs)
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def setPowerWriter(self, writer: Writer) -> None:
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self.squelch.setPowerWriter(writer)
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def setOutputRate(self, outputRate: int) -> None:
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if outputRate == self.outputRate:
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return
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self.outputRate = outputRate
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self.decimation.setOutputRate(outputRate)
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self.squelch.setReportInterval(int(outputRate / (self.readings_per_second * 1024)))
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self.bandpass = self._buildBandpass()
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self.setBandpass(*self.bandpassCutoffs)
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self.replace(2, self.bandpass)
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def setInputRate(self, inputRate: int) -> None:
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self.decimation.setInputRate(inputRate)
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