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230 lines
7.9 KiB
Python
Executable File
230 lines
7.9 KiB
Python
Executable File
##
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## This file is part of the libsigrokdecode project.
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##
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## Copyright (C) 2014 Johannes Roemer <jroemer@physik.uni-wuerzburg.de>
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##
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## This program is free software; you can redistribute it and/or modify
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## it under the terms of the GNU General Public License as published by
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## the Free Software Foundation; either version 2 of the License, or
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## (at your option) any later version.
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##
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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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##
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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, see <http://www.gnu.org/licenses/>.
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##
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import sigrokdecode as srd
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# Define valid timing values (in microseconds).
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timing = {
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'START LOW' : {'min': 750, 'max': 25000},
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'START HIGH' : {'min': 10, 'max': 10000},
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'RESPONSE LOW' : {'min': 50, 'max': 90},
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'RESPONSE HIGH' : {'min': 50, 'max': 90},
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'BIT LOW' : {'min': 45, 'max': 90},
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'BIT 0 HIGH' : {'min': 20, 'max': 35},
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'BIT 1 HIGH' : {'min': 65, 'max': 80},
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}
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class SamplerateError(Exception):
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pass
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class Decoder(srd.Decoder):
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api_version = 3
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id = 'am230x'
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name = 'AM230x'
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longname = 'Aosong AM230x/DHTxx/RHTxx'
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desc = 'Aosong AM230x/DHTxx/RHTxx humidity/temperature sensor.'
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license = 'gplv2+'
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inputs = ['logic']
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outputs = []
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tags = ['IC', 'Sensor']
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channels = (
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{'id': 'sda', 'name': 'SDA', 'desc': 'Single wire serial data line'},
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)
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options = (
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{'id': 'device', 'desc': 'Device type',
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'default': 'am230x', 'values': ('am230x/rht', 'dht11')},
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)
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annotations = (
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('start', 'Start'),
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('response', 'Response'),
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('bit', 'Bit'),
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('end', 'End'),
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('byte', 'Byte'),
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('humidity', 'Relative humidity in percent'),
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('temperature', 'Temperature in degrees Celsius'),
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('checksum', 'Checksum'),
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)
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annotation_rows = (
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('bits', 'Bits', (0, 1, 2, 3)),
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('bytes', 'Bytes', (4,)),
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('results', 'Results', (5, 6, 7)),
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)
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def putfs(self, data):
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self.put(self.fall, self.samplenum, self.out_ann, data)
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def putb(self, data):
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self.put(self.bytepos[-1], self.samplenum, self.out_ann, data)
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def putv(self, data):
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self.put(self.bytepos[-2], self.samplenum, self.out_ann, data)
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def reset_variables(self):
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self.state = 'WAIT FOR START LOW'
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self.fall = 0
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self.rise = 0
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self.bits = []
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self.bytepos = []
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def is_valid(self, name):
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dt = 0
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if name.endswith('LOW'):
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dt = self.samplenum - self.fall
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elif name.endswith('HIGH'):
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dt = self.samplenum - self.rise
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if dt >= self.cnt[name]['min'] and dt <= self.cnt[name]['max']:
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return True
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return False
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def bits2num(self, bitlist):
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number = 0
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for i in range(len(bitlist)):
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number += bitlist[-1 - i] * 2**i
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return number
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def calculate_humidity(self, bitlist):
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h = 0
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if self.options['device'] == 'dht11':
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h = self.bits2num(bitlist[0:8])
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else:
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h = self.bits2num(bitlist) / 10
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return h
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def calculate_temperature(self, bitlist):
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t = 0
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if self.options['device'] == 'dht11':
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t = self.bits2num(bitlist[0:8])
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else:
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t = self.bits2num(bitlist[1:]) / 10
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if bitlist[0] == 1:
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t = -t
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return t
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def calculate_checksum(self, bitlist):
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checksum = 0
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for i in range(8, len(bitlist) + 1, 8):
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checksum += self.bits2num(bitlist[i-8:i])
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return checksum % 256
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def __init__(self):
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self.reset()
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def reset(self):
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self.samplerate = None
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self.reset_variables()
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def start(self):
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self.out_ann = self.register(srd.OUTPUT_ANN)
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def metadata(self, key, value):
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if key != srd.SRD_CONF_SAMPLERATE:
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return
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self.samplerate = value
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# Convert microseconds to sample counts.
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self.cnt = {}
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for e in timing:
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self.cnt[e] = {}
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for t in timing[e]:
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self.cnt[e][t] = timing[e][t] * self.samplerate / 1000000
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def handle_byte(self, bit):
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self.bits.append(bit)
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self.putfs([2, ['Bit: %d' % bit, '%d' % bit]])
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self.fall = self.samplenum
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self.state = 'WAIT FOR BIT HIGH'
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if len(self.bits) % 8 == 0:
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byte = self.bits2num(self.bits[-8:])
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self.putb([4, ['Byte: %#04x' % byte, '%#04x' % byte]])
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if len(self.bits) == 16:
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h = self.calculate_humidity(self.bits[-16:])
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self.putv([5, ['Humidity: %.1f %%' % h, 'RH = %.1f %%' % h]])
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elif len(self.bits) == 32:
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t = self.calculate_temperature(self.bits[-16:])
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self.putv([6, ['Temperature: %.1f °C' % t, 'T = %.1f °C' % t]])
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elif len(self.bits) == 40:
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parity = self.bits2num(self.bits[-8:])
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if parity == self.calculate_checksum(self.bits[0:32]):
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self.putb([7, ['Checksum: OK', 'OK']])
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else:
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self.putb([7, ['Checksum: not OK', 'NOK']])
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self.state = 'WAIT FOR END'
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self.bytepos.append(self.samplenum)
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def decode(self):
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if not self.samplerate:
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raise SamplerateError('Cannot decode without samplerate.')
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while True:
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# State machine.
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if self.state == 'WAIT FOR START LOW':
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self.wait({0: 'f'})
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self.fall = self.samplenum
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self.state = 'WAIT FOR START HIGH'
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elif self.state == 'WAIT FOR START HIGH':
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self.wait({0: 'r'})
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if self.is_valid('START LOW'):
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self.rise = self.samplenum
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self.state = 'WAIT FOR RESPONSE LOW'
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else:
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self.reset_variables()
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elif self.state == 'WAIT FOR RESPONSE LOW':
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self.wait({0: 'f'})
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if self.is_valid('START HIGH'):
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self.putfs([0, ['Start', 'S']])
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self.fall = self.samplenum
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self.state = 'WAIT FOR RESPONSE HIGH'
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else:
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self.reset_variables()
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elif self.state == 'WAIT FOR RESPONSE HIGH':
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self.wait({0: 'r'})
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if self.is_valid('RESPONSE LOW'):
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self.rise = self.samplenum
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self.state = 'WAIT FOR FIRST BIT'
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else:
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self.reset_variables()
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elif self.state == 'WAIT FOR FIRST BIT':
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self.wait({0: 'f'})
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if self.is_valid('RESPONSE HIGH'):
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self.putfs([1, ['Response', 'R']])
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self.fall = self.samplenum
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self.bytepos.append(self.samplenum)
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self.state = 'WAIT FOR BIT HIGH'
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else:
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self.reset_variables()
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elif self.state == 'WAIT FOR BIT HIGH':
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self.wait({0: 'r'})
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if self.is_valid('BIT LOW'):
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self.rise = self.samplenum
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self.state = 'WAIT FOR BIT LOW'
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else:
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self.reset_variables()
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elif self.state == 'WAIT FOR BIT LOW':
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self.wait({0: 'f'})
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if self.is_valid('BIT 0 HIGH'):
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bit = 0
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elif self.is_valid('BIT 1 HIGH'):
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bit = 1
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else:
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self.reset_variables()
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continue
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self.handle_byte(bit)
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elif self.state == 'WAIT FOR END':
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self.wait({0: 'r'})
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self.putfs([3, ['End', 'E']])
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self.reset_variables()
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