self.oldpins = None
self.oldval = None
self.samplenum = 0
- self.bit_start = 0
- self.bit_start_old = 0
- self.bit_end = 0
+ self.ss_bit = self.ss_bit_old = self.es_bit = 0
self.bitcount = 0 # Counter for the DCF77 bits (0..58)
self.dcf77_bitnumber_is_known = 0
pass
def putx(self, data):
- self.put(self.bit_start, self.bit_end, self.out_ann, data)
+ self.put(self.ss_bit, self.es_bit, self.out_ann, data)
# TODO: Which range to use? Only the 100ms/200ms or full second?
def handle_dcf77_bit(self, bit):
continue
# Save the sample number where the DCF77 bit begins.
- self.bit_start = self.samplenum
+ self.ss_bit = self.samplenum
# Calculate the length (in ms) between two rising edges.
- len_edges = self.bit_start - self.bit_start_old
+ len_edges = self.ss_bit - self.ss_bit_old
len_edges_ms = int((len_edges / self.samplerate) * 1000)
# The time between two rising edges is usually around 1000ms.
# beginning of a new minute (and DCF77 bit 0 of that minute).
if len_edges_ms in range(1600, 2400 + 1):
self.bitcount = 0
- self.bit_start_old = self.bit_start
+ self.ss_bit_old = self.ss_bit
self.dcf77_bitnumber_is_known = 1
- self.bit_start_old = self.bit_start
+ self.ss_bit_old = self.ss_bit
self.state = 'GET BIT'
elif self.state == 'GET BIT':
continue
# Save the sample number where the DCF77 bit ends.
- self.bit_end = self.samplenum
+ self.es_bit = self.samplenum
# Calculate the length (in ms) of the current high period.
- len_high = self.samplenum - self.bit_start
+ len_high = self.samplenum - self.ss_bit
len_high_ms = int((len_high / self.samplerate) * 1000)
# If the high signal was 100ms long, that encodes a 0 bit.
projects / libsigrokdecode.git / commitdiff