def start(self):
self.startedge = 0 if self.options['polarity'] == 'active-low' else 1
self.out_ann = self.register(srd.OUTPUT_ANN)
- self.out_bin = self.register(srd.OUTPUT_BINARY)
+ self.out_binary = self.register(srd.OUTPUT_BINARY)
self.out_average = \
self.register(srd.OUTPUT_META,
meta=(float, 'Average', 'PWM base (cycle) frequency'))
def putp(self, period_t):
# Adjust granularity.
if period_t == 0 or period_t >= 1:
- period_s = u'%u s' % (period_t)
+ period_s = '%.1f s' % (period_t)
elif period_t <= 1e-12:
- period_s = u'%.1f fs' % (period_t * 1e15)
+ period_s = '%.1f fs' % (period_t * 1e15)
elif period_t <= 1e-9:
- period_s = u'%.1f ps' % (period_t * 1e12)
+ period_s = '%.1f ps' % (period_t * 1e12)
elif period_t <= 1e-6:
- period_s = u'%.1f ns' % (period_t * 1e9)
+ period_s = '%.1f ns' % (period_t * 1e9)
elif period_t <= 1e-3:
- period_s = u'%.1f μs' % (period_t * 1e6)
+ period_s = '%.1f μs' % (period_t * 1e6)
else:
- period_s = u'%.1f ms' % (period_t * 1e3)
+ period_s = '%.1f ms' % (period_t * 1e3)
self.put(self.ss, self.es, self.out_ann, [1, [period_s]])
def putb(self, data):
- self.put(self.num_cycles, self.num_cycles, self.out_bin, data)
+ self.put(self.num_cycles, self.num_cycles, self.out_binary, data)
def decode(self, ss, es, data):
self.putx([0, ['%f%%' % percent]])
# Report the duty cycle in the binary output.
- self.putb((0, bytes([int(ratio * 256)])))
+ self.putb([0, bytes([int(ratio * 256)])])
# Report the period in units of time.
period_t = float(period / self.samplerate)