('start-bit', 'Start bit'),
('si-bit', 'SI bit'),
('so-bit', 'SO bit'),
- ('status-check', 'Status check'),
+ ('status-check-ready', 'Status check ready'),
+ ('status-check-busy', 'Status check busy'),
('warning', 'Warning'),
)
annotation_rows = (
('si-bits', 'SI bits', (0, 1)),
('so-bits', 'SO bits', (2,)),
- ('status', 'Status', (3,)),
- ('warnings', 'Warnings', (4,)),
+ ('status', 'Status', (3, 4)),
+ ('warnings', 'Warnings', (5,)),
)
def start(self):
cs, sk, si, so = self.wait({0: 'r'})
if sk:
self.put(self.samplenum, self.samplenum, self.out_ann,
- [4, ['Clock should be low on start',
+ [5, ['Clock should be low on start',
'Clock high on start', 'Clock high', 'SK high']])
sk = 0 # Enforce correct state for correct clock handling.
# Because we don't know if this is bit communication or a
if bit_so == 0 and change['so']:
# Rising edge Busy -> Ready.
self.put(start_samplenum, change['samplenum'],
- self.out_ann, [3, ['Busy', 'B']])
+ self.out_ann, [4, ['Busy', 'B']])
start_samplenum = change['samplenum']
bit_so = change['so']
# Put last state.
if bit_so == 0:
self.put(start_samplenum, packet[-1]['samplenum'],
- self.out_ann, [3, ['Busy', 'B']])
+ self.out_ann, [4, ['Busy', 'B']])
else:
self.put(start_samplenum, packet[-1]['samplenum'],
self.out_ann, [3, ['Ready', 'R']])
if bit_si == 0: # Start bit missing.
self.put(bit_start, change['samplenum'],
self.out_ann,
- [4, ['Start bit not high',
+ [5, ['Start bit not high',
'Start bit low']])
else:
self.put(bit_start, change['samplenum'],