def test__cut_block_by_epochs(self):
epoch = Epoch([0.5, 10.0, 25.2] * pq.s,
durations=[5.1, 4.8, 5.0] * pq.s,
t_start=.1 * pq.s)
epoch.annotate(epoch_type='a', pick='me')
epoch.array_annotate(trial_id=[1, 2, 3])
epoch2 = Epoch([0.6, 9.5, 16.8, 34.1] * pq.s,
durations=[4.5, 4.8, 5.0, 5.0] * pq.s,
t_start=.1 * pq.s)
epoch2.annotate(epoch_type='b')
epoch2.array_annotate(trial_id=[1, 2, 3, 4])
event = Event(times=[0.5, 10.0, 25.2] * pq.s, t_start=.1 * pq.s)
event.annotate(event_type='trial start')
event.array_annotate(trial_id=[1, 2, 3])
anasig = AnalogSignal(np.arange(50.0) * pq.mV,
t_start=.1 * pq.s,
sampling_rate=1.0 * pq.Hz)
st = SpikeTrain(
np.arange(0.5, 50, 7) * pq.s,
t_start=.1 * pq.s,
t_stop=50.0 * pq.s,
waveforms=np.array(
[[[0., 1.], [0.1, 1.1]], [[2., 3.], [2.1, 3.1]],
[[4., 5.], [4.1, 5.1]], [[6., 7.], [6.1, 7.1]],
[[8., 9.], [8.1, 9.1]], [[12., 13.], [12.1, 13.1]],
[[14., 15.], [14.1, 15.1]], [[16., 17.], [16.1, 17.1]]]) *
pq.mV,
array_annotations={'spikenum': np.arange(1, 9)})
seg = Segment()
seg2 = Segment(name='NoCut')
seg.epochs = [epoch, epoch2]
seg.events = [event]
seg.analogsignals = [anasig]
seg.spiketrains = [st]
block = Block()
block.segments = [seg, seg2]
block.create_many_to_one_relationship()
# test without resetting the time
cut_block_by_epochs(block, properties={'pick': 'me'})
assert_neo_object_is_compliant(block)
self.assertEqual(len(block.segments), 3)
for epoch_idx in range(len(epoch)):
self.assertEqual(len(block.segments[epoch_idx].events), 1)
self.assertEqual(len(block.segments[epoch_idx].spiketrains), 1)
self.assertEqual(len(block.segments[epoch_idx].analogsignals), 1)
if epoch_idx != 0:
self.assertEqual(len(block.segments[epoch_idx].epochs), 0)
else:
self.assertEqual(len(block.segments[epoch_idx].epochs), 1)
assert_same_attributes(
block.segments[epoch_idx].spiketrains[0],
st.time_slice(t_start=epoch.times[epoch_idx],
t_stop=epoch.times[epoch_idx] +
epoch.durations[epoch_idx]))
assert_same_attributes(
block.segments[epoch_idx].analogsignals[0],
anasig.time_slice(t_start=epoch.times[epoch_idx],
t_stop=epoch.times[epoch_idx] +
epoch.durations[epoch_idx]))
assert_same_attributes(
block.segments[epoch_idx].events[0],
event.time_slice(t_start=epoch.times[epoch_idx],
t_stop=epoch.times[epoch_idx] +
epoch.durations[epoch_idx]))
assert_same_attributes(
block.segments[0].epochs[0],
epoch2.time_slice(t_start=epoch.times[0],
t_stop=epoch.times[0] + epoch.durations[0]))
seg = Segment()
seg2 = Segment(name='NoCut')
seg.epochs = [epoch, epoch2]
seg.events = [event]
seg.analogsignals = [anasig]
seg.spiketrains = [st]
block = Block()
block.segments = [seg, seg2]
block.create_many_to_one_relationship()
# test with resetting the time
cut_block_by_epochs(block, properties={'pick': 'me'}, reset_time=True)
assert_neo_object_is_compliant(block)
self.assertEqual(len(block.segments), 3)
for epoch_idx in range(len(epoch)):
self.assertEqual(len(block.segments[epoch_idx].events), 1)
self.assertEqual(len(block.segments[epoch_idx].spiketrains), 1)
self.assertEqual(len(block.segments[epoch_idx].analogsignals), 1)
if epoch_idx != 0:
self.assertEqual(len(block.segments[epoch_idx].epochs), 0)
else:
self.assertEqual(len(block.segments[epoch_idx].epochs), 1)
assert_same_attributes(
block.segments[epoch_idx].spiketrains[0],
st.duplicate_with_new_data(
st.times - epoch.times[epoch_idx],
t_start=st.t_start - epoch.times[epoch_idx]).time_slice(
t_start=0 * pq.s, t_stop=epoch.durations[epoch_idx]))
anasig_target = anasig.copy()
anasig_target.t_start = st.t_start - epoch.times[epoch_idx]
anasig_target = anasig_target.time_slice(
t_start=0 * pq.s, t_stop=epoch.durations[epoch_idx])
assert_same_attributes(block.segments[epoch_idx].analogsignals[0],
anasig_target)
assert_same_attributes(
block.segments[epoch_idx].events[0],
event.duplicate_with_new_data(
event.times - epoch.times[epoch_idx],
event.labels).time_slice(
t_start=0 * pq.s, t_stop=epoch.durations[epoch_idx]))
assert_same_attributes(
block.segments[0].epochs[0],
epoch2.duplicate_with_new_data(
epoch2.times - epoch.times[0], epoch2.durations,
epoch2.labels).time_slice(t_start=0 * pq.s,
t_stop=epoch.durations[0]))
