def test__time_slice(self): time_slice = [.5, 5.6] * pq.s 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) irrsig = IrregularlySampledSignal(signal=np.arange(50.0) * pq.mV, times=anasig.times, t_start=.1 * pq.s) 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() seg.epochs = [epoch2] seg.events = [event] seg.analogsignals = [anasig] seg.irregularlysampledsignals = [irrsig] seg.spiketrains = [st] block = Block() block.segments = [seg] block.create_many_to_one_relationship() # test without resetting the time sliced = seg.time_slice(time_slice[0], time_slice[1]) assert_neo_object_is_compliant(sliced) self.assertEqual(len(sliced.events), 1) self.assertEqual(len(sliced.spiketrains), 1) self.assertEqual(len(sliced.analogsignals), 1) self.assertEqual(len(sliced.irregularlysampledsignals), 1) self.assertEqual(len(sliced.epochs), 1) assert_same_attributes( sliced.spiketrains[0], st.time_slice(t_start=time_slice[0], t_stop=time_slice[1])) assert_same_attributes( sliced.analogsignals[0], anasig.time_slice(t_start=time_slice[0], t_stop=time_slice[1])) assert_same_attributes( sliced.irregularlysampledsignals[0], irrsig.time_slice(t_start=time_slice[0], t_stop=time_slice[1])) assert_same_attributes( sliced.events[0], event.time_slice(t_start=time_slice[0], t_stop=time_slice[1])) assert_same_attributes( sliced.epochs[0], epoch2.time_slice(t_start=time_slice[0], t_stop=time_slice[1])) seg = Segment() seg.epochs = [epoch2] seg.events = [event] seg.analogsignals = [anasig] seg.irregularlysampledsignals = [irrsig] seg.spiketrains = [st] block = Block() block.segments = [seg] block.create_many_to_one_relationship() # test with resetting the time sliced = seg.time_slice(time_slice[0], time_slice[1], reset_time=True) assert_neo_object_is_compliant(sliced) self.assertEqual(len(sliced.events), 1) self.assertEqual(len(sliced.spiketrains), 1) self.assertEqual(len(sliced.analogsignals), 1) self.assertEqual(len(sliced.irregularlysampledsignals), 1) self.assertEqual(len(sliced.epochs), 1) assert_same_attributes( sliced.spiketrains[0], st.time_shift(-time_slice[0]).time_slice(t_start=0 * pq.s, t_stop=time_slice[1] - time_slice[0])) anasig_target = anasig.copy() anasig_target = anasig_target.time_shift(-time_slice[0]).time_slice( t_start=0 * pq.s, t_stop=time_slice[1] - time_slice[0]) assert_same_attributes(sliced.analogsignals[0], anasig_target) irrsig_target = irrsig.copy() irrsig_target = irrsig_target.time_shift(-time_slice[0]).time_slice( t_start=0 * pq.s, t_stop=time_slice[1] - time_slice[0]) assert_same_attributes(sliced.irregularlysampledsignals[0], irrsig_target) assert_same_attributes( sliced.events[0], event.time_shift(-time_slice[0]).time_slice(t_start=0 * pq.s, t_stop=time_slice[1] - time_slice[0])) assert_same_attributes( sliced.epochs[0], epoch2.time_shift(-time_slice[0]).time_slice(t_start=0 * pq.s, t_stop=time_slice[1] - time_slice[0])) seg = Segment() reader = ExampleRawIO(filename='my_filename.fake') reader.parse_header() proxy_anasig = AnalogSignalProxy(rawio=reader, stream_index=0, inner_stream_channels=None, block_index=0, seg_index=0) seg.analogsignals.append(proxy_anasig) proxy_st = SpikeTrainProxy(rawio=reader, spike_channel_index=0, block_index=0, seg_index=0) seg.spiketrains.append(proxy_st) proxy_event = EventProxy(rawio=reader, event_channel_index=0, block_index=0, seg_index=0) seg.events.append(proxy_event) proxy_epoch = EpochProxy(rawio=reader, event_channel_index=1, block_index=0, seg_index=0) proxy_epoch.annotate(pick='me') seg.epochs.append(proxy_epoch) loaded_epoch = proxy_epoch.load() loaded_event = proxy_event.load() loaded_st = proxy_st.load() loaded_anasig = proxy_anasig.load() block = Block() block.segments = [seg] block.create_many_to_one_relationship() # test with proxy objects sliced = seg.time_slice(time_slice[0], time_slice[1]) assert_neo_object_is_compliant(sliced) sliced_event = loaded_event.time_slice(t_start=time_slice[0], t_stop=time_slice[1]) has_event = len(sliced_event) > 0 sliced_anasig = loaded_anasig.time_slice(t_start=time_slice[0], t_stop=time_slice[1]) sliced_st = loaded_st.time_slice(t_start=time_slice[0], t_stop=time_slice[1]) self.assertEqual(len(sliced.events), int(has_event)) self.assertEqual(len(sliced.spiketrains), 1) self.assertEqual(len(sliced.analogsignals), 1) self.assertTrue(isinstance(sliced.spiketrains[0], SpikeTrain)) assert_same_attributes(sliced.spiketrains[0], sliced_st) self.assertTrue(isinstance(sliced.analogsignals[0], AnalogSignal)) assert_same_attributes(sliced.analogsignals[0], sliced_anasig) if has_event: self.assertTrue(isinstance(sliced.events[0], Event)) assert_same_attributes(sliced.events[0], sliced_event)
class BaseProxyTest(unittest.TestCase): def setUp(self): self.reader = ExampleRawIO(filename='my_filename.fake') self.reader.parse_header()
def test_times(self): for seg in [self.seg1, self.seg2]: # calculate target values for t_start and t_stop t_starts, t_stops = [], [] for children in [ seg.analogsignals, seg.epochs, seg.events, seg.irregularlysampledsignals, seg.spiketrains ]: for child in children: if hasattr(child, 't_start'): t_starts.append(child.t_start) if hasattr(child, 't_stop'): t_stops.append(child.t_stop) if hasattr(child, 'time'): t_starts.append(child.time) t_stops.append(child.time) if hasattr(child, 'times'): t_starts.append(child.times[0]) t_stops.append(child.times[-1]) targ_t_start = min(t_starts) targ_t_stop = max(t_stops) self.assertEqual(seg.t_start, targ_t_start) self.assertEqual(seg.t_stop, targ_t_stop) # Testing times with ProxyObjects seg = Segment() reader = ExampleRawIO(filename='my_filename.fake') reader.parse_header() proxy_anasig = AnalogSignalProxy(rawio=reader, stream_index=0, inner_stream_channels=None, block_index=0, seg_index=0) seg.analogsignals.append(proxy_anasig) proxy_st = SpikeTrainProxy(rawio=reader, spike_channel_index=0, block_index=0, seg_index=0) seg.spiketrains.append(proxy_st) proxy_event = EventProxy(rawio=reader, event_channel_index=0, block_index=0, seg_index=0) seg.events.append(proxy_event) proxy_epoch = EpochProxy(rawio=reader, event_channel_index=1, block_index=0, seg_index=0) seg.epochs.append(proxy_epoch) t_starts, t_stops = [], [] for children in [ seg.analogsignals, seg.epochs, seg.events, seg.irregularlysampledsignals, seg.spiketrains ]: for child in children: if hasattr(child, 't_start'): t_starts.append(child.t_start) if hasattr(child, 't_stop'): t_stops.append(child.t_stop) if hasattr(child, 'time'): t_starts.append(child.time) t_stops.append(child.time) if hasattr(child, 'times'): t_starts.append(child.times[0]) t_stops.append(child.times[-1]) targ_t_start = min(t_starts) targ_t_stop = max(t_stops) self.assertEqual(seg.t_start, targ_t_start) self.assertEqual(seg.t_stop, targ_t_stop)