def test__construct_subsegment_by_unit(self): nb_seg = 3 nb_unit = 7 unit_with_sig = [0, 2, 5] signal_types = ['Vm', 'Conductances'] sig_len = 100 #recordingchannelgroups rcgs = [ RecordingChannelGroup(name = 'Vm', channel_indexes = unit_with_sig), RecordingChannelGroup(name = 'Conductance', channel_indexes = unit_with_sig), ] # Unit all_unit = [ ] for u in range(nb_unit): un = Unit(name = 'Unit #%d' % u, channel_indexes = [u]) all_unit.append(un) bl = Block() for s in range(nb_seg): seg = Segment(name = 'Simulation %s' % s) for j in range(nb_unit): st = SpikeTrain([1, 2, 3], units = 'ms', t_start = 0., t_stop = 10) st.unit = all_unit[j] for t in signal_types: anasigarr = AnalogSignalArray( np.zeros((sig_len, len(unit_with_sig)) ), units = 'nA', sampling_rate = 1000.*pq.Hz, channel_indexes = unit_with_sig ) seg.analogsignalarrays.append(anasigarr) # what you want subseg = seg.construct_subsegment_by_unit(all_unit[:4])
def test__construct_subsegment_by_unit(self): nb_seg = 3 nb_unit = 7 unit_with_sig = np.array([0, 2, 5]) signal_types = ['Vm', 'Conductances'] sig_len = 100 # channelindexes chxs = [ChannelIndex(name='Vm', index=unit_with_sig), ChannelIndex(name='Conductance', index=unit_with_sig)] # Unit all_unit = [] for u in range(nb_unit): un = Unit(name='Unit #%d' % u, channel_indexes=np.array([u])) assert_neo_object_is_compliant(un) all_unit.append(un) blk = Block() blk.channel_indexes = chxs for s in range(nb_seg): seg = Segment(name='Simulation %s' % s) for j in range(nb_unit): st = SpikeTrain([1, 2], units='ms', t_start=0., t_stop=10) st.unit = all_unit[j] for t in signal_types: anasigarr = AnalogSignal(np.zeros((sig_len, len(unit_with_sig))), units='nA', sampling_rate=1000. * pq.Hz, channel_indexes=unit_with_sig) seg.analogsignals.append(anasigarr) blk.create_many_to_one_relationship() for unit in all_unit: assert_neo_object_is_compliant(unit) for chx in chxs: assert_neo_object_is_compliant(chx) assert_neo_object_is_compliant(blk) # what you want newseg = seg.construct_subsegment_by_unit(all_unit[:4]) assert_neo_object_is_compliant(newseg)
def test__construct_subsegment_by_unit(self): nb_seg = 3 nb_unit = 7 unit_with_sig = np.array([0, 2, 5]) signal_types = ['Vm', 'Conductances'] sig_len = 100 # channelindexes chxs = [ChannelIndex(name='Vm', index=unit_with_sig), ChannelIndex(name='Conductance', index=unit_with_sig)] # Unit all_unit = [] for u in range(nb_unit): un = Unit(name='Unit #%d' % u, channel_indexes=np.array([u])) assert_neo_object_is_compliant(un) all_unit.append(un) blk = Block() blk.channel_indexes = chxs for s in range(nb_seg): seg = Segment(name='Simulation %s' % s) for j in range(nb_unit): st = SpikeTrain([1, 2], units='ms', t_start=0., t_stop=10) st.unit = all_unit[j] for t in signal_types: anasigarr = AnalogSignal(np.zeros((sig_len, len(unit_with_sig))), units='nA', sampling_rate=1000.*pq.Hz, channel_indexes=unit_with_sig) seg.analogsignals.append(anasigarr) blk.create_many_to_one_relationship() for unit in all_unit: assert_neo_object_is_compliant(unit) for chx in chxs: assert_neo_object_is_compliant(chx) assert_neo_object_is_compliant(blk) # what you want newseg = seg.construct_subsegment_by_unit(all_unit[:4]) assert_neo_object_is_compliant(newseg)