Example #1
0
def test_probegroup():
    probegroup = ProbeGroup()

    for i in range(3):
        probe = generate_dummy_probe()
        probe.move([i * 100, i * 80])
        probegroup.add_probe(probe)

    indices = probegroup.get_global_device_channel_indices()
    ids = probegroup.get_global_electrode_ids()

    df = probegroup.to_dataframe()
Example #2
0
def test_probegroup():
    probegroup = ProbeGroup()

    nchan = 0
    for i in range(3):
        probe = generate_dummy_probe()
        probe.move([i * 100, i * 80])
        n = probe.get_contact_count()
        probe.set_device_channel_indices(np.arange(n)[::-1] + nchan)
        shank_ids = np.ones(n)
        shank_ids[:n // 2] *= i * 2
        shank_ids[n // 2:] *= i * 2 + 1
        probe.set_shank_ids(shank_ids)
        probegroup.add_probe(probe)

        nchan += n

    indices = probegroup.get_global_device_channel_indices()

    ids = probegroup.get_global_contact_ids()

    df = probegroup.to_dataframe()
    #~ print(df['global_contact_ids'])

    arr = probegroup.to_numpy(complete=False)
    other = ProbeGroup.from_numpy(arr)
    arr = probegroup.to_numpy(complete=True)
    other = ProbeGroup.from_numpy(arr)

    d = probegroup.to_dict()
    other = ProbeGroup.from_dict(d)

    #~ from probeinterface.plotting import plot_probe_group, plot_probe
    #~ import matplotlib.pyplot as plt
    #~ plot_probe_group(probegroup)
    #~ plot_probe_group(other)
    #~ plt.show()

    # checking automatic generation of ids with new dummy probes
    probegroup.probes = []
    for i in range(3):
        probegroup.add_probe(generate_dummy_probe())
    probegroup.auto_generate_contact_ids()
    probegroup.auto_generate_probe_ids()

    for p in probegroup.probes:
        assert p.contact_ids is not None
        assert 'probe_id' in p.annotations
from probeinterface.plotting import plot_probe, plot_probe_group

##############################################################################
# Generate 4 tetrodes:
# 

from probeinterface import generate_tetrode

probegroup = ProbeGroup()
for i in range(4):
    tetrode = generate_tetrode()
    tetrode.move([i * 50, 0])
    probegroup.add_probe(tetrode)
probegroup.set_global_device_channel_indices(np.arange(16))

df = probegroup.to_dataframe()
df

plot_probe_group(probegroup, with_channel_index=True, same_axes=True)

##############################################################################
# Generate a linear probe:
# 

from probeinterface import generate_linear_probe

linear_probe = generate_linear_probe(num_elec=16, ypitch=20)
plot_probe(linear_probe, with_channel_index=True)

##############################################################################
# Generate a multi-column probe: