from typing import Tuple import numpy as np import pytest # FIXME: Make this just be the output of the provider by patching into import machinery from nwb_linkml.models.pydantic.core.v2_7_0.namespace import ( Device, DynamicTable, DynamicTableRegion, ElectricalSeries, ElectrodeGroup, ExtracellularEphysElectrodes, Units, VectorIndex, ) @pytest.fixture() def electrical_series() -> Tuple["ElectricalSeries", "ExtracellularEphysElectrodes"]: """ Demo electrical series with adjoining electrodes """ n_electrodes = 5 n_times = 100 data = np.arange(0, n_electrodes * n_times).reshape(n_times, n_electrodes).astype(float) timestamps = np.linspace(0, 1, n_times) device = Device(name="my electrode") # electrode group is the physical description of the electrodes electrode_group = ElectrodeGroup( name="GroupA", device=device, description="an electrode group", location="you know where it is", ) # make electrodes tables electrodes = ExtracellularEphysElectrodes( description="idk these are also electrodes", id=np.arange(0, n_electrodes), x=np.arange(0, n_electrodes).astype(float), y=np.arange(n_electrodes, n_electrodes * 2).astype(float), group=[electrode_group] * n_electrodes, group_name=[electrode_group.name] * n_electrodes, location=[str(i) for i in range(n_electrodes)], extra_column=["sup"] * n_electrodes, ) electrical_series = ElectricalSeries( name="my recording!", electrodes=DynamicTableRegion( table=electrodes, value=np.arange(n_electrodes - 1, -1, step=-1), name="electrodes", description="hey", ), timestamps=timestamps, data=data, ) return electrical_series, electrodes def _ragged_array(n_units: int) -> tuple[list[np.ndarray], np.ndarray]: generator = np.random.default_rng() spike_times = [ np.full(shape=generator.integers(10, 50), fill_value=i, dtype=float) for i in range(n_units) ] spike_idx = [] for i in range(n_units): if i == 0: spike_idx.append(len(spike_times[0])) else: spike_idx.append(len(spike_times[i]) + spike_idx[i - 1]) spike_idx = np.array(spike_idx) return spike_times, spike_idx @pytest.fixture(params=[True, False]) def units(request) -> Tuple[Units, list[np.ndarray], np.ndarray]: """ Test case for units Parameterized by extra_column because pandas likes to pivot dataframes to long when there is only one column and it's not len() == 1 """ spike_times, spike_idx = _ragged_array(24) spike_times_flat = np.concatenate(spike_times) kwargs = { "description": "units!!!!", "spike_times": spike_times_flat, "spike_times_index": spike_idx, } if request.param: kwargs["extra_column"] = ["hey!"] * 24 units = Units(**kwargs) return units, spike_times, spike_idx def test_dynamictable_indexing(electrical_series): """ Can index values from a dynamictable """ series, electrodes = electrical_series colnames = [ "id", "x", "y", "group", "group_name", "location", "extra_column", ] dtypes = [ np.dtype("int64"), np.dtype("float64"), np.dtype("float64"), ] + ([np.dtype("O")] * 4) row = electrodes[0] # successfully get a single row :) assert row.shape == (1, 7) assert row.dtypes.values.tolist() == dtypes assert row.columns.tolist() == colnames # slice a range of rows rows = electrodes[0:3] assert rows.shape == (3, 7) assert rows.dtypes.values.tolist() == dtypes assert rows.columns.tolist() == colnames # get a single column col = electrodes["y"] assert all(col == [5, 6, 7, 8, 9]) # get a single cell val = electrodes[0, "y"] assert val == 5 val = electrodes[0, 2] assert val == 5 # get a slice of rows and columns subsection = electrodes[0:3, 0:3] assert subsection.shape == (3, 3) assert subsection.columns.tolist() == colnames[0:3] assert subsection.dtypes.values.tolist() == dtypes[0:3] def test_dynamictable_region_basic(electrical_series): """ DynamicTableRegion should be able to refer to a row or rows of another table itself as a column within a table """ series, electrodes = electrical_series row = series.electrodes[0] # check that we correctly got the 4th row instead of the 0th row, # since the indexed table was constructed with inverted indexes because it's a test, ya dummy. # we will only vaguely check the basic functionality here bc # a) the indexing behavior of the indexed objects is tested above, and # b) every other object in the chain is strictly validated, # so we assume if we got a right shaped df that it is the correct one. # feel free to @ me when i am wrong about this assert row.id == 4 assert row.shape == (1, 7) # and we should still be preserving the model that is the contents of the cell of this row # so this is a dataframe row with a column "group" that contains an array of ElectrodeGroup # objects and that's as far as we are going to chase the recursion in this basic indexing test # ElectrodeGroup is strictly validating so an instance check is all we need. assert isinstance(row.group.values[0], ElectrodeGroup) # getting a list of table rows is actually correct behavior here because # this list of table rows is actually the cell of another table rows = series.electrodes[0:3] assert all([row.id == idx for row, idx in zip(rows, [4, 3, 2])]) def test_dynamictable_region_ragged(): """ Dynamictables can also have indexes so that they are ragged arrays of column rows """ spike_times, spike_idx = _ragged_array(24) spike_times_flat = np.concatenate(spike_times) # construct a secondary index that selects overlapping segments of the first table value = np.array([0, 1, 2, 1, 2, 3, 2, 3, 4]) idx = np.array([3, 6, 9]) table = DynamicTable( name="table", description="a table what else would it be", id=np.arange(len(spike_idx)), timeseries=spike_times, timeseries_index=spike_idx, ) region = DynamicTableRegion( name="dynamictableregion", description="this field should be optional", table=table, value=value, ) index = VectorIndex(name="index", description="hgggggggjjjj", target=region, value=idx) region._index = index rows = region[1] # i guess this is right? # the region should be a set of three rows of the table, with a ragged array column timeseries # like... # # id timeseries # 0 1 [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, ... # 1 2 [2.0, 2.0, 2.0, 2.0, 2.0, 2.0, 2.0, 2.0, 2.0, ... # 2 3 [3.0, 3.0, 3.0, 3.0, 3.0, 3.0, 3.0, 3.0, 3.0, ... assert rows.shape(3, 2) assert all(rows.id == [1, 2, 3]) assert all([all(row[1].timeseries == i) for i, row in zip([1, 2, 3], rows.iterrows())]) def test_dynamictable_ragged(units): """ Should be able to index ragged arrays using an implicit _index column Also tests: - passing arrays directly instead of wrapping in vectordata/index specifically, if the models in the fixture instantiate then this works """ units, spike_times, spike_idx = units # ensure we don't pivot to long when indexing assert units[0].shape[0] == 1 # check that we got the indexing boundaries corrunect # (and that we are forwarding attr calls to the dataframe by accessing shape for i in range(units.shape[0]): assert np.all(units.iloc[i, 0] == spike_times[i]) def test_dynamictable_append_column(): pass def test_dynamictable_append_row(): pass