# -*- coding: utf-8 -*- """ Tests of neo.io.nixio_fr """ from __future__ import absolute_import import numpy as np import unittest from neo.io.nixio_fr import NixIO as NixIOfr import quantities as pq from neo.io.nixio import NixIO from neo.test.iotest.common_io_test import BaseTestIO from neo.test.iotest.tools import get_test_file_full_path try: import nixio as nix HAVE_NIX = True except ImportError: HAVE_NIX = False @unittest.skipUnless(HAVE_NIX, "Requires NIX") class TestNixfr(BaseTestIO, unittest.TestCase, ): ioclass = NixIOfr files_to_test = ['nixio_fr.nix'] files_to_download = ['nixio_fr.nix'] def setUp(self): super(TestNixfr, self).setUp() self.testfilename = self.get_filename_path('nixio_fr.nix') self.reader_fr = NixIOfr(filename=self.testfilename) self.reader_norm = NixIO(filename=self.testfilename, mode='ro') self.blk = self.reader_fr.read_block(block_index=1, load_waveforms=True) # read block with NixIOfr self.blk1 = self.reader_norm.read_block(index=1) # read same block with NixIO def tearDown(self): self.reader_fr.file.close() self.reader_norm.close() def test_check_same_neo_structure(self): self.assertEqual(len(self.blk.segments), len(self.blk1.segments)) for seg1, seg2 in zip(self.blk.segments, self.blk1.segments): self.assertEqual(len(seg1.analogsignals), len(seg2.analogsignals)) self.assertEqual(len(seg1.spiketrains), len(seg2.spiketrains)) self.assertEqual(len(seg1.events), len(seg2.events)) self.assertEqual(len(seg1.epochs), len(seg2.epochs)) def test_check_same_data_content(self): for seg1, seg2 in zip(self.blk.segments, self.blk1.segments): for asig1, asig2 in zip(seg1.analogsignals, seg2.analogsignals): np.testing.assert_almost_equal(asig1.magnitude, asig2.magnitude) # not completely equal for st1, st2 in zip(seg1.spiketrains, seg2.spiketrains): np.testing.assert_array_equal(st1.magnitude, st2.times) for wf1, wf2 in zip(st1.waveforms, st2.waveforms): np.testing.assert_array_equal(wf1.shape, wf2.shape) np.testing.assert_almost_equal(wf1.magnitude, wf2.magnitude) for ev1, ev2 in zip(seg1.events, seg2.events): np.testing.assert_almost_equal(ev1.times, ev2.times) assert np.all(ev1.labels == ev2.labels) for ep1, ep2 in zip(seg1.epochs, seg2.epochs): assert len(ep1.durations) == len(ep2.times) np.testing.assert_almost_equal(ep1.times, ep2.times) np.testing.assert_array_equal(ep1.durations, ep2.durations) np.testing.assert_array_equal(ep1.labels, ep2.labels) # Not testing for channel_index as rawio always read from seg for chid1, chid2 in zip(self.blk.channel_indexes, self.blk1.channel_indexes): for asig1, asig2 in zip(chid1.analogsignals, chid2.analogsignals): np.testing.assert_almost_equal(asig1.magnitude, asig2.magnitude) def test_analog_signal(self): seg1 = self.blk.segments[0] an_sig1 = seg1.analogsignals[0] assert len(an_sig1) == 30 an_sig2 = seg1.analogsignals[1] assert an_sig2.shape == (50, 3) def test_spike_train(self): st1 = self.blk.segments[0].spiketrains[0] assert np.all(st1.times == np.cumsum(np.arange(0, 1, 0.1)).tolist() * pq.s + 10 * pq.s) def test_event(self): seg1 = self.blk.segments[0] event1 = seg1.events[0] raw_time = 10 + np.cumsum(np.array([0, 1, 2, 3, 4])) assert np.all(event1.times == np.array(raw_time * pq.s / 1000)) assert np.all(event1.labels == np.array([b'A', b'B', b'C', b'D', b'E'])) assert len(seg1.events) == 1 def test_epoch(self): seg1 = self.blk.segments[1] seg2 = self.blk1.segments[1] epoch1 = seg1.epochs[0] epoch2 = seg2.epochs[0] assert len(epoch1.durations) == len(epoch1.times) assert np.all(epoch1.durations == epoch2.durations) assert np.all(epoch1.labels == epoch2.labels) if __name__ == '__main__': unittest.main()