示例#1
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def test_eFELFeature_force_max_score():
    """ephys.efeatures: Testing eFELFeature force_max_score option"""

    recording_names = {'': 'square_pulse_step1.soma.v'}

    response = TimeVoltageResponse('mock_response')
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)),
                         'testdata')
    response.read_csv(joinp(testdata_dir, 'TimeVoltageResponse.csv'))
    responses = {
        'square_pulse_step1.soma.v': response,
    }

    efeature_normal = efeatures.eFELFeature(name='test_eFELFeature',
                                            efel_feature_name='voltage_base',
                                            recording_names=recording_names,
                                            stim_start=700,
                                            stim_end=2700,
                                            exp_mean=1,
                                            exp_std=.001)
    score_normal = efeature_normal.calculate_score(responses)
    nt.assert_true(score_normal > 250)

    efeature_force = efeatures.eFELFeature(name='test_eFELFeature',
                                           efel_feature_name='voltage_base',
                                           recording_names=recording_names,
                                           stim_start=700,
                                           stim_end=2700,
                                           exp_mean=1,
                                           exp_std=.001,
                                           force_max_score=True)

    score_force = efeature_force.calculate_score(responses)
    nt.assert_almost_equal(score_force, 250)
示例#2
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def test_eFELFeature():
    """ephys.efeatures: Testing eFELFeature creation"""
    recording_names = {'': 'square_pulse_step1.soma.v'}
    efeature = efeatures.eFELFeature(name='test_eFELFeature',
                                     efel_feature_name='voltage_base',
                                     recording_names=recording_names,
                                     stim_start=700,
                                     stim_end=2700,
                                     exp_mean=1,
                                     exp_std=1)

    response = TimeVoltageResponse('mock_response')
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)),
                         'testdata')
    response.read_csv(joinp(testdata_dir, 'TimeVoltageResponse.csv'))
    responses = {
        'square_pulse_step1.soma.v': response,
    }

    ret = efeature.calculate_feature(responses, raise_warnings=True)
    nt.assert_almost_equal(ret, -72.0575843859)

    score = efeature.calculate_score(responses)
    nt.assert_almost_equal(score, 73.05758438592171)

    nt.eq_(efeature.name, 'test_eFELFeature')
    nt.ok_('voltage_base' in str(efeature))
示例#3
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def test_eFELFeature_max_score():
    """ephys.efeatures: Testing eFELFeature max_score option"""

    recording_names = {'': 'square_pulse_step1.soma.v'}

    response = TimeVoltageResponse('mock_response')
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)),
                         'testdata')
    response.read_csv(joinp(testdata_dir, 'TimeVoltageResponse.csv'))
    responses = {
        'square_pulse_step1.soma.v': response,
    }

    efeature_normal = efeatures.eFELFeature(name='test_eFELFeature',
                                            efel_feature_name='AP_amplitude',
                                            recording_names=recording_names,
                                            stim_start=600,
                                            stim_end=700,
                                            exp_mean=1,
                                            exp_std=1)
    score_normal = efeature_normal.calculate_score(responses)
    nt.assert_almost_equal(score_normal, 250)

    efeature_150 = efeatures.eFELFeature(name='test_eFELFeature',
                                         efel_feature_name='AP_amplitude',
                                         recording_names=recording_names,
                                         stim_start=600,
                                         stim_end=700,
                                         exp_mean=1,
                                         exp_std=1,
                                         max_score=150)

    score_150 = efeature_150.calculate_score(responses)
    nt.assert_almost_equal(score_150, 150)
示例#4
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def test_eFELFeature_double_settings():
    """ephys.efeatures: Testing eFELFeature double_settings"""
    recording_names = {'': 'square_pulse_step1.soma.v'}
    efeature = efeatures.eFELFeature(name='test_eFELFeature',
                                     efel_feature_name='voltage_base',
                                     recording_names=recording_names,
                                     stim_start=700,
                                     stim_end=2700,
                                     exp_mean=1,
                                     exp_std=1)
    efeature_ds = efeatures.eFELFeature(
        name='test_eFELFeature_other_perc',
        efel_feature_name='voltage_base',
        recording_names=recording_names,
        stim_start=700,
        stim_end=2700,
        exp_mean=1,
        exp_std=1,
        double_settings={'voltage_base_start_perc': 0.01})

    response = TimeVoltageResponse('mock_response')
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)),
                         'testdata')
    response.read_csv(joinp(testdata_dir, 'TimeVoltageResponse.csv'))
    responses = {
        'square_pulse_step1.soma.v': response,
    }

    vb_other_perc = efeature_ds.calculate_feature(responses,
                                                  raise_warnings=True)
    vb = efeature.calculate_feature(responses, raise_warnings=True)

    nt.assert_true(vb_other_perc != vb)
示例#5
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def test_eFELFeature_int_settings():
    """ephys.efeatures: Testing eFELFeature int_settings"""
    recording_names = {'': 'square_pulse_step1.soma.v'}
    efeature = efeatures.eFELFeature(name='test_eFELFeature',
                                     efel_feature_name='Spikecount',
                                     recording_names=recording_names,
                                     stim_start=1200,
                                     stim_end=2000,
                                     exp_mean=1,
                                     exp_std=1)
    efeature_strict = efeatures.eFELFeature(
        name='test_eFELFeature_strict',
        efel_feature_name='Spikecount',
        recording_names=recording_names,
        stim_start=1200,
        stim_end=2000,
        exp_mean=1,
        exp_std=1,
        int_settings={'strict_stiminterval': True})

    response = TimeVoltageResponse('mock_response')
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)),
                         'testdata')
    response.read_csv(joinp(testdata_dir, 'TimeVoltageResponse.csv'))
    responses = {
        'square_pulse_step1.soma.v': response,
    }

    spikecount = efeature.calculate_feature(responses)
    spikecount_strict = efeature_strict.calculate_feature(responses)

    nt.assert_true(spikecount_strict != spikecount)
示例#6
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def test_eFELFeature():
    """ephys.efeatures: Testing eFELFeature creation"""
    recording_names = {"": "square_pulse_step1.soma.v"}
    efeature = efeatures.eFELFeature(
        name="test_eFELFeature",
        efel_feature_name="voltage_base",
        recording_names=recording_names,
        stim_start=700,
        stim_end=2700,
        exp_mean=1,
        exp_std=1,
    )

    response = TimeVoltageResponse("mock_response")
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)),
                         "testdata")
    response.read_csv(joinp(testdata_dir, "TimeVoltageResponse.csv"))
    responses = {
        "square_pulse_step1.soma.v": response,
    }

    ret = efeature.calculate_feature(responses, raise_warnings=True)
    nt.assert_almost_equal(ret, -72.0576124731685)

    score = efeature.calculate_score(responses)
    nt.assert_almost_equal(score, 73.05761247316)

    nt.eq_(efeature.name, "test_eFELFeature")
    nt.ok_("voltage_base" in str(efeature))
示例#7
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def test_eFELFeature_string_settings():
    """ephys.efeatures: Testing eFELFeature string_settings"""
    recording_names = {'': 'square_pulse_step1.soma.v'}
    efeature = efeatures.eFELFeature(name='test_eFELFeature_vb_default',
                                     efel_feature_name='voltage_base',
                                     recording_names=recording_names,
                                     stim_start=700,
                                     stim_end=2700)
    efeature_median = efeatures.eFELFeature(
        name='test_eFELFeature_vb_median',
        efel_feature_name='voltage_base',
        recording_names=recording_names,
        stim_start=700,
        stim_end=2700,
        string_settings={
            'voltage_base_mode': "median"})

    response = TimeVoltageResponse('mock_response')
    testdata_dir = joinp(
        os.path.dirname(
            os.path.abspath(__file__)),
        'testdata')
    response.read_csv(joinp(testdata_dir, 'TimeVoltageResponse.csv'))
    responses = {'square_pulse_step1.soma.v': response, }

    vb_median = efeature_median.calculate_feature(
        responses,
        raise_warnings=True)
    vb_default = efeature.calculate_feature(responses, raise_warnings=True)

    assert vb_median != vb_default
示例#8
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def test_eFELFeature_int_settings():
    """ephys.efeatures: Testing eFELFeature int_settings"""
    recording_names = {"": "square_pulse_step1.soma.v"}
    efeature = efeatures.eFELFeature(
        name="test_eFELFeature",
        efel_feature_name="Spikecount",
        recording_names=recording_names,
        stim_start=1200,
        stim_end=2000,
        exp_mean=1,
        exp_std=1,
    )
    efeature_strict = efeatures.eFELFeature(
        name="test_eFELFeature_strict",
        efel_feature_name="Spikecount",
        recording_names=recording_names,
        stim_start=1200,
        stim_end=2000,
        exp_mean=1,
        exp_std=1,
        int_settings={"strict_stiminterval": True},
    )

    response = TimeVoltageResponse("mock_response")
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)),
                         "testdata")
    response.read_csv(joinp(testdata_dir, "TimeVoltageResponse.csv"))
    responses = {
        "square_pulse_step1.soma.v": response,
    }

    spikecount = efeature.calculate_feature(responses)
    spikecount_strict = efeature_strict.calculate_feature(responses)

    nt.assert_true(spikecount_strict != spikecount)
示例#9
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def test_eFELFeature_double_settings():
    """ephys.efeatures: Testing eFELFeature double_settings"""
    recording_names = {'': 'square_pulse_step1.soma.v'}
    efeature = efeatures.eFELFeature(name='test_eFELFeature',
                                     efel_feature_name='voltage_base',
                                     recording_names=recording_names,
                                     stim_start=700,
                                     stim_end=2700,
                                     exp_mean=1,
                                     exp_std=1)
    efeature_ds = efeatures.eFELFeature(
        name='test_eFELFeature_other_perc',
        efel_feature_name='voltage_base',
        recording_names=recording_names,
        stim_start=700,
        stim_end=2700,
        exp_mean=1,
        exp_std=1,
        double_settings={
            'voltage_base_start_perc': 0.01})

    response = TimeVoltageResponse('mock_response')
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)), 'testdata')
    response.read_csv(joinp(testdata_dir, 'TimeVoltageResponse.csv'))
    responses = {'square_pulse_step1.soma.v': response, }

    vb_other_perc = efeature_ds.calculate_feature(
        responses,
        raise_warnings=True)
    vb = efeature.calculate_feature(responses, raise_warnings=True)

    nt.assert_true(vb_other_perc != vb)
示例#10
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def test_eFELFeature_force_max_score():
    """ephys.efeatures: Testing eFELFeature force_max_score option"""

    recording_names = {"": "square_pulse_step1.soma.v"}

    response = TimeVoltageResponse("mock_response")
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)),
                         "testdata")
    response.read_csv(joinp(testdata_dir, "TimeVoltageResponse.csv"))
    responses = {
        "square_pulse_step1.soma.v": response,
    }

    efeature_normal = efeatures.eFELFeature(
        name="test_eFELFeature",
        efel_feature_name="voltage_base",
        recording_names=recording_names,
        stim_start=700,
        stim_end=2700,
        exp_mean=1,
        exp_std=0.001,
    )
    score_normal = efeature_normal.calculate_score(responses)
    nt.assert_true(score_normal > 250)

    efeature_force = efeatures.eFELFeature(
        name="test_eFELFeature",
        efel_feature_name="voltage_base",
        recording_names=recording_names,
        stim_start=700,
        stim_end=2700,
        exp_mean=1,
        exp_std=0.001,
        force_max_score=True,
    )

    score_force = efeature_force.calculate_score(responses)
    nt.assert_almost_equal(score_force, 250)
示例#11
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def test_eFELFeature():
    """ephys.efeatures: Testing eFELFeature creation"""
    recording_names = {'': 'square_pulse_step1.soma.v'}
    efeature = efeatures.eFELFeature(name='test_eFELFeature',
                                     efel_feature_name='voltage_base',
                                     recording_names=recording_names,
                                     stim_start=700,
                                     stim_end=2700,
                                     exp_mean=1,
                                     exp_std=1)

    response = TimeVoltageResponse('mock_response')
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)), 'testdata')
    response.read_csv(joinp(testdata_dir, 'TimeVoltageResponse.csv'))
    responses = {'square_pulse_step1.soma.v': response, }

    ret = efeature.calculate_feature(responses, raise_warnings=True)
    nt.assert_almost_equal(ret, -72.069487699766668)

    score = efeature.calculate_score(responses)
    nt.assert_almost_equal(score, 73.06948769976667)

    nt.eq_(efeature.name, 'test_eFELFeature')
    nt.ok_('voltage_base' in str(efeature))
示例#12
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def test_eFELFeature_double_settings():
    """ephys.efeatures: Testing eFELFeature double_settings"""
    recording_names = {"": "square_pulse_step1.soma.v"}
    efeature = efeatures.eFELFeature(
        name="test_eFELFeature",
        efel_feature_name="voltage_base",
        recording_names=recording_names,
        stim_start=700,
        stim_end=2700,
        exp_mean=1,
        exp_std=1,
    )
    efeature_ds = efeatures.eFELFeature(
        name="test_eFELFeature_other_perc",
        efel_feature_name="voltage_base",
        recording_names=recording_names,
        stim_start=700,
        stim_end=2700,
        exp_mean=1,
        exp_std=1,
        double_settings={"voltage_base_start_perc": 0.01},
    )

    response = TimeVoltageResponse("mock_response")
    testdata_dir = joinp(os.path.dirname(os.path.abspath(__file__)),
                         "testdata")
    response.read_csv(joinp(testdata_dir, "TimeVoltageResponse.csv"))
    responses = {
        "square_pulse_step1.soma.v": response,
    }

    vb_other_perc = efeature_ds.calculate_feature(responses,
                                                  raise_warnings=True)
    vb = efeature.calculate_feature(responses, raise_warnings=True)

    nt.assert_true(vb_other_perc != vb)