def test_cov_scaling(): """Test rescaling covs""" evoked = read_evokeds(ave_fname, condition=0, baseline=(None, 0), proj=True) cov = read_cov(cov_fname)['data'] cov2 = read_cov(cov_fname)['data'] assert_array_equal(cov, cov2) evoked.pick_channels([evoked.ch_names[k] for k in pick_types( evoked.info, meg=True, eeg=True )]) picks_list = _picks_by_type(evoked.info) scalings = dict(mag=1e15, grad=1e13, eeg=1e6) _apply_scaling_cov(cov2, picks_list, scalings=scalings) _apply_scaling_cov(cov, picks_list, scalings=scalings) assert_array_equal(cov, cov2) assert_true(cov.max() > 1) _undo_scaling_cov(cov2, picks_list, scalings=scalings) _undo_scaling_cov(cov, picks_list, scalings=scalings) assert_array_equal(cov, cov2) assert_true(cov.max() < 1) data = evoked.data.copy() _apply_scaling_array(data, picks_list, scalings=scalings) _undo_scaling_array(data, picks_list, scalings=scalings) assert_allclose(data, evoked.data, atol=1e-20)
def test_cov_scaling(): """Test rescaling covs""" evoked = read_evokeds(ave_fname, condition=0, baseline=(None, 0), proj=True) cov = read_cov(cov_fname)['data'] cov2 = read_cov(cov_fname)['data'] assert_array_equal(cov, cov2) evoked.pick_channels([ evoked.ch_names[k] for k in pick_types(evoked.info, meg=True, eeg=True) ]) picks_list = _picks_by_type(evoked.info) scalings = dict(mag=1e15, grad=1e13, eeg=1e6) _apply_scaling_cov(cov2, picks_list, scalings=scalings) _apply_scaling_cov(cov, picks_list, scalings=scalings) assert_array_equal(cov, cov2) assert_true(cov.max() > 1) _undo_scaling_cov(cov2, picks_list, scalings=scalings) _undo_scaling_cov(cov, picks_list, scalings=scalings) assert_array_equal(cov, cov2) assert_true(cov.max() < 1) data = evoked.data.copy() _apply_scaling_array(data, picks_list, scalings=scalings) _undo_scaling_array(data, picks_list, scalings=scalings) assert_allclose(data, evoked.data, atol=1e-20)
def test_cov_scaling(): """Test rescaling covs.""" evoked = read_evokeds(ave_fname, condition=0, baseline=(None, 0), proj=True) cov = read_cov(cov_fname)['data'] cov2 = read_cov(cov_fname)['data'] assert_array_equal(cov, cov2) evoked.pick_channels([evoked.ch_names[k] for k in pick_types( evoked.info, meg=True, eeg=True )]) picks_list = _picks_by_type(evoked.info) scalings = dict(mag=1e15, grad=1e13, eeg=1e6) _apply_scaling_cov(cov2, picks_list, scalings=scalings) _apply_scaling_cov(cov, picks_list, scalings=scalings) assert_array_equal(cov, cov2) assert cov.max() > 1 _undo_scaling_cov(cov2, picks_list, scalings=scalings) _undo_scaling_cov(cov, picks_list, scalings=scalings) assert_array_equal(cov, cov2) assert cov.max() < 1 data = evoked.data.copy() _apply_scaling_array(data, picks_list, scalings=scalings) _undo_scaling_array(data, picks_list, scalings=scalings) assert_allclose(data, evoked.data, atol=1e-20) # check that input data remain unchanged. gh-5698 _regularized_covariance(data) assert_array_almost_equal(data, evoked.data)