tri_sss_ctc_cal_fname = op.join(triux_path, 'triux_bmlhus_erm_ctc_cal_raw_sss.fif') tri_sss_ctc_cal_reg_in_fname = op.join( triux_path, 'triux_bmlhus_erm_ctc_cal_regIn_raw_sss.fif') tri_ctc_fname = op.join(triux_path, 'ct_sparse_BMLHUS.fif') tri_cal_fname = op.join(triux_path, 'sss_cal_BMLHUS.dat') io_dir = op.join(op.dirname(__file__), '..', '..', 'io') fname_ctf_raw = op.join(io_dir, 'tests', 'data', 'test_ctf_comp_raw.fif') int_order, ext_order = 8, 3 mf_head_origin = (0., 0., 0.04) mf_meg_origin = (0., 0.013, -0.006) # otherwise we can get SVD error requires_svd_convergence = requires_version('scipy', '0.12') # 30 random bad MEG channels (20 grad, 10 mag) that were used in generation bads = [ 'MEG0912', 'MEG1722', 'MEG2213', 'MEG0132', 'MEG1312', 'MEG0432', 'MEG2433', 'MEG1022', 'MEG0442', 'MEG2332', 'MEG0633', 'MEG1043', 'MEG1713', 'MEG0422', 'MEG0932', 'MEG1622', 'MEG1343', 'MEG0943', 'MEG0643', 'MEG0143', 'MEG2142', 'MEG0813', 'MEG2143', 'MEG1323', 'MEG0522', 'MEG1123', 'MEG0423', 'MEG2122', 'MEG2532', 'MEG0812' ] def _assert_n_free(raw_sss, lower, upper=None): """Check the DOF.""" upper = lower if upper is None else upper n_free = raw_sss.info['proc_history'][0]['max_info']['sss_info']['nfree']
tri_cal_fname = op.join(triux_path, 'sss_cal_BMLHUS.dat') io_dir = op.join(op.dirname(__file__), '..', '..', 'io') fname_ctf_raw = op.join(io_dir, 'tests', 'data', 'test_ctf_comp_raw.fif') # In some of the tests, use identical coil defs to what is used in # MaxFilter elekta_def_fname = op.join(op.dirname(mne.__file__), 'data', 'coil_def_Elekta.dat') int_order, ext_order = 8, 3 mf_head_origin = (0., 0., 0.04) mf_meg_origin = (0., 0.013, -0.006) # otherwise we can get SVD error requires_svd_convergence = requires_version('scipy', '0.12') # 30 random bad MEG channels (20 grad, 10 mag) that were used in generation bads = ['MEG0912', 'MEG1722', 'MEG2213', 'MEG0132', 'MEG1312', 'MEG0432', 'MEG2433', 'MEG1022', 'MEG0442', 'MEG2332', 'MEG0633', 'MEG1043', 'MEG1713', 'MEG0422', 'MEG0932', 'MEG1622', 'MEG1343', 'MEG0943', 'MEG0643', 'MEG0143', 'MEG2142', 'MEG0813', 'MEG2143', 'MEG1323', 'MEG0522', 'MEG1123', 'MEG0423', 'MEG2122', 'MEG2532', 'MEG0812'] def _assert_n_free(raw_sss, lower, upper=None): """Check the DOF.""" upper = lower if upper is None else upper n_free = raw_sss.info['proc_history'][0]['max_info']['sss_info']['nfree'] assert lower <= n_free <= upper, \ 'nfree fail: %s <= %s <= %s' % (lower, n_free, upper)
bases_fname = op.join(sss_path, "sss_data.mat") fine_cal_fname = op.join(sss_path, "sss_cal_3053.dat") fine_cal_fname_3d = op.join(sss_path, "sss_cal_3053_3d.dat") ctc_fname = op.join(sss_path, "ct_sparse.fif") fine_cal_mgh_fname = op.join(sss_path, "sss_cal_mgh.dat") ctc_mgh_fname = op.join(sss_path, "ct_sparse_mgh.fif") sample_fname = op.join(data_path, "MEG", "sample", "sample_audvis_trunc_raw.fif") int_order, ext_order = 8, 3 mf_head_origin = (0.0, 0.0, 0.04) mf_meg_origin = (0.0, 0.013, -0.006) # otherwise we can get SVD error requires_svd_convergence = requires_version("scipy", "0.12") # 30 random bad MEG channels (20 grad, 10 mag) that were used in generation bads = [ "MEG0912", "MEG1722", "MEG2213", "MEG0132", "MEG1312", "MEG0432", "MEG2433", "MEG1022", "MEG0442", "MEG2332", "MEG0633", "MEG1043",