def _hp_lp_rev(*args, **kwargs): out, orig_units = _read_edf_header(*args, **kwargs) out['lowpass'], out['highpass'] = out['highpass'], out['lowpass'] # this will happen for test_edf_stim_resamp.edf if len(out['lowpass']) and out['lowpass'][0] == '0.000' and \ len(out['highpass']) and out['highpass'][0] == '0.0': out['highpass'][0] = '10.0' return out, orig_units
def _get_empty_raw_with_valid_annot(fname): raw = _RawShell() raw.first_samp = 0 edf_info, orig_units = _read_edf_header(fname=fname, annot=None, annotmap=None, exclude=()) sfreq = _compute_sfreq_from_edf_info(edf_info) raw.info = _empty_info(sfreq) raw.info['meas_date'] = edf_info['meas_date'] def _time_as_index(times, use_rounding, origin): if use_rounding: return np.round(np.atleast_1d(times) * sfreq) else: return np.floor(np.atleast_1d(times) * sfreq) raw.time_as_index = _time_as_index return raw
def _get_empty_raw_with_valid_annot(fname): raw = _RawShell() raw.first_samp = 0 edf_info = _read_edf_header(fname=fname, annot=None, annotmap=None, exclude=()) sfreq = _compute_sfreq_from_edf_info(edf_info) raw.info = _empty_info(sfreq) raw.info['meas_date'] = edf_info['meas_date'] def _time_as_index(times, use_rounding, origin): if use_rounding: return np.round(np.atleast_1d(times) * sfreq) else: return np.floor(np.atleast_1d(times) * sfreq) raw.time_as_index = _time_as_index return raw