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- # -*- coding: utf-8 -*-
- """
- Class for reading/writing data from micromed (.trc).
- Inspired by the Matlab code for EEGLAB from Rami K. Niazy.
- Completed with matlab Guillaume BECQ code.
- Supported : Read
- Author: sgarcia
- """
- import datetime
- import os
- import struct
- # file no longer exists in Python3
- try:
- file
- except NameError:
- import io
- file = io.BufferedReader
- import numpy as np
- import quantities as pq
- from neo.io.baseio import BaseIO
- from neo.core import Segment, AnalogSignal, Epoch, Event
- class StructFile(file):
- def read_f(self, fmt):
- return struct.unpack(fmt, self.read(struct.calcsize(fmt)))
- class MicromedIO(BaseIO):
- """
- Class for reading data from micromed (.trc).
- Usage:
- >>> from neo import io
- >>> r = io.MicromedIO(filename='File_micromed_1.TRC')
- >>> seg = r.read_segment(lazy=False, cascade=True)
- >>> print seg.analogsignals # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE
- [<AnalogSignal(array([ -1.77246094e+02, -2.24707031e+02,
- -2.66015625e+02, ...
- """
- is_readable = True
- is_writable = False
- supported_objects = [Segment, AnalogSignal, Event, Epoch]
- readable_objects = [Segment]
- writeable_objects = []
- has_header = False
- is_streameable = False
- read_params = {Segment: []}
- write_params = None
- name = None
- extensions = ['TRC']
- mode = 'file'
- def __init__(self, filename=None):
- """
- This class read a micromed TRC file.
- Arguments:
- filename : the filename to read
- """
- BaseIO.__init__(self)
- self.filename = filename
- def read_segment(self, cascade=True, lazy=False, ):
- """
- Arguments:
- """
- f = StructFile(self.filename, 'rb')
- # Name
- f.seek(64, 0)
- surname = f.read(22)
- while surname[-1] == ' ':
- if len(surname) == 0:
- break
- surname = surname[:-1]
- firstname = f.read(20)
- while firstname[-1] == ' ':
- if len(firstname) == 0:
- break
- firstname = firstname[:-1]
- #Date
- f.seek(128, 0)
- day, month, year, hour, minute, sec = f.read_f('bbbbbb')
- rec_datetime = datetime.datetime(year + 1900, month, day, hour, minute,
- sec)
- f.seek(138, 0)
- Data_Start_Offset, Num_Chan, Multiplexer, Rate_Min, Bytes = f.read_f(
- 'IHHHH')
- #~ print Num_Chan, Bytes
- #header version
- f.seek(175, 0)
- header_version, = f.read_f('b')
- assert header_version == 4
- seg = Segment(name=firstname + ' ' + surname,
- file_origin=os.path.basename(self.filename))
- seg.annotate(surname=surname)
- seg.annotate(firstname=firstname)
- seg.annotate(rec_datetime=rec_datetime)
- if not cascade:
- return seg
- # area
- f.seek(176, 0)
- zone_names = ['ORDER', 'LABCOD', 'NOTE', 'FLAGS', 'TRONCA', 'IMPED_B',
- 'IMPED_E', 'MONTAGE',
- 'COMPRESS', 'AVERAGE', 'HISTORY', 'DVIDEO', 'EVENT A',
- 'EVENT B', 'TRIGGER']
- zones = {}
- for zname in zone_names:
- zname2, pos, length = f.read_f('8sII')
- zones[zname] = zname2, pos, length
- #~ print zname2, pos, length
- # reading raw data
- if not lazy:
- f.seek(Data_Start_Offset, 0)
- rawdata = np.fromstring(f.read(), dtype='u' + str(Bytes))
- rawdata = rawdata.reshape((rawdata.size / Num_Chan, Num_Chan))
- # Reading Code Info
- zname2, pos, length = zones['ORDER']
- f.seek(pos, 0)
- code = np.fromfile(f, dtype='u2', count=Num_Chan)
- units = {-1: pq.nano * pq.V, 0: pq.uV, 1: pq.mV, 2: 1, 100: pq.percent,
- 101: pq.dimensionless, 102: pq.dimensionless}
- for c in range(Num_Chan):
- zname2, pos, length = zones['LABCOD']
- f.seek(pos + code[c] * 128 + 2, 0)
- label = f.read(6).strip("\x00")
- ground = f.read(6).strip("\x00")
- (logical_min, logical_max, logical_ground, physical_min,
- physical_max) = f.read_f('iiiii')
- k, = f.read_f('h')
- if k in units.keys():
- unit = units[k]
- else:
- unit = pq.uV
- f.seek(8, 1)
- sampling_rate, = f.read_f('H') * pq.Hz
- sampling_rate *= Rate_Min
- if lazy:
- signal = [] * unit
- else:
- factor = float(physical_max - physical_min) / float(
- logical_max - logical_min + 1)
- signal = (rawdata[:, c].astype(
- 'f') - logical_ground) * factor * unit
- ana_sig = AnalogSignal(signal, sampling_rate=sampling_rate,
- name=label, channel_index=c)
- if lazy:
- ana_sig.lazy_shape = None
- ana_sig.annotate(ground=ground)
- seg.analogsignals.append(ana_sig)
- sampling_rate = np.mean(
- [ana_sig.sampling_rate for ana_sig in seg.analogsignals]) * pq.Hz
- # Read trigger and notes
- for zname, label_dtype in [('TRIGGER', 'u2'), ('NOTE', 'S40')]:
- zname2, pos, length = zones[zname]
- f.seek(pos, 0)
- triggers = np.fromstring(f.read(length), dtype=[('pos', 'u4'), (
- 'label', label_dtype)])
- if not lazy:
- keep = (triggers['pos'] >= triggers['pos'][0]) & (
- triggers['pos'] < rawdata.shape[0]) & (
- triggers['pos'] != 0)
- triggers = triggers[keep]
- ea = Event(name=zname[0] + zname[1:].lower(),
- labels=triggers['label'].astype('S'),
- times=(triggers['pos'] / sampling_rate).rescale('s'))
- else:
- ea = Event(name=zname[0] + zname[1:].lower())
- ea.lazy_shape = triggers.size
- seg.events.append(ea)
- # Read Event A and B
- # Not so well tested
- for zname in ['EVENT A', 'EVENT B']:
- zname2, pos, length = zones[zname]
- f.seek(pos, 0)
- epochs = np.fromstring(f.read(length),
- dtype=[('label', 'u4'), ('start', 'u4'),
- ('stop', 'u4'), ])
- ep = Epoch(name=zname[0] + zname[1:].lower())
- if not lazy:
- keep = (epochs['start'] > 0) & (
- epochs['start'] < rawdata.shape[0]) & (
- epochs['stop'] < rawdata.shape[0])
- epochs = epochs[keep]
- ep = Epoch(name=zname[0] + zname[1:].lower(),
- labels=epochs['label'].astype('S'),
- times=(epochs['start'] / sampling_rate).rescale('s'),
- durations=((epochs['stop'] - epochs['start']) / sampling_rate).rescale('s'))
- else:
- ep = Epoch(name=zname[0] + zname[1:].lower())
- ep.lazy_shape = triggers.size
- seg.epochs.append(ep)
- seg.create_many_to_one_relationship()
- return seg
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