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- """
- README
- ===============================================================================
- This is an adapter to represent stfio objects as neo objects.
- stfio is a standalone file i/o Python module that ships with the Stimfit
- program (http://www.stimfit.org). It's a Python wrapper around Stimfit's file
- i/o library (libstfio) that natively provides support for the following file
- types:
- - ABF (Axon binary file format; pClamp 6--9)
- - ABF2 (Axon binary file format 2; pClamp 10+)
- - ATF (Axon text file format)
- - AXGX/AXGD (Axograph X file format)
- - CFS (Cambridge electronic devices filing system)
- - HEKA (HEKA binary file format)
- - HDF5 (Hierarchical data format 5; only hdf5 files written by Stimfit or
- stfio are supported)
- In addition, libstfio can use the biosig file i/o library as an additional file
- handling backend (http://biosig.sourceforge.net/), extending support to more
- than 30 additional file formats (http://pub.ist.ac.at/~schloegl/biosig/TESTED).
- Based on exampleio.py and axonio.py from neo.io
- 08 Feb 2014, C. Schmidt-Hieber, University College London
- """
- import numpy as np
- import quantities as pq
- from neo.io.baseio import BaseIO
- from neo.core import Block, Segment, AnalogSignal
- try:
- import stfio
- except ImportError as err:
- HAS_STFIO = False
- STFIO_ERR = err
- else:
- HAS_STFIO = True
- STFIO_ERR = None
- class StimfitIO(BaseIO):
- """
- Class for converting a stfio Recording to a Neo object.
- Provides a standardized representation of the data as defined by the neo
- project; this is useful to explore the data with an increasing number of
- electrophysiology software tools that rely on the Neo standard.
- stfio is a standalone file i/o Python module that ships with the Stimfit
- program (http://www.stimfit.org). It is a Python wrapper around Stimfit's file
- i/o library (libstfio) that natively provides support for the following file
- types:
- - ABF (Axon binary file format; pClamp 6--9)
- - ABF2 (Axon binary file format 2; pClamp 10+)
- - ATF (Axon text file format)
- - AXGX/AXGD (Axograph X file format)
- - CFS (Cambridge electronic devices filing system)
- - HEKA (HEKA binary file format)
- - HDF5 (Hierarchical data format 5; only hdf5 files written by Stimfit or
- stfio are supported)
- In addition, libstfio can use the biosig file i/o library as an additional file
- handling backend (http://biosig.sourceforge.net/), extending support to more
- than 30 additional file formats (http://pub.ist.ac.at/~schloegl/biosig/TESTED).
- Example usage:
- >>> import neo
- >>> neo_obj = neo.io.StimfitIO("file.abf")
- or
- >>> import stfio
- >>> stfio_obj = stfio.read("file.abf")
- >>> neo_obj = neo.io.StimfitIO(stfio_obj)
- """
- is_readable = True
- is_writable = False
- supported_objects = [Block, Segment, AnalogSignal]
- readable_objects = [Block]
- writeable_objects = []
- has_header = False
- is_streameable = False
- read_params = {Block: []}
- write_params = None
- name = 'Stimfit'
- extensions = ['abf', 'dat', 'axgx', 'axgd', 'cfs']
- mode = 'file'
- def __init__(self, filename=None):
- """
- Arguments:
- filename : Either a filename or a stfio Recording object
- """
- if not HAS_STFIO:
- raise STFIO_ERR
- BaseIO.__init__(self)
- if hasattr(filename, 'lower'):
- self.filename = filename
- self.stfio_rec = None
- else:
- self.stfio_rec = filename
- self.filename = None
- def read_block(self, lazy=False):
- assert not lazy, 'Do not support lazy'
- if self.filename is not None:
- self.stfio_rec = stfio.read(self.filename)
- bl = Block()
- bl.description = self.stfio_rec.file_description
- bl.annotate(comment=self.stfio_rec.comment)
- try:
- bl.rec_datetime = self.stfio_rec.datetime
- except:
- bl.rec_datetime = None
- dt = np.round(self.stfio_rec.dt * 1e-3, 9) * pq.s # ms to s
- sampling_rate = 1.0 / dt
- t_start = 0 * pq.s
- # iterate over sections first:
- for j, recseg in enumerate(self.stfio_rec[0]):
- seg = Segment(index=j)
- length = len(recseg)
- # iterate over channels:
- for i, recsig in enumerate(self.stfio_rec):
- name = recsig.name
- unit = recsig.yunits
- try:
- pq.Quantity(1, unit)
- except:
- unit = ''
- signal = pq.Quantity(recsig[j], unit)
- anaSig = AnalogSignal(signal, sampling_rate=sampling_rate,
- t_start=t_start, name=str(name),
- channel_index=i)
- seg.analogsignals.append(anaSig)
- bl.segments.append(seg)
- t_start = t_start + length * dt
- bl.create_many_to_one_relationship()
- return bl
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