- # -*- coding: utf-8 -*-
-
- from nd2reader.parser import get_parser
- from nd2reader.version import get_version
- import six
-
-
- class Nd2(object):
- """ Allows easy access to NIS Elements .nd2 image files. """
-
- def __init__(self, filename):
- self._filename = filename
- self._fh = open(filename, "rb")
- major_version, minor_version = get_version(self._fh)
- self._parser = get_parser(self._fh, major_version, minor_version)
- self._metadata = self._parser.metadata
-
- def __enter__(self):
- return self
-
- def __exit__(self, exc_type, exc_val, exc_tb):
- if self._fh is not None:
- self._fh.close()
-
- def __repr__(self):
- return "\n".join(["<ND2 %s>" % self._filename,
- "Created: %s" % (self.date if self.date is not None else "Unknown"),
- "Image size: %sx%s (HxW)" % (self.height, self.width),
- "Frames: %s" % len(self.frames),
- "Channels: %s" % ", ".join(["%s" % str(channel) for channel in self.channels]),
- "Fields of View: %s" % len(self.fields_of_view),
- "Z-Levels: %s" % len(self.z_levels)
- ])
-
- def __len__(self):
- """
- This should be the total number of images in the ND2, but it may be inaccurate. If the ND2 contains a
- different number of images in a cycle (i.e. there are "gap" images) it will be higher than reality.
-
- :rtype: int
-
- """
- return self._metadata.total_images_per_channel * len(self.channels)
-
- def __getitem__(self, item):
- """
- Allows slicing ND2s.
-
- :type item: int or slice
- :rtype: nd2reader.model.Image() or generator
-
- """
- if isinstance(item, int):
- try:
- image = self._parser.driver.get_image(item)
- except KeyError:
- raise IndexError
- else:
- return image
- elif isinstance(item, slice):
- return self._slice(item.start, item.stop, item.step)
- raise IndexError
-
- def _slice(self, start, stop, step):
- """
- Allows for iteration over a selection of the entire dataset.
-
- :type start: int
- :type stop: int
- :type step: int
- :rtype: nd2reader.model.Image()
-
- """
- start = start if start is not None else 0
- step = step if step is not None else 1
- stop = stop if stop is not None else len(self)
- # This weird thing with the step allows you to iterate backwards over the images
- for i in range(start, stop)[::step]:
- yield self[i]
-
- @property
- def camera_settings(self):
- return self._parser.camera_metadata
-
- @property
- def date(self):
- """
- The date and time that the acquisition began. Not guaranteed to have been recorded.
-
- :rtype: datetime.datetime() or None
-
- """
- return self._metadata.date
-
- @property
- def z_levels(self):
- """
- A list of integers that represent the different levels on the Z-axis that images were taken. Currently this is
- just a list of numbers from 0 to N. For example, an ND2 where images were taken at -3µm, 0µm, and +5µm from a
- set position would be represented by 0, 1 and 2, respectively. ND2s do store the actual offset of each image
- in micrometers and in the future this will hopefully be available. For now, however, you will have to match up
- the order yourself.
-
- :return: list of int
-
- """
- return self._metadata.z_levels
-
- @property
- def fields_of_view(self):
- """
- A list of integers representing the various stage locations, in the order they were taken in the first round
- of acquisition.
-
- :return: list of int
-
- """
- return self._metadata.fields_of_view
-
- @property
- def channels(self):
- """
- A list of channel (i.e. wavelength) names. These are set by the user in NIS Elements.
-
- :return: list of str
-
- """
- return self._metadata.channels
-
- @property
- def frames(self):
- """
- A list of integers representing groups of images. ND2s consider images to be part of the same frame if they
- are in the same field of view and don't have the same channel. So if you take a bright field and GFP image at
- four different fields of view over and over again, you'll have 8 images and 4 frames per cycle.
-
- :return: list of int
-
- """
- return self._metadata.frames
-
- @property
- def height(self):
- """
- The height of each image in pixels.
-
- :rtype: int
-
- """
- return self._metadata.height
-
- @property
- def width(self):
- """
- The width of each image in pixels.
-
- :rtype: int
-
- """
- return self._metadata.width
-
- def get_image(self, frame_number, field_of_view, channel_name, z_level):
- """
- Attempts to return the image with the unique combination of given attributes. None will be returned if a match
- is not found.
-
- :type frame_number: int
- :param field_of_view: the label for the place in the XY-plane where this image was taken.
- :type field_of_view: int
- :param channel_name: the name of the color of this image
- :type channel_name: str
- :param z_level: the label for the location in the Z-plane where this image was taken.
- :type z_level: int
-
- :rtype: nd2reader.model.Image() or None
-
- """
- return self._parser.driver.get_image_by_attributes(frame_number,
- field_of_view,
- channel_name,
- z_level,
- self.height,
- self.width)
-
- def filter(self, fields_of_view=None, channels=None, z_levels=None):
- """
- Iterates over images matching the given criteria. This can be 2-10 times faster than manually iterating over
- the Nd2 and checking the attributes of each image, as this method will not read from disk until a valid image is
- found.
-
- """
- fields_of_view = self._to_list(fields_of_view, self.fields_of_view)
- channels = self._to_list(channels, self.channels)
- z_levels = self._to_list(z_levels, self.z_levels)
-
- for frame in self.frames:
- for f in fields_of_view:
- for z in z_levels:
- for c in channels:
- image = self.get_image(frame, f, c, z)
- if image is not None:
- yield image
-
- def _to_list(self, value, default):
- value = default if value is None else value
- return [value] if isinstance(value, int) or isinstance(value, six.string_types) else value
-
- def close(self):
- """
- Closes the file handle to the image. This actually sometimes will prevent problems so it's good to do this or
- use Nd2 as a context manager.
-
- """
- self._fh.close()
- 1
|