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# -*- coding: utf-8 -*- |
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# -*- coding: utf-8 -*- |
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import array |
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from datetime import datetime |
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import logging |
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import logging |
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from nd2reader.model import Image, ImageSet |
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from nd2reader.model import Image, ImageSet |
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from nd2reader.parser import Nd2Parser |
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from nd2reader.parser import Nd2Parser |
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import re |
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import struct |
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log = logging.getLogger(__name__) |
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log = logging.getLogger(__name__) |
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log.addHandler(logging.StreamHandler()) |
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log.addHandler(logging.StreamHandler()) |
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@ -20,30 +17,30 @@ class Nd2(Nd2Parser): |
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def __repr__(self): |
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def __repr__(self): |
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return "\n".join(["ND2: %s" % self._filename, |
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return "\n".join(["ND2: %s" % self._filename, |
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"Created: %s" % self.absolute_start.strftime("%Y-%m-%d %H:%M:%S"), |
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"Created: %s" % self._absolute_start.strftime("%Y-%m-%d %H:%M:%S"), |
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"Image size: %sx%s (HxW)" % (self.height, self.width), |
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"Image size: %sx%s (HxW)" % (self.height, self.width), |
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"Image cycles: %s" % self.time_index_count, |
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"Channels: %s" % ", ".join(["'%s'" % channel for channel in self.channels]), |
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"Fields of View: %s" % self.field_of_view_count, |
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"Z-Levels: %s" % self.z_level_count |
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"Image cycles: %s" % self._time_index_count, |
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"Channels: %s" % ", ".join(["'%s'" % channel for channel in self._channels]), |
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"Fields of View: %s" % self._field_of_view_count, |
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"Z-Levels: %s" % self._z_level_count |
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]) |
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]) |
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def __iter__(self): |
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def __iter__(self): |
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for i in range(self._image_count): |
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for i in range(self._image_count): |
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for fov in range(self.field_of_view_count): |
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for z_level in range(self.z_level_count): |
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for channel_name in self.channels: |
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for fov in range(self._field_of_view_count): |
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for z_level in range(self._z_level_count): |
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for channel_name in self._channels: |
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image = self.get_image(i, fov, channel_name, z_level) |
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image = self.get_image(i, fov, channel_name, z_level) |
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if image is not None: |
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if image is not None: |
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yield image |
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yield image |
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@property |
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@property |
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def image_sets(self): |
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def image_sets(self): |
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for time_index in xrange(self.time_index_count): |
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for time_index in xrange(self._time_index_count): |
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image_set = ImageSet() |
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image_set = ImageSet() |
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for fov in range(self.field_of_view_count): |
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for channel_name in self.channels: |
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for z_level in xrange(self.z_level_count): |
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for fov in range(self._field_of_view_count): |
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for channel_name in self._channels: |
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for z_level in xrange(self._z_level_count): |
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image = self.get_image(time_index, fov, channel_name, z_level) |
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image = self.get_image(time_index, fov, channel_name, z_level) |
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if image is not None: |
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if image is not None: |
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image_set.add(image) |
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image_set.add(image) |
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@ -59,22 +56,6 @@ class Nd2(Nd2Parser): |
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else: |
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else: |
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return image |
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return image |
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@property |
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def channels(self): |
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metadata = self.metadata['ImageMetadataSeq']['SLxPictureMetadata']['sPicturePlanes'] |
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try: |
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validity = self.metadata['ImageMetadata']['SLxExperiment']['ppNextLevelEx'][''][0]['ppNextLevelEx'][''][0]['pItemValid'] |
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except KeyError: |
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# If none of the channels have been deleted, there is no validity list, so we just make one |
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validity = [True for _ in metadata] |
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# Channel information is contained in dictionaries with the keys a0, a1...an where the number |
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# indicates the order in which the channel is stored. So by sorting the dicts alphabetically |
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# we get the correct order. |
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for (label, chan), valid in zip(sorted(metadata['sPlaneNew'].items()), validity): |
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if not valid: |
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continue |
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yield chan['sDescription'] |
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@property |
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@property |
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def height(self): |
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def height(self): |
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""" |
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""" |
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@ -90,102 +71,3 @@ class Nd2(Nd2Parser): |
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""" |
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""" |
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return self.metadata['ImageAttributes']['SLxImageAttributes']['uiWidth'] |
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return self.metadata['ImageAttributes']['SLxImageAttributes']['uiWidth'] |
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@property |
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def absolute_start(self): |
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for line in self.metadata['ImageTextInfo']['SLxImageTextInfo'].values(): |
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absolute_start_12 = None |
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absolute_start_24 = None |
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# ND2s seem to randomly switch between 12- and 24-hour representations. |
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try: |
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absolute_start_24 = datetime.strptime(line, "%m/%d/%Y %H:%M:%S") |
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except ValueError: |
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pass |
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try: |
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absolute_start_12 = datetime.strptime(line, "%m/%d/%Y %I:%M:%S %p") |
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except ValueError: |
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pass |
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if not absolute_start_12 and not absolute_start_24: |
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continue |
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return absolute_start_12 if absolute_start_12 else absolute_start_24 |
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raise ValueError("This ND2 has no recorded start time. This is probably a bug.") |
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@property |
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def channel_count(self): |
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pattern = r""".*?λ\((\d+)\).*?""" |
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try: |
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count = int(re.match(pattern, self._dimensions).group(1)) |
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except AttributeError: |
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return 1 |
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else: |
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return count |
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@property |
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def field_of_view_count(self): |
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""" |
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The metadata contains information about fields of view, but it contains it even if some fields |
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of view were cropped. We can't find anything that states which fields of view are actually |
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in the image data, so we have to calculate it. There probably is something somewhere, since |
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NIS Elements can figure it out, but we haven't found it yet. |
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""" |
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pattern = r""".*?XY\((\d+)\).*?""" |
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try: |
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count = int(re.match(pattern, self._dimensions).group(1)) |
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except AttributeError: |
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return 1 |
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else: |
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return count |
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@property |
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def time_index_count(self): |
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""" |
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The number of cycles. |
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:rtype: int |
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""" |
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pattern = r""".*?T'\((\d+)\).*?""" |
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try: |
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count = int(re.match(pattern, self._dimensions).group(1)) |
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except AttributeError: |
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return 1 |
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else: |
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return count |
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@property |
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def z_level_count(self): |
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pattern = r""".*?Z\((\d+)\).*?""" |
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try: |
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count = int(re.match(pattern, self._dimensions).group(1)) |
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except AttributeError: |
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return 1 |
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else: |
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return count |
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@property |
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def _channel_offset(self): |
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""" |
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Image data is interleaved for each image set. That is, if there are four images in a set, the first image |
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will consist of pixels 1, 5, 9, etc, the second will be pixels 2, 6, 10, and so forth. Why this would be the |
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case is beyond me, but that's how it works. |
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""" |
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channel_offset = {} |
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for n, channel in enumerate(self.channels): |
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channel_offset[channel] = n |
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return channel_offset |
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def _get_raw_image_data(self, image_set_number, channel_offset): |
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chunk = self._label_map["ImageDataSeq|%d!" % image_set_number] |
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data = self._read_chunk(chunk) |
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timestamp = struct.unpack("d", data[:8])[0] |
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# The images for the various channels are interleaved within each other. |
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image_data = array.array("H", data) |
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image_data_start = 4 + channel_offset |
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if any(image_data): |
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return timestamp, image_data[image_data_start::self.channel_count] |
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return None |
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def _calculate_image_set_number(self, time_index, fov, z_level): |
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return time_index * self.field_of_view_count * self.z_level_count + (fov * self.z_level_count + z_level) |
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