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- # -*- coding: utf-8 -*-
-
- from datetime import datetime
- from nd2reader.model.metadata import Metadata, CameraSettings
- from nd2reader.model.label import LabelMap
- from nd2reader.parser.base import BaseParser
- from nd2reader.driver.v3 import V3Driver
- from nd2reader.common.v3 import read_chunk, read_array, read_metadata
- import re
- import six
- import struct
- import xmltodict
-
-
- def ignore_missing(func):
- def wrapper(*args, **kwargs):
- try:
- return func(*args, **kwargs)
- except:
- return None
- return wrapper
-
-
- class V3RawMetadata(object):
- def __init__(self, fh, label_map):
- self._fh = fh
- self._label_map = label_map
-
- @property
- @ignore_missing
- def image_text_info(self):
- return read_metadata(read_chunk(self._fh, self._label_map.image_text_info), 1)
-
- @property
- @ignore_missing
- def image_metadata_sequence(self):
- return read_metadata(read_chunk(self._fh, self._label_map.image_metadata_sequence), 1)
-
- @property
- @ignore_missing
- def image_calibration(self):
- return read_metadata(read_chunk(self._fh, self._label_map.image_calibration), 1)
-
- @property
- @ignore_missing
- def image_attributes(self):
- return read_metadata(read_chunk(self._fh, self._label_map.image_attributes), 1)
-
- @property
- @ignore_missing
- def x_data(self):
- return read_array(self._fh, 'double', self._label_map.x_data)
-
- @property
- @ignore_missing
- def y_data(self):
- return read_array(self._fh, 'double', self._label_map.y_data)
-
- @property
- @ignore_missing
- def z_data(self):
- return read_array(self._fh, 'double', self._label_map.z_data)
-
- @property
- @ignore_missing
- def roi_metadata(self):
- return read_metadata(read_chunk(self._fh, self._label_map.roi_metadata), 1)
-
- @property
- @ignore_missing
- def pfs_status(self):
- return read_array(self._fh, 'int', self._label_map.pfs_status)
-
- @property
- @ignore_missing
- def pfs_offset(self):
- return read_array(self._fh, 'int', self._label_map.pfs_offset)
-
- @property
- @ignore_missing
- def camera_exposure_time(self):
- return read_array(self._fh, 'double', self._label_map.camera_exposure_time)
-
- @property
- @ignore_missing
- def lut_data(self):
- return xmltodict.parse(read_chunk(self._fh, self._label_map.lut_data))
-
- @property
- @ignore_missing
- def grabber_settings(self):
- return xmltodict.parse(read_chunk(self._fh, self._label_map.grabber_settings))
-
- @property
- @ignore_missing
- def custom_data(self):
- return xmltodict.parse(read_chunk(self._fh, self._label_map.custom_data))
-
- @property
- @ignore_missing
- def app_info(self):
- return xmltodict.parse(read_chunk(self._fh, self._label_map.app_info))
-
- @property
- @ignore_missing
- def camera_temp(self):
- camera_temp = read_array(self._fh, 'double', self._label_map.camera_temp)
- if camera_temp:
- for temp in map(lambda x: round(x * 100.0, 2), camera_temp):
- yield temp
-
- @property
- @ignore_missing
- def acquisition_times(self):
- acquisition_times = read_array(self._fh, 'double', self._label_map.acquisition_times)
- if acquisition_times:
- for acquisition_time in map(lambda x: x / 1000.0, acquisition_times):
- yield acquisition_time
-
- @property
- @ignore_missing
- def image_metadata(self):
- if self._label_map.image_metadata:
- return read_metadata(read_chunk(self._fh, self._label_map.image_metadata), 1)
-
-
- class V3Parser(BaseParser):
- """ Parses ND2 files and creates a Metadata and driver object. """
- CHUNK_HEADER = 0xabeceda
- CHUNK_MAP_START = six.b("ND2 FILEMAP SIGNATURE NAME 0001!")
- CHUNK_MAP_END = six.b("ND2 CHUNK MAP SIGNATURE 0000001!")
-
- def __init__(self, fh):
- """
- :type fh: file
-
- """
- self._fh = fh
- self._metadata = None
- self._raw_metadata = None
- self._label_map = None
- self._camera_metadata = {}
- self._parse_metadata()
-
- @property
- def camera_metadata(self):
- return self._camera_metadata
-
- @property
- def driver(self):
- return V3Driver(self.metadata, self._label_map, self._fh)
-
- @property
- def metadata(self):
- """
- :rtype: Metadata
-
- """
- return self._metadata
-
- @property
- def raw_metadata(self):
- if not self._raw_metadata:
- self._label_map = self._build_label_map()
- self._raw_metadata = V3RawMetadata(self._fh, self._label_map)
- return self._raw_metadata
-
- def _parse_metadata(self):
- """
- Reads all metadata and instantiates the Metadata object.
-
- """
- height = self.raw_metadata.image_attributes[six.b('SLxImageAttributes')][six.b('uiHeight')]
- width = self.raw_metadata.image_attributes[six.b('SLxImageAttributes')][six.b('uiWidth')]
- date = self._parse_date(self.raw_metadata)
- fields_of_view = self._parse_fields_of_view(self.raw_metadata)
- frames = self._parse_frames(self.raw_metadata)
- z_levels = self._parse_z_levels(self.raw_metadata)
- total_images_per_channel = self._parse_total_images_per_channel(self.raw_metadata)
- channels = []
- for camera_setting in self._parse_camera_settings():
- channels.append(camera_setting.channel_name)
- self._camera_metadata[camera_setting.channel_name] = camera_setting
- self._metadata = Metadata(height, width, sorted(list(channels)), date, fields_of_view, frames, z_levels, total_images_per_channel)
-
- def _parse_camera_settings(self):
- for camera in self._raw_metadata.image_metadata_sequence[six.b('SLxPictureMetadata')][six.b('sPicturePlanes')][six.b('sSampleSetting')].values():
- name = camera[six.b('pCameraSetting')][six.b('CameraUserName')]
- id = camera[six.b('pCameraSetting')][six.b('CameraUniqueName')]
- exposure = camera[six.b('dExposureTime')]
- x_binning = camera[six.b('pCameraSetting')][six.b('FormatFast')][six.b('fmtDesc')][six.b('dBinningX')]
- y_binning = camera[six.b('pCameraSetting')][six.b('FormatFast')][six.b('fmtDesc')][six.b('dBinningY')]
- optical_configs = camera[six.b('sOpticalConfigs')]
- if six.b('') in optical_configs.keys():
- channel_name = optical_configs[six.b('')][six.b('sOpticalConfigName')]
- else:
- channel_name = None
- yield CameraSettings(name, id, exposure, x_binning, y_binning, channel_name)
-
- def _parse_date(self, raw_metadata):
- """
- The date and time when acquisition began.
-
- :type raw_metadata: V3RawMetadata
- :rtype: datetime.datetime() or None
-
- """
- for line in raw_metadata.image_text_info[six.b('SLxImageTextInfo')].values():
- line = line.decode("utf8")
- absolute_start_12 = None
- absolute_start_24 = None
- # ND2s seem to randomly switch between 12- and 24-hour representations.
- try:
- absolute_start_24 = datetime.strptime(line, "%m/%d/%Y %H:%M:%S")
- except (TypeError, ValueError):
- pass
- try:
- absolute_start_12 = datetime.strptime(line, "%m/%d/%Y %I:%M:%S %p")
- except (TypeError, ValueError):
- pass
- if not absolute_start_12 and not absolute_start_24:
- continue
- return absolute_start_12 if absolute_start_12 else absolute_start_24
- return None
-
- def _parse_channels(self, raw_metadata):
- """
- These are labels created by the NIS Elements user. Typically they may a short description of the filter cube
- used (e.g. "bright field", "GFP", etc.)
-
- :type raw_metadata: V3RawMetadata
- :rtype: list
-
- """
- channels = []
- metadata = raw_metadata.image_metadata_sequence[six.b('SLxPictureMetadata')][six.b('sPicturePlanes')]
- try:
- validity = raw_metadata.image_metadata[six.b('SLxExperiment')][six.b('ppNextLevelEx')][six.b('')][0][six.b('ppNextLevelEx')][six.b('')][0][six.b('pItemValid')]
- except (KeyError, TypeError):
- # If none of the channels have been deleted, there is no validity list, so we just make one
- validity = [True for _ in metadata]
- # Channel information is contained in dictionaries with the keys a0, a1...an where the number
- # indicates the order in which the channel is stored. So by sorting the dicts alphabetically
- # we get the correct order.
- for (label, chan), valid in zip(sorted(metadata[six.b('sPlaneNew')].items()), validity):
- if not valid:
- continue
- channels.append(chan[six.b('sDescription')].decode("utf8"))
- return channels
-
- def _parse_fields_of_view(self, raw_metadata):
- """
- The metadata contains information about fields of view, but it contains it even if some fields
- of view were cropped. We can't find anything that states which fields of view are actually
- in the image data, so we have to calculate it. There probably is something somewhere, since
- NIS Elements can figure it out, but we haven't found it yet.
-
- :type raw_metadata: V3RawMetadata
- :rtype: list
-
- """
- return self._parse_dimension(r""".*?XY\((\d+)\).*?""", raw_metadata)
-
- def _parse_frames(self, raw_metadata):
- """
- The number of cycles.
-
- :type raw_metadata: V3RawMetadata
- :rtype: list
-
- """
- return self._parse_dimension(r""".*?T'?\((\d+)\).*?""", raw_metadata)
-
- def _parse_z_levels(self, raw_metadata):
- """
- The different levels in the Z-plane. Just a sequence from 0 to n.
-
- :type raw_metadata: V3RawMetadata
- :rtype: list
-
- """
- return self._parse_dimension(r""".*?Z\((\d+)\).*?""", raw_metadata)
-
- def _parse_dimension_text(self, raw_metadata):
- """
- While there are metadata values that represent a lot of what we want to capture, they seem to be unreliable.
- Sometimes certain elements don't exist, or change their data type randomly. However, the human-readable text
- is always there and in the same exact format, so we just parse that instead.
-
- :type raw_metadata: V3RawMetadata
- :rtype: str
-
- """
- for line in raw_metadata.image_text_info[six.b('SLxImageTextInfo')].values():
- if six.b("Dimensions:") in line:
- metadata = line
- break
- else:
- return six.b("")
- for line in metadata.split(six.b("\r\n")):
- if line.startswith(six.b("Dimensions:")):
- dimension_text = line
- break
- else:
- return six.b("")
- return dimension_text
-
- def _parse_dimension(self, pattern, raw_metadata):
- """
- :param pattern: a valid regex pattern
- :type pattern: str
- :type raw_metadata: V3RawMetadata
-
- :rtype: list of int
-
- """
- dimension_text = self._parse_dimension_text(raw_metadata)
- if six.PY3:
- dimension_text = dimension_text.decode("utf8")
- match = re.match(pattern, dimension_text)
- if not match:
- return [0]
- count = int(match.group(1))
- return list(range(count))
-
- def _parse_total_images_per_channel(self, raw_metadata):
- """
- The total number of images per channel. Warning: this may be inaccurate as it includes "gap" images.
-
- :type raw_metadata: V3RawMetadata
- :rtype: int
-
- """
- return raw_metadata.image_attributes[six.b('SLxImageAttributes')][six.b('uiSequenceCount')]
-
- def _build_label_map(self):
- """
- Every label ends with an exclamation point, however, we can't directly search for those to find all the labels
- as some of the bytes contain the value 33, which is the ASCII code for "!". So we iteratively find each label,
- grab the subsequent data (always 16 bytes long), advance to the next label and repeat.
-
- :rtype: LabelMap
-
- """
- self._fh.seek(-8, 2)
- chunk_map_start_location = struct.unpack("Q", self._fh.read(8))[0]
- self._fh.seek(chunk_map_start_location)
- raw_text = self._fh.read(-1)
- return LabelMap(raw_text)
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