zolfa
/
testtest


								import struct

								import array

								from datetime import datetime

								import six

								import re

								from nd2reader.exceptions import InvalidVersionError


								def get_version(fh):

								    """Determines what version the ND2 is.


								    Args:

								        fh: File handle of the .nd2 file


								    Returns:

								        tuple: Major and minor version


								    """

								    # the first 16 bytes seem to have no meaning, so we skip them

								    fh.seek(16)


								    # the next 38 bytes contain the string that we want to parse. Unlike most of the ND2, this is in UTF-8

								    data = fh.read(38).decode("utf8")

								    return parse_version(data)


								def parse_version(data):

								    """Parses a string with the version data in it.


								    Args:

								        data (unicode): the 19th through 54th byte of the ND2, representing the version


								    Returns:

								        tuple: Major and minor version


								    """

								    match = re.search(r"""^ND2 FILE SIGNATURE CHUNK NAME01!Ver(?P<major>\d)\.(?P<minor>\d)$""", data)


								    if match:

								        # We haven't seen a lot of ND2s but the ones we have seen conform to this

								        return int(match.group('major')), int(match.group('minor'))


								    raise InvalidVersionError("The version of the ND2 you specified is not supported.")


								def read_chunk(fh, chunk_location):

								    """Reads a piece of data given the location of its pointer.


								    Args:

								        fh: an open file handle to the ND2

								        chunk_location (int): location to read


								    Returns:

								        bytes: the data at the chunk location


								    """

								    if chunk_location is None:

								        return None

								    fh.seek(chunk_location)

								    # The chunk metadata is always 16 bytes long

								    chunk_metadata = fh.read(16)

								    header, relative_offset, data_length = struct.unpack("IIQ", chunk_metadata)

								    if header != 0xabeceda:

								        raise ValueError("The ND2 file seems to be corrupted.")

								    # We start at the location of the chunk metadata, skip over the metadata, and then proceed to the

								    # start of the actual data field, which is at some arbitrary place after the metadata.

								    fh.seek(chunk_location + 16 + relative_offset)

								    return fh.read(data_length)


								def read_array(fh, kind, chunk_location):

								    """


								    Args:

								        fh: File handle of the nd2 file

								        kind: data type, can be one of 'double', 'int' or 'float'

								        chunk_location: the location of the array chunk in the binary nd2 file


								    Returns:

								        array.array: an array of the data


								    """

								    kinds = {'double': 'd',

								             'int': 'i',

								             'float': 'f'}

								    if kind not in kinds:

								        raise ValueError('You attempted to read an array of an unknown type.')

								    raw_data = read_chunk(fh, chunk_location)

								    if raw_data is None:

								        return None

								    return array.array(kinds[kind], raw_data)


								def _parse_unsigned_char(data):

								    """


								    Args:

								        data: binary data


								    Returns:

								        char: the data converted to unsigned char


								    """

								    return struct.unpack("B", data.read(1))[0]


								def _parse_unsigned_int(data):

								    """


								        Args:

								            data: binary data


								        Returns:

								            int: the data converted to unsigned int


								        """

								    return struct.unpack("I", data.read(4))[0]


								def _parse_unsigned_long(data):

								    """


								        Args:

								            data: binary data


								        Returns:

								            long: the data converted to unsigned long


								        """

								    return struct.unpack("Q", data.read(8))[0]


								def _parse_double(data):

								    """


								        Args:

								            data: binary data


								        Returns:

								            double: the data converted to double


								        """

								    return struct.unpack("d", data.read(8))[0]


								def _parse_string(data):

								    """


								        Args:

								            data: binary data


								        Returns:

								            string: the data converted to string


								        """

								    value = data.read(2)

								    while not value.endswith(six.b("\x00\x00")):

								        # the string ends at the first instance of \x00\x00

								        value += data.read(2)

								    return value.decode("utf16")[:-1].encode("utf8")


								def _parse_char_array(data):

								    """


								        Args:

								            data: binary data


								        Returns:

								            array.array: the data converted to an array


								        """

								    array_length = struct.unpack("Q", data.read(8))[0]

								    return array.array("B", data.read(array_length))


								def parse_date(text_info):

								    """

								    The date and time when acquisition began.


								    Args:

								        text_info: the text that contains the date and time information


								    Returns:

								        datetime: the date and time of the acquisition


								    """

								    for line in text_info.values():

								        line = line.decode("utf8")

								        # ND2s seem to randomly switch between 12- and 24-hour representations.

								        try:

								            absolute_start = datetime.strptime(line, "%m/%d/%Y  %H:%M:%S")

								        except (TypeError, ValueError):

								            try:

								                absolute_start = datetime.strptime(line, "%m/%d/%Y  %I:%M:%S %p")

								            except (TypeError, ValueError):

								                absolute_start = None


								        return absolute_start


								def _parse_metadata_item(data, cursor_position):

								    """Reads hierarchical data, analogous to a Python dict.


								    Args:

								        data: the binary data that needs to be parsed

								        cursor_position: the position in the binary nd2 file


								    Returns:

								        dict: a dictionary containing the metadata item


								    """

								    new_count, length = struct.unpack("<IQ", data.read(12))

								    length -= data.tell() - cursor_position

								    next_data_length = data.read(length)

								    value = read_metadata(next_data_length, new_count)


								    # Skip some offsets

								    data.read(new_count * 8)


								    return value


								def _get_value(data, data_type, cursor_position):

								    """ND2s use various codes to indicate different data types, which we translate here.


								    Args:

								        data: the binary data

								        data_type: the data type (unsigned char = 1, unsigned int = 2 or 3, unsigned long = 5, double = 6, string = 8,

								         char array = 9, metadata item = 11)

								        cursor_position: the cursor position in the binary nd2 file


								    Returns:

								        mixed: the parsed value


								    """

								    parser = {1: _parse_unsigned_char,

								              2: _parse_unsigned_int,

								              3: _parse_unsigned_int,

								              5: _parse_unsigned_long,

								              6: _parse_double,

								              8: _parse_string,

								              9: _parse_char_array,

								              11: _parse_metadata_item}

								    return parser[data_type](data) if data_type < 11 else parser[data_type](data, cursor_position)


								def read_metadata(data, count):

								    """

								    Iterates over each element of some section of the metadata and parses it.


								    Args:

								        data: the metadata in binary form

								        count: the number of metadata elements


								    Returns:

								        dict: a dictionary containing the parsed metadata


								    """

								    if data is None:

								        return None


								    data = six.BytesIO(data)

								    metadata = {}


								    for _ in range(count):

								        cursor_position = data.tell()

								        header = data.read(2)


								        if not header:

								            # We've reached the end of some hierarchy of data

								            break


								        if six.PY3:

								            header = header.decode("utf8")


								        data_type, name_length = map(ord, header)

								        name = data.read(name_length * 2).decode("utf16")[:-1].encode("utf8")

								        value = _get_value(data, data_type, cursor_position)


								        metadata = _add_to_metadata(metadata, name, value)


								    return metadata


								def _add_to_metadata(metadata, name, value):

								    """

								    Add the name value pair to the metadata dict


								    Args:

								        metadata (dict): a dictionary containing the metadata

								        name (string): the dictionary key

								        value: the value to add


								    Returns:

								        dict: the new metadata dictionary


								    """

								    if name not in metadata.keys():

								        metadata[name] = value

								    else:

								        if not isinstance(metadata[name], list):

								            # We have encountered this key exactly once before. Since we're seeing it again, we know we

								            # need to convert it to a list before proceeding.

								            metadata[name] = [metadata[name]]


								        # We've encountered this key before so we're guaranteed to be dealing with a list. Thus we append

								        # the value to the already-existing list.

								        metadata[name].append(value)


								    return metadata