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# -*- coding: utf-8 -*-
import numpy as np
class Image(np.ndarray):
"""
Holds the raw pixel data of an image and provides access to some metadata.
"""
def __new__(cls, array):
return np.asarray(array).view(cls)
def __init__(self, array):
self._index = None
self._timestamp = None
self._frame_number = None
self._field_of_view = None
self._channel = None
self._z_level = None
def add_params(self, index, timestamp, frame_number, field_of_view, channel, z_level):
"""
:param index: The integer that can be used to directly index this image
:type index: int
:param timestamp: The number of milliseconds after the beginning of the acquisition that this image was taken.
:type timestamp: float
:param frame_number: The order in which this image was taken, with images of different channels/z-levels
at the same field of view treated as being in the same frame.
: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: The name of the color of this image
:type channel: str
:param z_level: The label for the location in the Z-plane where this image was taken.
:type z_level: int
"""
self._index = index
self._timestamp = timestamp
self._frame_number = int(frame_number)
self._field_of_view = field_of_view
self._channel = channel
self._z_level = z_level
@property
def index(self):
return self._index
@property
def height(self):
"""
The height in pixels.
:rtype: int
"""
return self.shape[0]
@property
def width(self):
"""
The width in pixels.
:rtype: int
"""
return self.shape[1]
@property
def field_of_view(self):
"""
The index of the stage location where this image was acquired.
:rtype: int
"""
return self._field_of_view
@property
def timestamp(self):
"""
The number of seconds after the beginning of the acquisition that the image was taken. Note that for a given
field of view and z-level offset, if you have images of multiple channels, they will all be given the same
timestamp. That's just how ND2s are structured, so if your experiment depends on millisecond accuracy,
you need to find an alternative imaging system.
:rtype: float
"""
# data is actually stored in milliseconds
return self._timestamp / 1000.0
@property
def frame_number(self):
"""
The index of the group of images taken sequentially that all have the same group number and field of view.
:rtype: int
"""
return self._frame_number
@property
def channel(self):
"""
The name of the filter used to acquire this image. These are user-supplied in NIS Elements.
:rtype: str
"""
return self._channel
@property
def z_level(self):
"""
The vertical offset of the image. These are simple integers starting from 0, where the 0 is the lowest
z-level and each subsequent level incremented by 1.
For example, if you acquired images at -3 µm, 0 µm, and +3 µm, your z-levels would be:
-3 µm: 0
0 µm: 1
+3 µm: 2
:rtype: int
"""
return self._z_level