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  1. # nd2reader
  2. ### About
  3. `nd2reader` is a pure-Python package that reads images produced by NIS Elements 4.0+. It has only been definitively tested on NIS Elements 4.30.02 Build 1053. Support for older versions is being actively worked on.
  4. .nd2 files contain images and metadata, which can be split along multiple dimensions: time, fields of view (xy-plane), focus (z-plane), and filter channel.
  5. `nd2reader` loads images as Numpy arrays, which makes it trivial to use with the image analysis packages such as `scikit-image` and `OpenCV`.
  6. ### Installation
  7. If you don't already have the packages `numpy` and `six`, they will be installed automatically:
  8. `pip3 install nd2reader` for Python 3.x
  9. `pip install nd2reader` for Python 2.x
  10. `nd2reader` is an order of magnitude faster in Python 3. I recommend using it unless you have no other choice.
  11. ### ND2s
  12. A quick summary of ND2 metadata can be obtained as shown below.
  13. ```python
  14. >>> import nd2reader
  15. >>> nd2 = nd2reader.Nd2("/path/to/my_images.nd2")
  16. >>> nd2
  17. <ND2 /path/to/my_images.nd2>
  18. Created: 2014-11-11 15:59:19
  19. Image size: 1280x800 (HxW)
  20. Image cycles: 636
  21. Channels: 'brightfield', 'GFP'
  22. Fields of View: 8
  23. Z-Levels: 3
  24. ```
  25. You can iterate over each image in the order they were acquired:
  26. ```python
  27. import nd2reader
  28. nd2 = nd2reader.Nd2("/path/to/my_images.nd2")
  29. for image in nd2:
  30. do_something(image)
  31. ```
  32. `Image` objects are just Numpy arrays with some extra metadata bolted on:
  33. ```python
  34. >>> image = nd2[20]
  35. >>> image
  36. array([[1894, 1949, 1941, ..., 2104, 2135, 2114],
  37. [1825, 1846, 1848, ..., 1994, 2149, 2064],
  38. [1909, 1820, 1821, ..., 1995, 1952, 2062],
  39. ...,
  40. [3487, 3512, 3594, ..., 3603, 3643, 3492],
  41. [3642, 3475, 3525, ..., 3712, 3682, 3609],
  42. [3687, 3777, 3738, ..., 3784, 3870, 4008]], dtype=uint16)
  43. >>> image.timestamp
  44. 10.1241241248
  45. >>> image.frame_number
  46. 11
  47. >>> image.field_of_view
  48. 6
  49. >>> image.channel
  50. 'GFP'
  51. >>> image.z_level
  52. 0
  53. ```
  54. Slicing is also supported and is extremely memory efficient, as images are only read when directly accessed:
  55. ```python
  56. for image in nd2[50:433]:
  57. do_something(image)
  58. # get every other image in the first 100 images
  59. for image in nd2[:100:2]:
  60. do_something(image)
  61. # iterate backwards over every image
  62. for image in nd2[::-1]:
  63. do_something(image)
  64. ```
  65. You can also just index a single image:
  66. ```python
  67. # gets the 18th image
  68. my_important_image = nd2[17]
  69. ```
  70. The `Nd2` object has some programmatically-accessible metadata:
  71. ```python
  72. >>> nd2.height
  73. 1280
  74. >>> nd2.width
  75. 800
  76. >>> len(nd2)
  77. 30528
  78. ```
  79. Each camera has its own settings. If you image multiple wavelengths with one camera, each channel will appear as its
  80. own camera:
  81. ```python
  82. >>> nd2.camera_settings
  83. {'GFP': <Camera Settings: GFP>
  84. Camera: Andor Zyla VSC-00461
  85. Camera ID: VSC-00461
  86. Exposure Time (ms): 100.0
  87. Binning: 2x2, 'BF': <Camera Settings: BF>
  88. Camera: Andor Zyla VSC-00461
  89. Camera ID: VSC-00461
  90. Exposure Time (ms): 100.0
  91. Binning: 2x2}
  92. ```
  93. Camera information can be accessed programmatically:
  94. ```python
  95. >>> nd2.camera_settings['GFP'].id
  96. 'VSC-00461'
  97. >>> nd2.camera_settings['GFP'].name
  98. 'Andor Zyla VSC-00461'
  99. >>> nd2.camera_settings['GFP'].exposure
  100. 100.0
  101. >>> nd2.camera_settings['GFP'].x_binning
  102. 2
  103. >>> nd2.camera_settings['GFP'].y_binning
  104. 2
  105. ```
  106. ### Bug Reports and Features
  107. If this fails to work exactly as expected, please open a Github issue. If you get an unhandled exception, please
  108. paste the entire stack trace into the issue as well.
  109. ### Contributing
  110. Please feel free to submit a pull request with any new features you think would be useful. You can also create an
  111. issue if you'd just like to propose or discuss a potential idea.
  112. ### Acknowledgments
  113. Support for the development of this package was provided by the [Finkelstein Laboratory](http://finkelsteinlab.org/).