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Merge pull request #57 from jimrybarski/56-readme-for-v1-1

56 readme for v1 1
master
Jim Rybarski 10 years ago
parent
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04d909f9ed
7 changed files with 142 additions and 59 deletions
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      CHANGELOG.md
  2. +8
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      Dockerfile
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      Makefile
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      README.md
  5. +2
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      nd2reader/__init__.py
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      requirements.txt
  7. +5
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      setup.py

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CHANGELOG.md View File

@ -0,0 +1,16 @@
## [1.1.0] - 2015-06-03
### ADDED
- Indexing and slicing of images
- Python 3 support
- Dockerfile support for Python 3.4
- Makefile commands for convenient testing in Docker
- Unit tests
### CHANGED
- Switched to setuptools to automatically install missing dependencies
- Made the interface for most metadata public
- Refactored some poorly-named things
## [1.0.0] - 2015-05-23
### Added
- First stable release!

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Dockerfile View File

@ -3,14 +3,17 @@ MAINTAINER Jim Rybarski <jim@rybarski.com>
RUN mkdir -p /var/nds2
RUN apt-get update && apt-get install -y --no-install-recommends \
python-numpy \
python3-numpy \
build-essential \
libatlas3-base \
liblapack-dev \
libblas-dev \
python \
python3 \
python-dev \
python3-dev \
python-pip \
python3-pip
RUN pip install six
RUN pip3 install six
COPY . /opt/nd2reader
WORKDIR /opt/nd2reader
RUN python setup.py install


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Makefile View File

@ -1,4 +1,4 @@
.PHONY: build shell
.PHONY: build py2shell py3shell test
build:
docker build -t jimrybarski/nd2reader .


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- 48
README.md View File

@ -10,16 +10,19 @@
### Installation
Just use pip (`numpy` is required):
Dependencies will automatically be installed if you don't have them. That said, for optimal performance, you should
install the following packages before installing nd2reader:
`pip install numpy nd2reader`
#### Ubuntu
`apt-get install python-numpy python-six` (Python 2.x)
`apt-get install python3-numpy python3-six` (Python 3.x)
If you want to install via git, clone the repo and run:
#### Other operating systems
These have not been tested yet.
```
pip install numpy
python setup.py install
```
nd2reader is compatible with both Python 2.x and 3.x. I recommend installing using pip:
`pip install nd2reader` (Python 2.x) or `pip3 install nd2reader` (Python 3.x)
### ND2s
@ -37,9 +40,58 @@ Fields of View: 8
Z-Levels: 3
```
### Simple Iteration
You can also get some metadata about the nd2 programatically:
For most cases, you'll just want to iterate over each image:
```python
>>> nd2.height
1280
>>> nd2.width
800
>>> len(nd2)
30528
```
### Images
Every method returns an `Image` object, which contains some metadata about the image as well as the
raw pixel data itself. Images are always a 16-bit grayscale image. The `data` attribute holds the numpy array
with the image data:
```python
>>> image = nd2[20]
>>> print(image.data)
array([[1894, 1949, 1941, ..., 2104, 2135, 2114],
[1825, 1846, 1848, ..., 1994, 2149, 2064],
[1909, 1820, 1821, ..., 1995, 1952, 2062],
...,
[3487, 3512, 3594, ..., 3603, 3643, 3492],
[3642, 3475, 3525, ..., 3712, 3682, 3609],
[3687, 3777, 3738, ..., 3784, 3870, 4008]], dtype=uint16)
```
You can get a quick summary of image data by examining the `Image` object:
```python
>>> image
<ND2 Image>
1280x800 (HxW)
Timestamp: 1699.79478134
Field of View: 2
Channel: GFP
Z-Level: 1
```
Or you can access it programmatically:
```python
image = nd2[0]
print(image.timestamp)
print(image.field_of_view)
print(image.channel)
print(image.z_level)
```
Often, you may want to just iterate over each image:
```python
import nd2reader
@ -48,10 +100,42 @@ for image in nd2:
do_something(image.data)
```
You can also get an image directly by indexing. Here, we look at the 38th image:
```python
>>> nd2[37]
<ND2 Image>
1280x800 (HxW)
Timestamp: 1699.79478134
Field of View: 2
Channel: GFP
Z-Level: 1
```
Slicing is also supported and is extremely memory efficient, as images are only read when directly accessed:
```python
my_subset = nd2[50:433]
for image in my_subset:
do_something(image.data)
```
Step sizes are also accepted:
```python
for image in nd2[:100:2]:
# gets every other image in the first 100 images
do_something(image.data)
for image in nd2[::-1]:
# iterate backwards over every image, if you're into that kind of thing
do_something_image.data)
```
### Image Sets
If you have complicated hierarchical data, it may be easier to use image sets, which groups images together if they
share the same time index and field of view:
share the same time index (not timestamp!) and field of view:
```python
import nd2reader
@ -59,55 +143,32 @@ nd2 = nd2reader.Nd2("/path/to/my_complicated_images.nd2")
for image_set in nd2.image_sets:
# you can select images by channel
gfp_image = image_set.get("GFP")
do_something_gfp_related(gfp_image)
do_something_gfp_related(gfp_image.data)
# you can also specify the z-level. this defaults to 0 if not given
out_of_focus_image = image_set.get("Bright Field", z_level=1)
do_something_out_of_focus_related(out_of_focus_image)
do_something_out_of_focus_related(out_of_focus_image.data)
```
### Direct Image Access
There is a method, `get_image`, which allows random access to images. This might not always return an image, however,
if you acquired different numbers of images in each cycle of a program. For example, if you acquire GFP images every
other minute, but acquire bright field images every minute, `get_image` will return `None` at certain time indexes.
To get an image from an image set, you must specify a channel. It defaults to the 0th z-level, so if you have
more than one z-level you will need to specify it when using `get`:
### Images
```python
image = image_set.get("YFP")
image = image_set.get("YFP", z_level=2)
```
`Image` objects provide several pieces of useful data.
You can also see how many images are in your image set:
```python
>>> import nd2reader
>>> nd2 = nd2reader.Nd2("/path/to/my_images.nd2")
>>> image = nd2.get_image(14, 2, "GFP", 1)
>>> image.data
array([[1809, 1783, 1830, ..., 1923, 1920, 1914],
[1687, 1855, 1792, ..., 1986, 1903, 1889],
[1758, 1901, 1849, ..., 1911, 2010, 1954],
...,
[3363, 3370, 3570, ..., 3565, 3601, 3459],
[3480, 3428, 3328, ..., 3542, 3461, 3575],
[3497, 3666, 3635, ..., 3817, 3867, 3779]])
>>> image.channel
'GFP'
>>> image.timestamp
1699.7947813408175
>>> image.field_of_view
2
>>> image.z_level
1
# You can also get a quick summary of image data:
>>> image
<ND2 Image>
1280x800 (HxW)
Timestamp: 1699.79478134
Field of View: 2
Channel: GFP
Z-Level: 1
>>> len(image_set)
7
```
### Protips
nd2reader is about 14 times faster under Python 3.4 compared to Python 2.7. If you know why, please get in touch!
### Bug Reports and Features
If this fails to work exactly as expected, please open a Github issue. If you get an unhandled exception, please


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nd2reader/__init__.py View File

@ -32,7 +32,7 @@ class Nd2(Nd2Parser):
:rtype: int
"""
return self._total_images_per_channel * self._channel_count
return self._total_images_per_channel * len(self.channels)
def __getitem__(self, item):
"""
@ -128,8 +128,7 @@ class Nd2(Nd2Parser):
def get_image(self, time_index, field_of_view, channel_name, z_level):
"""
Returns an Image if data exists for the given parameters, otherwise returns None. In general, you should avoid
using this method unless you're very familiar with the structure of ND2 files. If you have a use case that
cannot be met by the `__iter__` or `image_sets` methods above, please create an issue on Github.
using this method unless you're very familiar with the structure of ND2 files.
:param time_index: the frame number
:type time_index: int


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requirements.txt View File

@ -1,2 +1,2 @@
numpy>=1.9.2
six
six>=1.4

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setup.py View File

@ -1,10 +1,14 @@
from distutils.core import setup
from setuptools import setup
VERSION = "1.1.0"
setup(
name="nd2reader",
packages=['nd2reader', 'nd2reader.model'],
install_requires=[
'numpy>=1.6.2, <2.0',
'six>=1.4, <2.0'
],
version=VERSION,
description='A tool for reading ND2 files produced by NIS Elements',
author='Jim Rybarski',


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