This package is a collection of tools to display and analyze 2D and 2D time-lapse microscopy images. In particular it makes it straightforward to create figures containing multi-channel images represented in a composite color mode as done in the popular image processing software Fiji. It also allows to easily complete such figures with standard annotations like labels and scale bars. In case of time-lapse data, the figures are turned into animations which can be interactively browsed from a Jupyter notebook, saved in standard movie formats (mp4, gif etc.) and completed with time counters. Finally, figures and animations can easily be combined into larger panels. These main functionalities are provided by the microfilm.microplot
and microfilm.microanim
modules.
Following the model of seaborn, microfilm
is entirely based on Matplotlib and tries to provide good defaults to produce good microcopy figures out-of-the-box. It however also offers complete access to the Matplotlib structures like axis and figures underlying the microfilm
objects, allowing thus for the creation of arbitrarily complex plots.
You can install this package directly with pip using:
pip install microfilm
To get the latest stage of the package with yet unreleased features use:
pip install git+https://github.com/guiwitz/microfilm.git
To test the package via the Jupyter interface and the notebooks available here you can create a conda environment using the environment.yml file:
conda env create -f environment.yml
If you want to use the dataset
submodule (see below in Additional functionalities) and need to handle multipage tiff files or nd2 files, use:
pip install "microfilm[multipage]"
or
pip install "microfilm[nd2]"
If you plan to not just use simple plotting but want to create animations, you need to install:
pip install "microfilm[animation]"
To install all options use:
pip install "microfilm[all]"
It is straightforward to create a ready-to-use plot of a multi-channel image dataset. In the following code snippet, we load a Numpy array of a multi-channel time-lapse dataset with shape CTXY
(three channels). The figure below showing the time-point t=10
is generated in a single command with a few options and saved as a png:
import numpy as np
import skimage.io
from microfilm.microplot import microshow
image = skimage.io.imread('../demodata/coli_nucl_ori_ter.tif')
time = 10
microim = microshow(
images=image[:, time, :, :], fig_scaling=5,
cmaps=['pure_blue','pure_red', 'pure_green'],
unit='um', scalebar_size_in_units=3, scalebar_unit_per_pix=0.065, scalebar_font_size=20,
label_text='A', label_font_size=0.04)
microim.savefig('../illustrations/composite.png', bbox_inches = 'tight', pad_inches = 0, dpi=600)
It is then easy to extend a simple figure into an animation as both objects take the same options. Additionally, a time-stamp can be added to the animation. This code generates the movie visible below:
import numpy as np
import skimage.io
from microfilm.microanim import Microanim
image = skimage.io.imread('../demodata/coli_nucl_ori_ter.tif')
microanim = Microanim(data=image, cmaps=['pure_blue','pure_red', 'pure_green'], fig_scaling=5,
unit='um', scalebar_size_in_units=3, scalebar_unit_per_pix=0.065,
scalebar_thickness=0.02, scalebar_font_size=20)
microanim.add_label('A', label_font_size=30)
microanim.add_time_stamp('T', 10, location='lower left', timestamp_size=20)
microanim.save_movie('../illustrations/composite_movie.gif', fps=15)
Both simple figures and animations can be combined into larger panels via the microplot.Micropanel
and microanim.Microanimpanel
objects. For example we can first create two figures microim1
and microim2
and then combine them into micropanel
:
from microfilm import microplot
import skimage.io
image = skimage.io.imread('../demodata/coli_nucl_ori_ter.tif')
microim1 = microplot.microshow(images=[image[0, 10, :, :], image[1, 10, :, :]],
cmaps=['Greys', 'pure_magenta'], flip_map=[False, False],
label_text='A', label_color='black')
microim2 = microplot.microshow(images=[image[0, 10, :, :], image[2, 10, :, :]],
cmaps=['Greys', 'pure_cyan'], flip_map=[False, False],
label_text='B', label_color='black')
micropanel = microplot.Micropanel(rows=1, cols=2, figsize=[4,3])
micropanel.add_element(pos=[0,0], microim=microim1)
micropanel.add_element(pos=[0,1], microim=microim2)
micropanel.savefig('../illustrations/panel.png', bbox_inches = 'tight', pad_inches = 0, dpi=600)
And similarly for animations:
from microfilm import microanim
import skimage.io
image = skimage.io.imread('../demodata/coli_nucl_ori_ter.tif')
microanim1 = microanim.Microanim(data=image[[0,1],::], cmaps=['Greys', 'pure_magenta'],
flip_map=[False, False], label_text='A', label_color='black')
microanim2 = microanim.Microanim(data=image[[0,2],::], cmaps=['Greys', 'pure_cyan'],
flip_map=[False, False], label_text='B', label_color='black')
microanim1.add_time_stamp(unit='T', unit_per_frame='3', location='lower-right', timestamp_color='black')
animpanel = microanim.Microanimpanel(rows=1, cols=2, figsize=[4,3])
animpanel.add_element(pos=[0,0], microanim=microanim1)
animpanel.add_element(pos=[0,1], microanim=microanim2)
animpanel.save_movie('../illustrations/panel.gif')
In addition to these main plotting capabilities, the packages also offers:
microfilm.colorify
: a series of utility functions used by the main functions to create the composite color images. It contains functions to create colormaps, to turn 2D arrays into 3D-RGB arrays with appropriate colormaps etc.microfilm.dataset
: a module offering a simple common data structure to handle multi-channel time-lapse data from multipage tiffs, series of tiff files, Nikon ND2 files, H5 and Numpy arrays. Requirement to use this module are at the moment very constrained (e.g. dimension order of Numpy arrays, name of H5 content etc.) but might evolve in the future.
This package has been created by Guillaume Witz, Microscopy Imaging Center and Science IT Support, University of Bern.