Skip to content

williamgilpin/flowtrace_python

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

17 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Flowtrace

Trace pathlines in a flow using Python

Example frame of a flowtrace video

Examples of this code applied to videos can be found here. If you find this repository useful, please consider citing the accompanying paper:

William Gilpin, Vivek Prakash, Manu Prakash. "Flowtrace: simple visualization of coherent structures in biological fluid flows." J Exp Biol. 2017

Installation

Use your browser to download flowtrace for Python from this repository (Direct download link here). On OSX/Linux, you can initiate the download from the terminal using

$ curl -OS https://github.com/williamgilpin/flowtrace_python/archive/master.zip

Or, using git

$ git clone https://github.com/williamgilpin/flowtrace_python.git

Running flowtrace

Somewhere in your script, include the import statement

$ from flowtrace import flowtrace

Run using all defaults and a 30 frame projection window

$ flowtrace('sample_data',30,'sample_output/')

Subtract the median of every 30 frames to remove slow-moving background objects

$ flowtrace('sample_data',30,'sample_output/',subtract_median=True)

Color the output streamlines to denote the direction of time

$ flowtrace('sample_data',30,'sample_output/',color_series=True)

Adjust the number of cores that the code uses to multithread

$ flowtrace('sample_data',30,'sample_output/',max_cores=2)

API and Options

Arguments

imagedir : str

  • path to directory containing raw image files

frames_to_merge : int

  • The numbe of frames to merge to form a single streamline image

out_dir : str

  • path to directory where streamline files are saved

max_cores : int

  • With multi-threading enabled, the maximum number of simultaneous jobs to run.
  • When running this, it's useful to calculate the total RAM available versus that required to completely hold an image stack of length frames_to_merge, since parallelization is not useful if there's not enough RAM for each core to complete a task

frames_to_skip : int

  • The number of images to skip when building each substack

Keywords

invert_color : bool

  • Set to "True" for dark objects moving against a white background

take_diff : bool

  • Whether to take the difference of consecutive frames

diff_order : int

  • The order of the difference in frames when take_diff is used

subtract_median : bool

  • For each substack, subtract the median before taking the z projection

subtract_first : bool

  • For each substack, subtract the first frame before taking the z projection

add_first_frame : bool

  • Add the unaltered first frame of the stack back to the stack before taking z projection. Makes it possible to view sharp structures in median transformed data

color_series : bool

  • Color the time traces

Debugging

The code just won't run

  • If you are consistently getting errors on your system, try disabling parallization with the setting use_parallel=False. Multithreading in Python can be configuration-specific, and so flowtrace will not succeed in multithreading if Python's multiprocessing library is not working.

    $ flowtrace('sample_data',30,'sample_output/', use_parallel=False)

  • Certain combinations of keyword arguments might cause errors--for example, using median subtraction and inverting the color simultaneously might yield unpredictable results on color images.

The code is performing surprisingly slowly.

  • If the code seems to be reading very slowly, try using Fiji or ImageJ to open the image sequence as a stack, convert to 8-bit tif (or RGB if using color) and then re-save all the files Even if the raw data is supposedly .tif, sometimes the encoding is funny and so scipy struggles to read the files.

Attempts to read or write files fail to find the appropriate directory (Windows only)

  • Make sure you are using the correct format for filepaths on Windows. Instead of Users/John/pics use Users//John//pics or Users\John\pics

Future

Bug reports and pull requests are encouraged through GitHub

About

Python implementation of time-resolved flow tracing.

Topics

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages