The OP asks about detatching
matplotlib plots. Most answers assume command execution from within a python interpreter. The use-case presented here is my preference for testing code in a terminal (e.g. bash) where a
file.py is run and you want the plot(s) to come up but the python script to complete and return to a command prompt.
This stand-alone file uses
multiprocessing to launch a separate process for plotting data with
matplotlib. The main thread exits using the
os._exit(1) mentioned in this post. The
os._exit() forces main to exit but leaves the
matplotlib child process alive and responsive until the plot window is closed. It's a separate process entirely.
This approach is a bit like a Matlab development session with figure windows that come up with a responsive command prompt. With this approach, you have lost all contact with the figure window process, but, that's ok for development and debugging. Just close the window and keep testing.
multiprocessing is designed for python-only code execution which makes it perhaps better suited than
multiprocessing is cross-platform so this should work well in Windows or Mac with little or no adjustment. There is no need to check the underlying operating system. This was tested on linux, Ubuntu 18.04LTS.
from matplotlib.pyplot import plot, draw, show
show() # this will block and remain a viable process as long as the figure window is open
print("exiting plot_graph() process")
if __name__ == "__main__":
multiprocessing.Process(target=plot_graph, args=([1, 2, 3],)).start()
os._exit(0) # this exits immediately with no cleanup or buffer flushing
file.py brings up a figure window, then
__main__ exits but the
matplotlib figure window remains responsive with zoom, pan, and other buttons because it is an independent process.
Check the processes at the bash command prompt with:
ps ax|grep -v grep |grep file.py