I have a project that I'm writing in Python that will be sending hardware (Phidgets) commands. Because I'll be interfacing with more than one hardware component, I need to have more than one loop running concurrently.
I've researched the Python
multiprocessing module, but it turns out that the hardware can only be controlled by one process at a time, so all my loops need to run in the same process.
As of right now, I've been able to accomplish my task with a
Tk() loop, but without actually using any of the GUI tools. For example:
from Tk import tk class hardwareCommand: def __init__(self): # Define Tk object self.root = tk() # open the hardware, set up self. variables, call the other functions self.hardwareLoop() self.UDPListenLoop() self.eventListenLoop() # start the Tk loop self.root.mainloop() def hardwareLoop(self): # Timed processing with the hardware setHardwareState(self.state) self.root.after(100,self.hardwareLoop) def UDPListenLoop(self): # Listen for commands from UDP, call appropriate functions self.state = updateState(self.state) self.root.after(2000,self.UDPListenLoop) def eventListenLoop(self,event): if event == importantEvent: self.state = updateState(self.event.state) self.root.after(2000,self.eventListenLoop) hardwareCommand()
So basically, the only reason for defining the
Tk() loop is so that I can call the
root.after() command within those functions that need to be concurrently looped.
This works, but is there a better / more pythonic way of doing it? I'm also wondering if this method causes unnecessary computational overhead (I'm not a computer science guy).