The way I'd do it:
Puty the actual processing code in a class, and on that class I'd implement the Pickle protocol (http://docs.python.org/library/pickle.html ) (basically, write proper
This class would accept the filename, keep the open file, and the CSV reader instance as instance members. The
__getstate__ method would save the current file position, and setstate would reopen the file, forward it to the proper position, and create a new reader.
I'd perform the actuall work in an
__iter__ method, that would yeld to an external function after each line was processed.
This external function would run a "main loop" monitoring input for interrupts (sockets, keyboard, state of an specific file on the filesystem, etc...) - everything being quiet, it would just call for the next iteration of the processor. If an interrupt happens, it would pickle the processor state to an specific file on disk.
When startingm the program just has to check if a there is a saved execution, if so, use pickle to retrieve the executor object, and resume the main loop.
Here goes some (untested) code - the iea is simple enough:
from cPickle import load, dump
import os, sys
SAVEFILE = "running.pkl"
STOPNOWFILE = "stop.now"
def __init__(self, filename):
self.file = open(filename, "rt")
self.reader = csv.reader(self.file)
for line in self.reader():
# do stuff
return (self.file.name, self.file.tell())
def __setstate__(self, state):
self.file = open(state,"rt")
self.reader = csv.reader(self.File)
# Use your imagination here!
# One simple thing would e to check for the existence of an specific file
# on disk.
# But you go all the way up to instantiate a tcp server and listen to
# interruptions on the network
with open(SAVEFILE) as savefile:
processor = load(savefile)
#Assumes the name of the .csv file to be passed on the command line
processor = Processor(sys.argv)
for line in processor:
with open(SAVEFILE, "wb") as savefile:
if __name__ == "__main__":