EMAN2 Python Programming Style Guide
This document describes the structure of programs distributed with EMAN2. If you plan to write a program for inclusion with EMAN2 in the 'bin' directory, you must follow the following general guidelines.
Program naming and options
All programs must be e2<program>.py This helps distinguish them from non-eman2 programs and from SPARX programs which are sx<program>.py
Where possible, the same options should be used across programs. For example, the '--verbose' option is required for all programs. See StandardParms for details.
=== Program outline
Each program should include:
# Example Author block:
# Author: Steven Ludtke (sludtke@bcm.edu), 10/27/2010 - rewritten almost from scratch
# Author: David Woolford (woolford@bcm.edu), 9/7/2007 (woolford@bcm.edu)
# Copyright (c) 2000-2010 Baylor College of Medicine
# Official copyright notice. EMAN2 is distributed under a joint GPL/BSD license. Please copy
# this statement from one of the other programs. You must agree to use this license if your
# code is distributed with EMAN2. While you may use your own institution for the copyright notice
# the terms of the GPL/BSD license permit us to redistribute it.
# import block, any necessary import statements
from EMAN2 import *
from optparse import OptionParser
import math
# main() block. Each program will have a single function called main() which is executed when the
# program is used from the command-line. Programs must also be 'import'able themselves, so you
# must have main()
def main():
progname = os.path.basename(sys.argv[0])
usage = """%prog <output> [options]
This is the main documentation string for the program, which should define what it does an how to use it.
"""
# You MUST use OptionParser to parse command-line options
parser = OptionParser(usage=usage,version=EMANVERSION)
parser.add_option("--input", type="string", help="The name of the input particle stack", default=None)
parser.add_option("--oneclass", type="int", help="Create only a single class-average. Specify the number.",default=None)
parser.add_option("--verbose", "-v", dest="verbose", action="store", metavar="n",type="int", default=0, help="verbose level [0-9], hig
ner number means higher level of verboseness")
(options, args) = parser.parse_args()
# Now we have a call to the function which actually implements the functionality of the program
# main() is really just for parsing command-line arguments, etc. The actual program algorithms
# must be implemented in additional functions so this program could be imported as a module and
# the functionality used in another context
data=EMData.read_images(args[1])
results=myfunction(data,options.mine1,options.mine2)
for im in results: im.write_image(args[2],-1)
def myfunction(data,mine1,mine2):
# do some stuff
ret = [i*5.0 for i in data]
return ret
# This block must always be the last thing in the program and calls main()
# if the program is executed, but not if it's imported
if __name__ == "__main__":
main()