"""
PYTHON SOFTWARE FOUNDATION LICENSE VERSION 2 --------------------------------------------
1. This LICENSE AGREEMENT is between the Python Software Foundation ("PSF"), and the Individual or Organization ("Licensee") accessing and otherwise using this software ("Python") in source or binary form and its associated documentation.
2. Subject to the terms and conditions of this License Agreement, PSF hereby grants Licensee a nonexclusive, royalty-free, world-wide license to reproduce, analyze, test, perform and/or display publicly, prepare derivative works, distribute, and otherwise use Python alone or in any derivative version, provided, however, that PSF's License Agreement and PSF's notice of copyright, i.e., "Copyright (c) 2001, 2002, 2003, 2004 Python Software Foundation; All Rights Reserved" are retained in Python alone or in any derivative version prepared by Licensee.
3. In the event Licensee prepares a derivative work that is based on or incorporates Python or any part thereof, and wants to make the derivative work available to others as provided herein, then Licensee hereby agrees to include in any such work a brief summary of the changes made to Python.
4. PSF is making Python available to Licensee on an "AS IS" basis. PSF MAKES NO REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED. BY WAY OF EXAMPLE, BUT NOT LIMITATION, PSF MAKES NO AND DISCLAIMS ANY REPRESENTATION OR WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE OR THAT THE USE OF PYTHON WILL NOT INFRINGE ANY THIRD PARTY RIGHTS.
5. PSF SHALL NOT BE LIABLE TO LICENSEE OR ANY OTHER USERS OF PYTHON FOR ANY INCIDENTAL, SPECIAL, OR CONSEQUENTIAL DAMAGES OR LOSS AS A RESULT OF MODIFYING, DISTRIBUTING, OR OTHERWISE USING PYTHON, OR ANY DERIVATIVE THEREOF, EVEN IF ADVISED OF THE POSSIBILITY THEREOF.
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7. Nothing in this License Agreement shall be deemed to create any relationship of agency, partnership, or joint venture between PSF and Licensee. This License Agreement does not grant permission to use PSF trademarks or trade name in a trademark sense to endorse or promote products or services of Licensee, or any third party.
8. By copying, installing or otherwise using Python, Licensee agrees to be bound by the terms and conditions of this License Agreement. """ #! /usr/bin/env python
# pdeps # # Find dependencies between a bunch of Python modules. # # Usage: # pdeps file1.py file2.py ... # # Output: # Four tables separated by lines like '--- Closure ---': # 1) Direct dependencies, listing which module imports which other modules # 2) The inverse of (1) # 3) Indirect dependencies, or the closure of the above # 4) The inverse of (3) # # To do: # - command line options to select output type # - option to automatically scan the Python library for referenced modules # - option to limit output to particular modules
import sys import regex import os
# Main program # def main(): args = sys.argv[1:] if not args: print 'usage: pdeps file.py file.py ...' return 2 # table = {} for arg in args: process(arg, table) # print '--- Uses ---' printresults(table) # print '--- Used By ---' inv = inverse(table) printresults(inv) # print '--- Closure of Uses ---' reach = closure(table) printresults(reach) # print '--- Closure of Used By ---' invreach = inverse(reach) printresults(invreach) # return 0
# Compiled regular expressions to search for import statements # m_import = regex.compile('^[ t]*from[ t]+([^ t]+)[ t]+') m_from = regex.compile('^[ t]*import[ t]+([^#]+)')
# Collect data from one file # def process(filename, table): fp = open(filename, 'r') mod = os.path.basename(filename) if mod[-3:] == '.py': mod = mod[:-3] table[mod] = list = [] while 1: line = fp.readline() if not line: break while line[-1:] == '\': nextline = fp.readline() if not nextline: break line = line[:-1] + nextline if m_import.match(line) >= 0: (a, b), (a1, b1) = m_import.regs[:2] elif m_from.match(line) >= 0: (a, b), (a1, b1) = m_from.regs[:2] else: continue words = line[a1:b1].split(',') # print '#', line, words for word in words: word = word.strip() if word not in list: list.append(word)
# Compute closure (this is in fact totally general) # def closure(table): modules = table.keys() # # Initialize reach with a copy of table # reach = {} for mod in modules: reach[mod] = table[mod][:] # # Iterate until no more change # change = 1 while change: change = 0 for mod in modules: for mo in reach[mod]: if mo in modules: for m in reach[mo]: if m not in reach[mod]: reach[mod].append(m) change = 1 # return reach
# Invert a table (this is again totally general). # All keys of the original table are made keys of the inverse, # so there may be empty lists in the inverse. # def inverse(table): inv = {} for key in table.keys(): if not inv.has_key(key): inv[key] = [] for item in table[key]: store(inv, item, key) return inv
# Store "item" in "dict" under "key". # The dictionary maps keys to lists of items. # If there is no list for the key yet, it is created. # def store(dict, key, item): if dict.has_key(key): dict[key].append(item) else: dict[key] = [item]
# Tabulate results neatly # def printresults(table): modules = table.keys() maxlen = 0 for mod in modules: maxlen = max(maxlen, len(mod)) modules.sort() for mod in modules: list = table[mod] list.sort() print mod.ljust(maxlen), ':', if mod in list: print '(*)', for ref in list: print ref, print
# Call main and honor exit status if __name__ == '__main__': try: sys.exit(main()) except KeyboardInterrupt: sys.exit(1)
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