GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

#! /usr/bin/python2.7 # This script is obsolete -- it is kept for historical purposes only. # # Fix Python source files to use the new class definition syntax, i.e., # the syntax used in Python versions before 0.9.8: # class C() = base(), base(), ...: ... # is changed to the current syntax: # class C(base, base, ...): ... # # The script uses heuristics to find class definitions that usually # work but occasionally can fail; carefully check the output! # # Command line arguments are files or directories to be processed. # Directories are searched recursively for files whose name looks # like a python module. # Symbolic links are always ignored (except as explicit directory # arguments). Of course, the original file is kept as a back-up # (with a "~" attached to its name). # # Changes made are reported to stdout in a diff-like format. # # Undoubtedly you can do this using find and sed or perl, but this is # a nice example of Python code that recurses down a directory tree # and uses regular expressions. Also note several subtleties like # preserving the file's mode and avoiding to even write a temp file # when no changes are needed for a file. # # NB: by changing only the function fixline() you can turn this # into a program for a different change to Python programs... import sys import re import os from stat import * err = sys.stderr.write dbg = err rep = sys.stdout.write def main(): bad = 0 if not sys.argv[1:]: # No arguments err('usage: ' + sys.argv[0] + ' file-or-directory ...\n') sys.exit(2) for arg in sys.argv[1:]: if os.path.isdir(arg): if recursedown(arg): bad = 1 elif os.path.islink(arg): err(arg + ': will not process symbolic links\n') bad = 1 else: if fix(arg): bad = 1 sys.exit(bad) ispythonprog = re.compile('^[a-zA-Z0-9_]+\.py$') def ispython(name): return ispythonprog.match(name) >= 0 def recursedown(dirname): dbg('recursedown(%r)\n' % (dirname,)) bad = 0 try: names = os.listdir(dirname) except os.error, msg: err('%s: cannot list directory: %r\n' % (dirname, msg)) return 1 names.sort() subdirs = [] for name in names: if name in (os.curdir, os.pardir): continue fullname = os.path.join(dirname, name) if os.path.islink(fullname): pass elif os.path.isdir(fullname): subdirs.append(fullname) elif ispython(name): if fix(fullname): bad = 1 for fullname in subdirs: if recursedown(fullname): bad = 1 return bad def fix(filename): ## dbg('fix(%r)\n' % (filename,)) try: f = open(filename, 'r') except IOError, msg: err('%s: cannot open: %r\n' % (filename, msg)) return 1 head, tail = os.path.split(filename) tempname = os.path.join(head, '@' + tail) g = None # If we find a match, we rewind the file and start over but # now copy everything to a temp file. lineno = 0 while 1: line = f.readline() if not line: break lineno = lineno + 1 while line[-2:] == '\\\n': nextline = f.readline() if not nextline: break line = line + nextline lineno = lineno + 1 newline = fixline(line) if newline != line: if g is None: try: g = open(tempname, 'w') except IOError, msg: f.close() err('%s: cannot create: %r\n' % (tempname, msg)) return 1 f.seek(0) lineno = 0 rep(filename + ':\n') continue # restart from the beginning rep(repr(lineno) + '\n') rep('< ' + line) rep('> ' + newline) if g is not None: g.write(newline) # End of file f.close() if not g: return 0 # No changes # Finishing touch -- move files # First copy the file's mode to the temp file try: statbuf = os.stat(filename) os.chmod(tempname, statbuf[ST_MODE] & 07777) except os.error, msg: err('%s: warning: chmod failed (%r)\n' % (tempname, msg)) # Then make a backup of the original file as filename~ try: os.rename(filename, filename + '~') except os.error, msg: err('%s: warning: backup failed (%r)\n' % (filename, msg)) # Now move the temp file to the original file try: os.rename(tempname, filename) except os.error, msg: err('%s: rename failed (%r)\n' % (filename, msg)) return 1 # Return succes return 0 # This expression doesn't catch *all* class definition headers, # but it's pretty darn close. classexpr = '^([ \t]*class +[a-zA-Z0-9_]+) *( *) *((=.*)?):' classprog = re.compile(classexpr) # Expressions for finding base class expressions. baseexpr = '^ *(.*) *( *) *$' baseprog = re.compile(baseexpr) def fixline(line): if classprog.match(line) < 0: # No 'class' keyword -- no change return line (a0, b0), (a1, b1), (a2, b2) = classprog.regs[:3] # a0, b0 = Whole match (up to ':') # a1, b1 = First subexpression (up to classname) # a2, b2 = Second subexpression (=.*) head = line[:b1] tail = line[b0:] # Unmatched rest of line if a2 == b2: # No base classes -- easy case return head + ':' + tail # Get rid of leading '=' basepart = line[a2+1:b2] # Extract list of base expressions bases = basepart.split(',') # Strip trailing '()' from each base expression for i in range(len(bases)): if baseprog.match(bases[i]) >= 0: x1, y1 = baseprog.regs[1] bases[i] = bases[i][x1:y1] # Join the bases back again and build the new line basepart = ', '.join(bases) return head + '(' + basepart + '):' + tail if __name__ == '__main__': main()