Tools/scripts/pindent.py - platform/external/python/cpython3 - Gitiles

 #! /usr/bin/env python

 # This file contains a class and a main program that perform three
 # related (though complimentary) formatting operations on Python
 # programs.  When called as "pindent -c", it takes a valid Python
 # program as input and outputs a version augmented with block-closing
 # comments.  When called as "pindent -d", it assumes its input is a
 # Python program with block-closing comments and outputs a commentless
 # version.   When called as "pindent -r" it assumes its input is a
 # Python program with block-closing comments but with its indentation
 # messed up, and outputs a properly indented version.

 # A "block-closing comment" is a comment of the form '# end <keyword>'
 # where <keyword> is the keyword that opened the block.  If the
 # opening keyword is 'def' or 'class', the function or class name may
 # be repeated in the block-closing comment as well.  Here is an
 # example of a program fully augmented with block-closing comments:

 # def foobar(a, b):
 #    if a == b:
 #        a = a+1
 #    elif a < b:
 #        b = b-1
 #        if b > a: a = a-1
 #        # end if
 #    else:
 #        print 'oops!'
 #    # end if
 # # end def foobar

 # Note that only the last part of an if...elif...else... block needs a
 # block-closing comment; the same is true for other compound
 # statements (e.g. try...except).  Also note that "short-form" blocks
 # like the second 'if' in the example must be closed as well;
 # otherwise the 'else' in the example would be ambiguous (remember
 # that indentation is not significant when interpreting block-closing
 # comments).

 # The operations are idempotent (i.e. applied to their own output
 # they yield an identical result).  Running first "pindent -c" and
 # then "pindent -r" on a valid Python program produces a program that
 # is semantically identical to the input (though its indentation may
 # be different). Running "pindent -e" on that output produces a
 # program that only differs from the original in indentation.

 # Other options:
 # -s stepsize: set the indentation step size (default 8)
 # -t tabsize : set the number of spaces a tab character is worth (default 8)
 # -e         : expand TABs into spaces
 # file ...   : input file(s) (default standard input)
 # The results always go to standard output

 # Caveats:
 # - comments ending in a backslash will be mistaken for continued lines
 # - continuations using backslash are always left unchanged
 # - continuations inside parentheses are not extra indented by -r
 #   but must be indented for -c to work correctly (this breaks
 #   idempotency!)
 # - continued lines inside triple-quoted strings are totally garbled

 # Secret feature:
 # - On input, a block may also be closed with an "end statement" --
 #   this is a block-closing comment without the '#' sign.

 # Possible improvements:
 # - check syntax based on transitions in 'next' table
 # - better error reporting
 # - better error recovery
 # - check identifier after class/def

 # The following wishes need a more complete tokenization of the source:
 # - Don't get fooled by comments ending in backslash
 # - reindent continuation lines indicated by backslash
 # - handle continuation lines inside parentheses/braces/brackets
 # - handle triple quoted strings spanning lines
 # - realign comments
 # - optionally do much more thorough reformatting, a la C indent

 # Defaults
 STEPSIZE = 8
 TABSIZE = 8
 EXPANDTABS = 0

 import os
 import re
 import string
 import sys

 next = {}
 next['if'] = next['elif'] = 'elif', 'else', 'end'
 next['while'] = next['for'] = 'else', 'end'
 next['try'] = 'except', 'finally'
 next['except'] = 'except', 'else', 'end'
 next['else'] = next['finally'] = next['def'] = next['class'] = 'end'
 next['end'] = ()
 start = 'if', 'while', 'for', 'try', 'def', 'class'

 class PythonIndenter:

     def __init__(self, fpi = sys.stdin, fpo = sys.stdout,
                  indentsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
         self.fpi = fpi
         self.fpo = fpo
         self.indentsize = indentsize
         self.tabsize = tabsize
         self.lineno = 0
         self.expandtabs = expandtabs
         self._write = fpo.write
         self.kwprog = re.compile(
                 r'^\s*(?P<kw>[a-z]+)'
                 r'(\s+(?P<id>[a-zA-Z_]\w*))?'
                 r'[^\w]')
         self.endprog = re.compile(
                 r'^\s*#?\s*end\s+(?P<kw>[a-z]+)'
                 r'(\s+(?P<id>[a-zA-Z_]\w*))?'
                 r'[^\w]')
         self.wsprog = re.compile(r'^[ \t]*')
     # end def __init__

     def write(self, line):
         if self.expandtabs:
             self._write(string.expandtabs(line, self.tabsize))
         else:
             self._write(line)
         # end if
     # end def write

     def readline(self):
         line = self.fpi.readline()
         if line: self.lineno = self.lineno + 1
         # end if
         return line
     # end def readline

     def error(self, fmt, *args):
         if args: fmt = fmt % args
         # end if
         sys.stderr.write('Error at line %d: %s\n' % (self.lineno, fmt))
         self.write('### %s ###\n' % fmt)
     # end def error

     def getline(self):
         line = self.readline()
         while line[-2:] == '\\\n':
             line2 = self.readline()
             if not line2: break
             # end if
             line = line + line2
         # end while
         return line
     # end def getline

     def putline(self, line, indent = None):
         if indent is None:
             self.write(line)
             return
         # end if
         tabs, spaces = divmod(indent*self.indentsize, self.tabsize)
         i = 0
         m = self.wsprog.match(line)
         if m: i = m.end()
         # end if
         self.write('\t'*tabs + ' '*spaces + line[i:])
     # end def putline

     def reformat(self):
         stack = []
         while 1:
             line = self.getline()
             if not line: break      # EOF
             # end if
             m = self.endprog.match(line)
             if m:
                 kw = 'end'
                 kw2 = m.group('kw')
                 if not stack:
                     self.error('unexpected end')
                 elif stack[-1][0] != kw2:
                     self.error('unmatched end')
                 # end if
                 del stack[-1:]
                 self.putline(line, len(stack))
                 continue
             # end if
             m = self.kwprog.match(line)
             if m:
                 kw = m.group('kw')
                 if kw in start:
                     self.putline(line, len(stack))
                     stack.append((kw, kw))
                     continue
                 # end if
                 if next.has_key(kw) and stack:
                     self.putline(line, len(stack)-1)
                     kwa, kwb = stack[-1]
                     stack[-1] = kwa, kw
                     continue
                 # end if
             # end if
             self.putline(line, len(stack))
         # end while
         if stack:
             self.error('unterminated keywords')
             for kwa, kwb in stack:
                 self.write('\t%s\n' % kwa)
             # end for
         # end if
     # end def reformat

     def delete(self):
         begin_counter = 0
         end_counter = 0
         while 1:
             line = self.getline()
             if not line: break      # EOF
             # end if
             m = self.endprog.match(line)
             if m:
                 end_counter = end_counter + 1
                 continue
             # end if
             m = self.kwprog.match(line)
             if m:
                 kw = m.group('kw')
                 if kw in start:
                     begin_counter = begin_counter + 1
                 # end if
             # end if
             self.putline(line)
         # end while
         if begin_counter - end_counter < 0:
             sys.stderr.write('Warning: input contained more end tags than expected\n')
         elif begin_counter - end_counter > 0:
             sys.stderr.write('Warning: input contained less end tags than expected\n')
         # end if
     # end def delete

     def complete(self):
         self.indentsize = 1
         stack = []
         todo = []
         current, firstkw, lastkw, topid = 0, '', '', ''
         while 1:
             line = self.getline()
             i = 0
             m = self.wsprog.match(line)
             if m: i = m.end()
             # end if
             m = self.endprog.match(line)
             if m:
                 thiskw = 'end'
                 endkw = m.group('kw')
                 thisid = m.group('id')
             else:
                 m = self.kwprog.match(line)
                 if m:
                     thiskw = m.group('kw')
                     if not next.has_key(thiskw):
                         thiskw = ''
                     # end if
                     if thiskw in ('def', 'class'):
                         thisid = m.group('id')
                     else:
                         thisid = ''
                     # end if
                 elif line[i:i+1] in ('\n', '#'):
                     todo.append(line)
                     continue
                 else:
                     thiskw = ''
                 # end if
             # end if
             indent = len(string.expandtabs(line[:i], self.tabsize))
             while indent < current:
                 if firstkw:
                     if topid:
                         s = '# end %s %s\n' % (
                                 firstkw, topid)
                     else:
                         s = '# end %s\n' % firstkw
                     # end if
                     self.putline(s, current)
                     firstkw = lastkw = ''
                 # end if
                 current, firstkw, lastkw, topid = stack[-1]
                 del stack[-1]
             # end while
             if indent == current and firstkw:
                 if thiskw == 'end':
                     if endkw != firstkw:
                         self.error('mismatched end')
                     # end if
                     firstkw = lastkw = ''
                 elif not thiskw or thiskw in start:
                     if topid:
                         s = '# end %s %s\n' % (
                                 firstkw, topid)
                     else:
                         s = '# end %s\n' % firstkw
                     # end if
                     self.putline(s, current)
                     firstkw = lastkw = topid = ''
                 # end if
             # end if
             if indent > current:
                 stack.append((current, firstkw, lastkw, topid))
                 if thiskw and thiskw not in start:
                     # error
                     thiskw = ''
                 # end if
                 current, firstkw, lastkw, topid = \
                          indent, thiskw, thiskw, thisid
             # end if
             if thiskw:
                 if thiskw in start:
                     firstkw = lastkw = thiskw
                     topid = thisid
                 else:
                     lastkw = thiskw
                 # end if
             # end if
             for l in todo: self.write(l)
             # end for
             todo = []
             if not line: break
             # end if
             self.write(line)
         # end while
     # end def complete

 # end class PythonIndenter

 # Simplified user interface
 # - xxx_filter(input, output): read and write file objects
 # - xxx_string(s): take and return string object
 # - xxx_file(filename): process file in place, return true iff changed

 def complete_filter(input = sys.stdin, output = sys.stdout,
                     stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
     pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
     pi.complete()
 # end def complete_filter

 def delete_filter(input= sys.stdin, output = sys.stdout,
                         stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
     pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
     pi.delete()
 # end def delete_filter

 def reformat_filter(input = sys.stdin, output = sys.stdout,
                     stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
     pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
     pi.reformat()
 # end def reformat_filter

 class StringReader:
     def __init__(self, buf):
         self.buf = buf
         self.pos = 0
         self.len = len(self.buf)
     # end def __init__
     def read(self, n = 0):
         if n <= 0:
             n = self.len - self.pos
         else:
             n = min(n, self.len - self.pos)
         # end if
         r = self.buf[self.pos : self.pos + n]
         self.pos = self.pos + n
         return r
     # end def read
     def readline(self):
         i = string.find(self.buf, '\n', self.pos)
         return self.read(i + 1 - self.pos)
     # end def readline
     def readlines(self):
         lines = []
         line = self.readline()
         while line:
             lines.append(line)
             line = self.readline()
         # end while
         return lines
     # end def readlines
     # seek/tell etc. are left as an exercise for the reader
 # end class StringReader

 class StringWriter:
     def __init__(self):
         self.buf = ''
     # end def __init__
     def write(self, s):
         self.buf = self.buf + s
     # end def write
     def getvalue(self):
         return self.buf
     # end def getvalue
 # end class StringWriter

 def complete_string(source, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
     input = StringReader(source)
     output = StringWriter()
     pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
     pi.complete()
     return output.getvalue()
 # end def complete_string

 def delete_string(source, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
     input = StringReader(source)
     output = StringWriter()
     pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
     pi.delete()
     return output.getvalue()
 # end def delete_string

 def reformat_string(source, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
     input = StringReader(source)
     output = StringWriter()
     pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
     pi.reformat()
     return output.getvalue()
 # end def reformat_string

 def complete_file(filename, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
     source = open(filename, 'r').read()
     result = complete_string(source, stepsize, tabsize, expandtabs)
     if source == result: return 0
     # end if
     import os
     try: os.rename(filename, filename + '~')
     except os.error: pass
     # end try
     f = open(filename, 'w')
     f.write(result)
     f.close()
     return 1
 # end def complete_file

 def delete_file(filename, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
     source = open(filename, 'r').read()
     result = delete_string(source, stepsize, tabsize, expandtabs)
     if source == result: return 0
     # end if
     import os
     try: os.rename(filename, filename + '~')
     except os.error: pass
     # end try
     f = open(filename, 'w')
     f.write(result)
     f.close()
     return 1
 # end def delete_file

 def reformat_file(filename, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
     source = open(filename, 'r').read()
     result = reformat_string(source, stepsize, tabsize, expandtabs)
     if source == result: return 0
     # end if
     import os
     try: os.rename(filename, filename + '~')
     except os.error: pass
     # end try
     f = open(filename, 'w')
     f.write(result)
     f.close()
     return 1
 # end def reformat_file

 # Test program when called as a script

 usage = """
 usage: pindent (-c|-d|-r) [-s stepsize] [-t tabsize] [-e] [file] ...
 -c         : complete a correctly indented program (add #end directives)
 -d         : delete #end directives
 -r         : reformat a completed program (use #end directives)
 -s stepsize: indentation step (default %(STEPSIZE)d)
 -t tabsize : the worth in spaces of a tab (default %(TABSIZE)d)
 -e         : expand TABs into spaces (defailt OFF)
 [file] ... : files are changed in place, with backups in file~
 If no files are specified or a single - is given,
 the program acts as a filter (reads stdin, writes stdout).
 """ % vars()

 def error_both(op1, op2):
     sys.stderr.write('Error: You can not specify both '+op1+' and -'+op2[0]+' at the same time\n')
     sys.stderr.write(usage)
     sys.exit(2)
 # end def error_both

 def test():
     import getopt
     try:
         opts, args = getopt.getopt(sys.argv[1:], 'cdrs:t:e')
     except getopt.error, msg:
         sys.stderr.write('Error: %s\n' % msg)
         sys.stderr.write(usage)
         sys.exit(2)
     # end try
     action = None
     stepsize = STEPSIZE
     tabsize = TABSIZE
     expandtabs = EXPANDTABS
     for o, a in opts:
         if o == '-c':
             if action: error_both(o, action)
             # end if
             action = 'complete'
         elif o == '-d':
             if action: error_both(o, action)
             # end if
             action = 'delete'
         elif o == '-r':
             if action: error_both(o, action)
             # end if
             action = 'reformat'
         elif o == '-s':
             stepsize = string.atoi(a)
         elif o == '-t':
             tabsize = string.atoi(a)
         elif o == '-e':
             expandtabs = 1
         # end if
     # end for
     if not action:
         sys.stderr.write(
                 'You must specify -c(omplete), -d(elete) or -r(eformat)\n')
         sys.stderr.write(usage)
         sys.exit(2)
     # end if
     if not args or args == ['-']:
         action = eval(action + '_filter')
         action(sys.stdin, sys.stdout, stepsize, tabsize, expandtabs)
     else:
         action = eval(action + '_file')
         for file in args:
             action(file, stepsize, tabsize, expandtabs)
         # end for
     # end if
 # end def test

 if __name__ == '__main__':
     test()
 # end if
	#! /usr/bin/env python

	# This file contains a class and a main program that perform three
	# related (though complimentary) formatting operations on Python
	# programs. When called as "pindent -c", it takes a valid Python
	# program as input and outputs a version augmented with block-closing
	# comments. When called as "pindent -d", it assumes its input is a
	# Python program with block-closing comments and outputs a commentless
	# version. When called as "pindent -r" it assumes its input is a
	# Python program with block-closing comments but with its indentation
	# messed up, and outputs a properly indented version.

	# A "block-closing comment" is a comment of the form '# end <keyword>'
	# where <keyword> is the keyword that opened the block. If the
	# opening keyword is 'def' or 'class', the function or class name may
	# be repeated in the block-closing comment as well. Here is an
	# example of a program fully augmented with block-closing comments:

	# def foobar(a, b):
	# if a == b:
	# a = a+1
	# elif a < b:
	# b = b-1
	# if b > a: a = a-1
	# # end if
	# else:
	# print 'oops!'
	# # end if
	# # end def foobar

	# Note that only the last part of an if...elif...else... block needs a
	# block-closing comment; the same is true for other compound
	# statements (e.g. try...except). Also note that "short-form" blocks
	# like the second 'if' in the example must be closed as well;
	# otherwise the 'else' in the example would be ambiguous (remember
	# that indentation is not significant when interpreting block-closing
	# comments).

	# The operations are idempotent (i.e. applied to their own output
	# they yield an identical result). Running first "pindent -c" and
	# then "pindent -r" on a valid Python program produces a program that
	# is semantically identical to the input (though its indentation may
	# be different). Running "pindent -e" on that output produces a
	# program that only differs from the original in indentation.

	# Other options:
	# -s stepsize: set the indentation step size (default 8)
	# -t tabsize : set the number of spaces a tab character is worth (default 8)
	# -e : expand TABs into spaces
	# file ... : input file(s) (default standard input)
	# The results always go to standard output

	# Caveats:
	# - comments ending in a backslash will be mistaken for continued lines
	# - continuations using backslash are always left unchanged
	# - continuations inside parentheses are not extra indented by -r
	# but must be indented for -c to work correctly (this breaks
	# idempotency!)
	# - continued lines inside triple-quoted strings are totally garbled

	# Secret feature:
	# - On input, a block may also be closed with an "end statement" --
	# this is a block-closing comment without the '#' sign.

	# Possible improvements:
	# - check syntax based on transitions in 'next' table
	# - better error reporting
	# - better error recovery
	# - check identifier after class/def

	# The following wishes need a more complete tokenization of the source:
	# - Don't get fooled by comments ending in backslash
	# - reindent continuation lines indicated by backslash
	# - handle continuation lines inside parentheses/braces/brackets
	# - handle triple quoted strings spanning lines
	# - realign comments
	# - optionally do much more thorough reformatting, a la C indent

	# Defaults
	STEPSIZE = 8
	TABSIZE = 8
	EXPANDTABS = 0

	import os
	import re
	import string
	import sys

	next = {}
	next['if'] = next['elif'] = 'elif', 'else', 'end'
	next['while'] = next['for'] = 'else', 'end'
	next['try'] = 'except', 'finally'
	next['except'] = 'except', 'else', 'end'
	next['else'] = next['finally'] = next['def'] = next['class'] = 'end'
	next['end'] = ()
	start = 'if', 'while', 'for', 'try', 'def', 'class'

	class PythonIndenter:

	def __init__(self, fpi = sys.stdin, fpo = sys.stdout,
	indentsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	self.fpi = fpi
	self.fpo = fpo
	self.indentsize = indentsize
	self.tabsize = tabsize
	self.lineno = 0
	self.expandtabs = expandtabs
	self._write = fpo.write
	self.kwprog = re.compile(
	r'^\s*(?P<kw>[a-z]+)'
	r'(\s+(?P<id>[a-zA-Z_]\w*))?'
	r'[^\w]')
	self.endprog = re.compile(
	r'^\s#?\send\s+(?P<kw>[a-z]+)'
	r'(\s+(?P<id>[a-zA-Z_]\w*))?'
	r'[^\w]')
	self.wsprog = re.compile(r'^[ \t]*')
	# end def __init__

	def write(self, line):
	if self.expandtabs:
	self._write(string.expandtabs(line, self.tabsize))
	else:
	self._write(line)
	# end if
	# end def write

	def readline(self):
	line = self.fpi.readline()
	if line: self.lineno = self.lineno + 1
	# end if
	return line
	# end def readline

	def error(self, fmt, *args):
	if args: fmt = fmt % args
	# end if
	sys.stderr.write('Error at line %d: %s\n' % (self.lineno, fmt))
	self.write('### %s ###\n' % fmt)
	# end def error

	def getline(self):
	line = self.readline()
	while line[-2:] == '\\\n':
	line2 = self.readline()
	if not line2: break
	# end if
	line = line + line2
	# end while
	return line
	# end def getline

	def putline(self, line, indent = None):
	if indent is None:
	self.write(line)
	return
	# end if
	tabs, spaces = divmod(indent*self.indentsize, self.tabsize)
	i = 0
	m = self.wsprog.match(line)
	if m: i = m.end()
	# end if
	self.write('\t'tabs + ' 'spaces + line[i:])
	# end def putline

	def reformat(self):
	stack = []
	while 1:
	line = self.getline()
	if not line: break # EOF
	# end if
	m = self.endprog.match(line)
	if m:
	kw = 'end'
	kw2 = m.group('kw')
	if not stack:
	self.error('unexpected end')
	elif stack[-1][0] != kw2:
	self.error('unmatched end')
	# end if
	del stack[-1:]
	self.putline(line, len(stack))
	continue
	# end if
	m = self.kwprog.match(line)
	if m:
	kw = m.group('kw')
	if kw in start:
	self.putline(line, len(stack))
	stack.append((kw, kw))
	continue
	# end if
	if next.has_key(kw) and stack:
	self.putline(line, len(stack)-1)
	kwa, kwb = stack[-1]
	stack[-1] = kwa, kw
	continue
	# end if
	# end if
	self.putline(line, len(stack))
	# end while
	if stack:
	self.error('unterminated keywords')
	for kwa, kwb in stack:
	self.write('\t%s\n' % kwa)
	# end for
	# end if
	# end def reformat

	def delete(self):
	begin_counter = 0
	end_counter = 0
	while 1:
	line = self.getline()
	if not line: break # EOF
	# end if
	m = self.endprog.match(line)
	if m:
	end_counter = end_counter + 1
	continue
	# end if
	m = self.kwprog.match(line)
	if m:
	kw = m.group('kw')
	if kw in start:
	begin_counter = begin_counter + 1
	# end if
	# end if
	self.putline(line)
	# end while
	if begin_counter - end_counter < 0:
	sys.stderr.write('Warning: input contained more end tags than expected\n')
	elif begin_counter - end_counter > 0:
	sys.stderr.write('Warning: input contained less end tags than expected\n')
	# end if
	# end def delete

	def complete(self):
	self.indentsize = 1
	stack = []
	todo = []
	current, firstkw, lastkw, topid = 0, '', '', ''
	while 1:
	line = self.getline()
	i = 0
	m = self.wsprog.match(line)
	if m: i = m.end()
	# end if
	m = self.endprog.match(line)
	if m:
	thiskw = 'end'
	endkw = m.group('kw')
	thisid = m.group('id')
	else:
	m = self.kwprog.match(line)
	if m:
	thiskw = m.group('kw')
	if not next.has_key(thiskw):
	thiskw = ''
	# end if
	if thiskw in ('def', 'class'):
	thisid = m.group('id')
	else:
	thisid = ''
	# end if
	elif line[i:i+1] in ('\n', '#'):
	todo.append(line)
	continue
	else:
	thiskw = ''
	# end if
	# end if
	indent = len(string.expandtabs(line[:i], self.tabsize))
	while indent < current:
	if firstkw:
	if topid:
	s = '# end %s %s\n' % (
	firstkw, topid)
	else:
	s = '# end %s\n' % firstkw
	# end if
	self.putline(s, current)
	firstkw = lastkw = ''
	# end if
	current, firstkw, lastkw, topid = stack[-1]
	del stack[-1]
	# end while
	if indent == current and firstkw:
	if thiskw == 'end':
	if endkw != firstkw:
	self.error('mismatched end')
	# end if
	firstkw = lastkw = ''
	elif not thiskw or thiskw in start:
	if topid:
	s = '# end %s %s\n' % (
	firstkw, topid)
	else:
	s = '# end %s\n' % firstkw
	# end if
	self.putline(s, current)
	firstkw = lastkw = topid = ''
	# end if
	# end if
	if indent > current:
	stack.append((current, firstkw, lastkw, topid))
	if thiskw and thiskw not in start:
	# error
	thiskw = ''
	# end if
	current, firstkw, lastkw, topid = \
	indent, thiskw, thiskw, thisid
	# end if
	if thiskw:
	if thiskw in start:
	firstkw = lastkw = thiskw
	topid = thisid
	else:
	lastkw = thiskw
	# end if
	# end if
	for l in todo: self.write(l)
	# end for
	todo = []
	if not line: break
	# end if
	self.write(line)
	# end while
	# end def complete

	# end class PythonIndenter

	# Simplified user interface
	# - xxx_filter(input, output): read and write file objects
	# - xxx_string(s): take and return string object
	# - xxx_file(filename): process file in place, return true iff changed

	def complete_filter(input = sys.stdin, output = sys.stdout,
	stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
	pi.complete()
	# end def complete_filter

	def delete_filter(input= sys.stdin, output = sys.stdout,
	stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
	pi.delete()
	# end def delete_filter

	def reformat_filter(input = sys.stdin, output = sys.stdout,
	stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
	pi.reformat()
	# end def reformat_filter

	class StringReader:
	def __init__(self, buf):
	self.buf = buf
	self.pos = 0
	self.len = len(self.buf)
	# end def __init__
	def read(self, n = 0):
	if n <= 0:
	n = self.len - self.pos
	else:
	n = min(n, self.len - self.pos)
	# end if
	r = self.buf[self.pos : self.pos + n]
	self.pos = self.pos + n
	return r
	# end def read
	def readline(self):
	i = string.find(self.buf, '\n', self.pos)
	return self.read(i + 1 - self.pos)
	# end def readline
	def readlines(self):
	lines = []
	line = self.readline()
	while line:
	lines.append(line)
	line = self.readline()
	# end while
	return lines
	# end def readlines
	# seek/tell etc. are left as an exercise for the reader
	# end class StringReader

	class StringWriter:
	def __init__(self):
	self.buf = ''
	# end def __init__
	def write(self, s):
	self.buf = self.buf + s
	# end def write
	def getvalue(self):
	return self.buf
	# end def getvalue
	# end class StringWriter

	def complete_string(source, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	input = StringReader(source)
	output = StringWriter()
	pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
	pi.complete()
	return output.getvalue()
	# end def complete_string

	def delete_string(source, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	input = StringReader(source)
	output = StringWriter()
	pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
	pi.delete()
	return output.getvalue()
	# end def delete_string

	def reformat_string(source, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	input = StringReader(source)
	output = StringWriter()
	pi = PythonIndenter(input, output, stepsize, tabsize, expandtabs)
	pi.reformat()
	return output.getvalue()
	# end def reformat_string

	def complete_file(filename, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	source = open(filename, 'r').read()
	result = complete_string(source, stepsize, tabsize, expandtabs)
	if source == result: return 0
	# end if
	import os
	try: os.rename(filename, filename + '~')
	except os.error: pass
	# end try
	f = open(filename, 'w')
	f.write(result)
	f.close()
	return 1
	# end def complete_file

	def delete_file(filename, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	source = open(filename, 'r').read()
	result = delete_string(source, stepsize, tabsize, expandtabs)
	if source == result: return 0
	# end if
	import os
	try: os.rename(filename, filename + '~')
	except os.error: pass
	# end try
	f = open(filename, 'w')
	f.write(result)
	f.close()
	return 1
	# end def delete_file

	def reformat_file(filename, stepsize = STEPSIZE, tabsize = TABSIZE, expandtabs = EXPANDTABS):
	source = open(filename, 'r').read()
	result = reformat_string(source, stepsize, tabsize, expandtabs)
	if source == result: return 0
	# end if
	import os
	try: os.rename(filename, filename + '~')
	except os.error: pass
	# end try
	f = open(filename, 'w')
	f.write(result)
	f.close()
	return 1
	# end def reformat_file

	# Test program when called as a script

	usage = """
	usage: pindent (-c\|-d\|-r) [-s stepsize] [-t tabsize] [-e] [file] ...
	-c : complete a correctly indented program (add #end directives)
	-d : delete #end directives
	-r : reformat a completed program (use #end directives)
	-s stepsize: indentation step (default %(STEPSIZE)d)
	-t tabsize : the worth in spaces of a tab (default %(TABSIZE)d)
	-e : expand TABs into spaces (defailt OFF)
	[file] ... : files are changed in place, with backups in file~
	If no files are specified or a single - is given,
	the program acts as a filter (reads stdin, writes stdout).
	""" % vars()

	def error_both(op1, op2):
	sys.stderr.write('Error: You can not specify both '+op1+' and -'+op2[0]+' at the same time\n')
	sys.stderr.write(usage)
	sys.exit(2)
	# end def error_both

	def test():
	import getopt
	try:
	opts, args = getopt.getopt(sys.argv[1:], 'cdrs:t:e')
	except getopt.error, msg:
	sys.stderr.write('Error: %s\n' % msg)
	sys.stderr.write(usage)
	sys.exit(2)
	# end try
	action = None
	stepsize = STEPSIZE
	tabsize = TABSIZE
	expandtabs = EXPANDTABS
	for o, a in opts:
	if o == '-c':
	if action: error_both(o, action)
	# end if
	action = 'complete'
	elif o == '-d':
	if action: error_both(o, action)
	# end if
	action = 'delete'
	elif o == '-r':
	if action: error_both(o, action)
	# end if
	action = 'reformat'
	elif o == '-s':
	stepsize = string.atoi(a)
	elif o == '-t':
	tabsize = string.atoi(a)
	elif o == '-e':
	expandtabs = 1
	# end if
	# end for
	if not action:
	sys.stderr.write(
	'You must specify -c(omplete), -d(elete) or -r(eformat)\n')
	sys.stderr.write(usage)
	sys.exit(2)
	# end if
	if not args or args == ['-']:
	action = eval(action + '_filter')
	action(sys.stdin, sys.stdout, stepsize, tabsize, expandtabs)
	else:
	action = eval(action + '_file')
	for file in args:
	action(file, stepsize, tabsize, expandtabs)
	# end for
	# end if
	# end def test

	if __name__ == '__main__':
	test()
	# end if