scripts/apply_edits.py - chromium/src/tools/clang - Git at Google

 #!/usr/bin/env python
 # Copyright (c) 2013 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.
 """Applies edits generated by a clang tool that was run on Chromium code.

 Synopsis:

   cat run_tool.out | extract_edits.py | apply_edits.py <build dir> <filters...>

 For example - to apply edits only to WTF sources:

   ... | apply_edits.py out/gn third_party/WebKit/Source/wtf

 In addition to filters specified on the command line, the tool also skips edits
 that apply to files that are not covered by git.
 """

 import argparse
 import collections
 import functools
 import multiprocessing
 import os
 import os.path
 import re
 import subprocess
 import sys

 script_dir = os.path.dirname(os.path.realpath(__file__))
 tool_dir = os.path.abspath(os.path.join(script_dir, '../pylib'))
 sys.path.insert(0, tool_dir)

 from clang import compile_db

 Edit = collections.namedtuple('Edit',
                               ('edit_type', 'offset', 'length', 'replacement'))


 def _GetFilesFromGit(paths=None):
   """Gets the list of files in the git repository.

   Args:
     paths: Prefix filter for the returned paths. May contain multiple entries.
   """
   args = []
   if sys.platform == 'win32':
     args.append('git.bat')
   else:
     args.append('git')
   args.append('ls-files')
   if paths:
     args.extend(paths)
   command = subprocess.Popen(args, stdout=subprocess.PIPE)
   output, _ = command.communicate()
   output = output.decode('utf-8')
   return [os.path.realpath(p) for p in output.splitlines()]


 def _ParseEditsFromStdin(build_directory):
   """Extracts generated list of edits from the tool's stdout.

   The expected format is documented at the top of this file.

   Args:
     build_directory: Directory that contains the compile database. Used to
       normalize the filenames.
     stdout: The stdout from running the clang tool.

   Returns:
     A dictionary mapping filenames to the associated edits.
   """
   path_to_resolved_path = {}
   def _ResolvePath(path):
     if path in path_to_resolved_path:
       return path_to_resolved_path[path]

     if not os.path.isfile(path):
       resolved_path = os.path.realpath(os.path.join(build_directory, path))
     else:
       resolved_path = os.path.realpath(path)

     if not os.path.isfile(resolved_path):
       sys.stderr.write('Edit applies to a non-existent file: %s\n' % path)
       resolved_path = None

     path_to_resolved_path[path] = resolved_path
     return resolved_path

   edits = collections.defaultdict(list)
   for line in sys.stdin:
     line = line.rstrip("\n\r")
     try:
       edit_type, path, offset, length, replacement = line.split(':::', 4)
       replacement = replacement.replace('\0', '\n')
       path = _ResolvePath(path)
       if not path: continue
       edits[path].append(Edit(edit_type, int(offset), int(length), replacement))
     except ValueError:
       sys.stderr.write('Unable to parse edit: %s\n' % line)
   return edits


 _PLATFORM_SUFFIX = \
     r'(?:_(?:android|aura|chromeos|ios|linux|mac|ozone|posix|win|x11))?'
 _TEST_SUFFIX = \
     r'(?:_(?:browser|interactive_ui|ui|unit)?test)?'
 _suffix_regex = re.compile(_PLATFORM_SUFFIX + _TEST_SUFFIX)


 def _FindPrimaryHeaderBasename(filepath):
   """ Translates bar/foo.cc -> foo
                  bar/foo_posix.cc -> foo
                  bar/foo_unittest.cc -> foo
                  bar/foo.h -> None
   """
   dirname, filename = os.path.split(filepath)
   basename, extension = os.path.splitext(filename)
   if extension == '.h':
     return None
   basename = _suffix_regex.sub('', basename)
   return basename


 _INCLUDE_INSERTION_POINT_REGEX_TEMPLATE = r'''
    ^(?!               # Match the start of the first line that is
                       # not one of the following:

       \s+             # 1. Line starting with whitespace
                       #    (this includes blank lines and continuations of
                       #     C comments that start with whitespace/indentation)

     | //              # 2a. A C++ comment
     | /\*             # 2b. A C comment
     | \*              # 2c. A continuation of a C comment
                       #     (see also rule 1. above)

     | \xef \xbb \xbf  # 3. "Lines" starting with BOM character

       # 4. Include guards (Chromium-style)
     | \#ifndef \s+ [A-Z0-9_]+_H ( | _ | __ ) \b \s* $
     | \#define \s+ [A-Z0-9_]+_H ( | _ | __ ) \b \s* $

       # 4b. Include guards (anything that repeats):
       #     - the same <guard> has to repeat in both the #ifndef and the #define
       #     - #define has to be "simple" - either:
       #         - either: #define GUARD
       #         - or    : #define GUARD 1
     | \#ifndef \s+ (?P<guard> [A-Za-z0-9_]* ) \s* $ ( \n | \r )* ^
       \#define \s+ (?P=guard) \s* ( | 1 \s* ) $
     | \#define \s+ (?P=guard) \s* ( | 1 \s* ) $  # Skipping previous line.

       # 5. A C/C++ system include
     | \#include \s* < .* >

       # 6. A primary header include
       #    (%%s should be the basename returned by _FindPrimaryHeaderBasename).
       #
       # TODO(lukasza): Do not allow any directory below - require the top-level
       # directory to be the same and at least one itermediate dirname to be the
       # same.
     | \#include \s*   "
           [^"]* \b       # Allowing any directory
           %s[^"/]*\.h "  # Matching both basename.h and basename_posix.h
     )
 '''


 _NEWLINE_CHARACTERS = [ord('\n'), ord('\r')]


 def _FindStartOfPreviousLine(contents, index):
   """ Requires that `index` points to the start of a line.
       Returns an index to the start of the previous line.
   """
   assert (index > 0)
   assert (contents[index - 1] in _NEWLINE_CHARACTERS)

   # Go back over the newline characters associated with the *single* end of a
   # line just before `index`, despite of whether end of a line is designated by
   # "\r", "\n" or "\r\n".  Examples:
   # 1. "... \r\n <new index> \r\n <old index> ...
   # 2. "... \n <new index> \n <old index> ...
   index = index - 1
   if index > 0 and contents[index - 1] in _NEWLINE_CHARACTERS and \
       contents[index - 1] != contents[index]:
     index = index - 1

   # Go back until `index` points right after an end of a line (or at the
   # beginning of the `contents`).
   while index > 0 and contents[index - 1] not in _NEWLINE_CHARACTERS:
     index = index - 1

   return index


 def _SkipOverPreviousComment(contents, index):
   """ Returns `index`, possibly moving it earlier so that it skips over comment
       lines appearing in `contents` just before the old `index.

       Example:
           <returned `index` points here>// Comment
                                         // Comment
           <original `index` points here>bar
   """
   # If `index` points at the start of the file, or `index` doesn't point at the
   # beginning of a line, then don't skip anything and just return `index`.
   if index == 0 or contents[index - 1] not in _NEWLINE_CHARACTERS:
     return index

   # Is the previous line a non-comment?  If so, just return `index`.
   new_index = _FindStartOfPreviousLine(contents, index)
   prev_text = contents[new_index:index]
   _COMMENT_START_REGEX = "^  \s*  (  //  |  \*  )"
   if not re.search(_COMMENT_START_REGEX, prev_text, re.VERBOSE):
     return index

   # Otherwise skip over the previous line + continue skipping via recursion.
   return _SkipOverPreviousComment(contents, new_index)


 def _InsertNonSystemIncludeHeader(filepath, header_line_to_add, contents):
   """ Mutates |contents| (contents of |filepath|) to #include
       the |header_to_add
   """
   # Don't add the header if it is already present.
   replacement_text = header_line_to_add
   if replacement_text in contents:
     return contents
   replacement_text += '\n'

   # Find the right insertion point.
   #
   # Note that we depend on a follow-up |git cl format| for the right order of
   # headers.  Therefore we just need to find the right header group (e.g. skip
   # system headers and the primary header).
   primary_header_basename = _FindPrimaryHeaderBasename(filepath)
   if primary_header_basename is None:
     primary_header_basename = ':this:should:never:match:'
   regex_text = _INCLUDE_INSERTION_POINT_REGEX_TEMPLATE % primary_header_basename
   match = re.search(regex_text, contents, re.MULTILINE | re.VERBOSE)
   assert (match is not None)
   insertion_point = _SkipOverPreviousComment(contents, match.start())

   # Extra empty line is required if the addition is not adjacent to other
   # includes.
   if not contents[insertion_point:].startswith('#include'):
     replacement_text += '\n'

   # Make the edit.
   return contents[:insertion_point] + replacement_text + \
       contents[insertion_point:]


 def _ApplyReplacement(filepath, contents, edit, last_edit):
   assert (edit.edit_type == 'r')
   assert ((last_edit is None) or (last_edit.edit_type == 'r'))

   if last_edit is not None:
     if edit.offset == last_edit.offset and edit.length == last_edit.length:
       assert (edit.replacement != last_edit.replacement)
       raise ValueError(('Conflicting replacement text: ' +
                         '%s at offset %d, length %d: "%s" != "%s"\n') %
                        (filepath, edit.offset, edit.length, edit.replacement,
                         last_edit.replacement))

     if edit.offset + edit.length > last_edit.offset:
       raise ValueError(
           ('Overlapping replacements: ' +
            '%s at offset %d, length %d: "%s" and ' +
            'offset %d, length %d: "%s"\n') %
           (filepath, edit.offset, edit.length, edit.replacement,
            last_edit.offset, last_edit.length, last_edit.replacement))

   start = edit.offset
   end = edit.offset + edit.length
   contents = contents[:start] + edit.replacement + contents[end:]
   if not edit.replacement:
     contents = _ExtendDeletionIfElementIsInList(contents, edit.offset)
   return contents


 def _ApplyIncludeHeader(filepath, contents, edit, last_edit):
   header_line_to_add = '#include "%s"' % edit.replacement
   return _InsertNonSystemIncludeHeader(filepath, header_line_to_add, contents)


 def _ApplySingleEdit(filepath, contents, edit, last_edit):
   if edit.edit_type == 'r':
     return _ApplyReplacement(filepath, contents, edit, last_edit)
   elif edit.edit_type == 'include-user-header':
     return _ApplyIncludeHeader(filepath, contents, edit, last_edit)
   else:
     raise ValueError('Unrecognized edit directive "%s": %s\n' %
                      (edit.edit_type, filepath))
     return contents


 def _ApplyEditsToSingleFileContents(filepath, contents, edits):
   # Sort the edits and iterate through them in reverse order. Sorting allows
   # duplicate edits to be quickly skipped, while reversing means that
   # subsequent edits don't need to have their offsets updated with each edit
   # applied.
   #
   # Note that after sorting in reverse, the 'i' directives will come after 'r'
   # directives.
   edits.sort(reverse=True)

   edit_count = 0
   error_count = 0
   last_edit = None
   for edit in edits:
     if edit == last_edit:
       continue
     try:
       contents = _ApplySingleEdit(filepath, contents, edit, last_edit)
       last_edit = edit
       edit_count += 1
     except ValueError as err:
       sys.stderr.write(str(err) + '\n')
       error_count += 1

   return (contents, edit_count, error_count)


 def _ApplyEditsToSingleFile(filepath, edits):
   with open(filepath, 'r+') as f:
     contents = f.read()
     (contents, edit_count,
      error_count) = _ApplyEditsToSingleFileContents(filepath, contents, edits)
     f.seek(0)
     f.truncate()
     f.write(contents)
   return (edit_count, error_count)


 def _ApplyEdits(edits):
   """Apply the generated edits.

   Args:
     edits: A dict mapping filenames to Edit instances that apply to that file.
   """
   edit_count = 0
   error_count = 0
   done_files = 0
   for k, v in edits.items():
     tmp_edit_count, tmp_error_count = _ApplyEditsToSingleFile(k, v)
     edit_count += tmp_edit_count
     error_count += tmp_error_count
     done_files += 1
     percentage = (float(done_files) / len(edits)) * 100
     sys.stdout.write('Applied %d edits (%d errors) to %d files [%.2f%%]\r' %
                      (edit_count, error_count, done_files, percentage))

   sys.stdout.write('\n')
   return -error_count


 _WHITESPACE_BYTES = frozenset((ord('\t'), ord('\n'), ord('\r'), ord(' ')))


 def _ExtendDeletionIfElementIsInList(contents, offset):
   """Extends the range of a deletion if the deleted element was part of a list.

   This rewriter helper makes it easy for refactoring tools to remove elements
   from a list. Even if a matcher callback knows that it is removing an element
   from a list, it may not have enough information to accurately remove the list
   element; for example, another matcher callback may end up removing an adjacent
   list element, or all the list elements may end up being removed.

   With this helper, refactoring tools can simply remove the list element and not
   worry about having to include the comma in the replacement.

   Args:
     contents: A bytearray with the deletion already applied.
     offset: The offset in the bytearray where the deleted range used to be.
   """
   char_before = char_after = None
   left_trim_count = 0
   for byte in reversed(contents[:offset]):
     left_trim_count += 1
     if byte in _WHITESPACE_BYTES:
       continue
     if byte in (ord(','), ord(':'), ord('('), ord('{')):
       char_before = chr(byte)
     break

   right_trim_count = 0
   for byte in contents[offset:]:
     right_trim_count += 1
     if byte in _WHITESPACE_BYTES:
       continue
     if byte == ord(','):
       char_after = chr(byte)
     break

   if char_before:
     if char_after:
       return contents[:offset] + contents[offset + right_trim_count:]
     elif char_before in (',', ':'):
       return contents[:offset - left_trim_count] + contents[offset:]
   return contents


 def main():
   parser = argparse.ArgumentParser()
   parser.add_argument(
       '-p',
       required=True,
       help='path to the build dir (dir that edit paths are relative to)')
   parser.add_argument(
       'path_filter',
       nargs='*',
       help='optional paths to filter what files the tool is run on')
   args = parser.parse_args()

   filenames = set(_GetFilesFromGit(args.path_filter))
   edits = _ParseEditsFromStdin(args.p)
   return _ApplyEdits(
       {k: v
        for k, v in edits.items() if os.path.realpath(k) in filenames})


 if __name__ == '__main__':
   sys.exit(main())
	#!/usr/bin/env python
	# Copyright (c) 2013 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.
	"""Applies edits generated by a clang tool that was run on Chromium code.

	Synopsis:

	cat run_tool.out \| extract_edits.py \| apply_edits.py <build dir> <filters...>

	For example - to apply edits only to WTF sources:

	... \| apply_edits.py out/gn third_party/WebKit/Source/wtf

	In addition to filters specified on the command line, the tool also skips edits
	that apply to files that are not covered by git.
	"""

	import argparse
	import collections
	import functools
	import multiprocessing
	import os
	import os.path
	import re
	import subprocess
	import sys

	script_dir = os.path.dirname(os.path.realpath(__file__))
	tool_dir = os.path.abspath(os.path.join(script_dir, '../pylib'))
	sys.path.insert(0, tool_dir)

	from clang import compile_db

	Edit = collections.namedtuple('Edit',
	('edit_type', 'offset', 'length', 'replacement'))


	def _GetFilesFromGit(paths=None):
	"""Gets the list of files in the git repository.

	Args:
	paths: Prefix filter for the returned paths. May contain multiple entries.
	"""
	args = []
	if sys.platform == 'win32':
	args.append('git.bat')
	else:
	args.append('git')
	args.append('ls-files')
	if paths:
	args.extend(paths)
	command = subprocess.Popen(args, stdout=subprocess.PIPE)
	output, _ = command.communicate()
	output = output.decode('utf-8')
	return [os.path.realpath(p) for p in output.splitlines()]


	def _ParseEditsFromStdin(build_directory):
	"""Extracts generated list of edits from the tool's stdout.

	The expected format is documented at the top of this file.

	Args:
	build_directory: Directory that contains the compile database. Used to
	normalize the filenames.
	stdout: The stdout from running the clang tool.

	Returns:
	A dictionary mapping filenames to the associated edits.
	"""
	path_to_resolved_path = {}
	def _ResolvePath(path):
	if path in path_to_resolved_path:
	return path_to_resolved_path[path]

	if not os.path.isfile(path):
	resolved_path = os.path.realpath(os.path.join(build_directory, path))
	else:
	resolved_path = os.path.realpath(path)

	if not os.path.isfile(resolved_path):
	sys.stderr.write('Edit applies to a non-existent file: %s\n' % path)
	resolved_path = None

	path_to_resolved_path[path] = resolved_path
	return resolved_path

	edits = collections.defaultdict(list)
	for line in sys.stdin:
	line = line.rstrip("\n\r")
	try:
	edit_type, path, offset, length, replacement = line.split(':::', 4)
	replacement = replacement.replace('\0', '\n')
	path = _ResolvePath(path)
	if not path: continue
	edits[path].append(Edit(edit_type, int(offset), int(length), replacement))
	except ValueError:
	sys.stderr.write('Unable to parse edit: %s\n' % line)
	return edits


	_PLATFORM_SUFFIX = \
	r'(?:_(?:android\|aura\|chromeos\|ios\|linux\|mac\|ozone\|posix\|win\|x11))?'
	_TEST_SUFFIX = \
	r'(?:_(?:browser\|interactive_ui\|ui\|unit)?test)?'
	_suffix_regex = re.compile(_PLATFORM_SUFFIX + _TEST_SUFFIX)


	def _FindPrimaryHeaderBasename(filepath):
	""" Translates bar/foo.cc -> foo
	bar/foo_posix.cc -> foo
	bar/foo_unittest.cc -> foo
	bar/foo.h -> None
	"""
	dirname, filename = os.path.split(filepath)
	basename, extension = os.path.splitext(filename)
	if extension == '.h':
	return None
	basename = _suffix_regex.sub('', basename)
	return basename


	_INCLUDE_INSERTION_POINT_REGEX_TEMPLATE = r'''
	^(?! # Match the start of the first line that is
	# not one of the following:

	\s+ # 1. Line starting with whitespace
	# (this includes blank lines and continuations of
	# C comments that start with whitespace/indentation)

	\| // # 2a. A C++ comment
	\| /\* # 2b. A C comment
	\| \* # 2c. A continuation of a C comment
	# (see also rule 1. above)

	\| \xef \xbb \xbf # 3. "Lines" starting with BOM character

	# 4. Include guards (Chromium-style)
	\| \#ifndef \s+ [A-Z0-9_]+_H ( \| _ \| __ ) \b \s* $
	\| \#define \s+ [A-Z0-9_]+_H ( \| _ \| __ ) \b \s* $

	# 4b. Include guards (anything that repeats):
	# - the same <guard> has to repeat in both the #ifndef and the #define
	# - #define has to be "simple" - either:
	# - either: #define GUARD
	# - or : #define GUARD 1
	\| \#ifndef \s+ (?P<guard> [A-Za-z0-9_]* ) \s* $ ( \n \| \r )* ^
	\#define \s+ (?P=guard) \s* ( \| 1 \s* ) $
	\| \#define \s+ (?P=guard) \s* ( \| 1 \s* ) $ # Skipping previous line.

	# 5. A C/C++ system include
	\| \#include \s* < .* >

	# 6. A primary header include
	# (%%s should be the basename returned by _FindPrimaryHeaderBasename).
	#
	# TODO(lukasza): Do not allow any directory below - require the top-level
	# directory to be the same and at least one itermediate dirname to be the
	# same.
	\| \#include \s* "
	[^"]* \b # Allowing any directory
	%s[^"/]*\.h " # Matching both basename.h and basename_posix.h
	)
	'''


	_NEWLINE_CHARACTERS = [ord('\n'), ord('\r')]


	def _FindStartOfPreviousLine(contents, index):
	""" Requires that `index` points to the start of a line.
	Returns an index to the start of the previous line.
	"""
	assert (index > 0)
	assert (contents[index - 1] in _NEWLINE_CHARACTERS)

	# Go back over the newline characters associated with the single end of a
	# line just before `index`, despite of whether end of a line is designated by
	# "\r", "\n" or "\r\n". Examples:
	# 1. "... \r\n <new index> \r\n <old index> ...
	# 2. "... \n <new index> \n <old index> ...
	index = index - 1
	if index > 0 and contents[index - 1] in _NEWLINE_CHARACTERS and \
	contents[index - 1] != contents[index]:
	index = index - 1

	# Go back until `index` points right after an end of a line (or at the
	# beginning of the `contents`).
	while index > 0 and contents[index - 1] not in _NEWLINE_CHARACTERS:
	index = index - 1

	return index


	def _SkipOverPreviousComment(contents, index):
	""" Returns `index`, possibly moving it earlier so that it skips over comment
	lines appearing in `contents` just before the old `index.

	Example:
	<returned `index` points here>// Comment
	// Comment
	<original `index` points here>bar
	"""
	# If `index` points at the start of the file, or `index` doesn't point at the
	# beginning of a line, then don't skip anything and just return `index`.
	if index == 0 or contents[index - 1] not in _NEWLINE_CHARACTERS:
	return index

	# Is the previous line a non-comment? If so, just return `index`.
	new_index = _FindStartOfPreviousLine(contents, index)
	prev_text = contents[new_index:index]
	_COMMENT_START_REGEX = "^ \s* ( // \| \* )"
	if not re.search(_COMMENT_START_REGEX, prev_text, re.VERBOSE):
	return index

	# Otherwise skip over the previous line + continue skipping via recursion.
	return _SkipOverPreviousComment(contents, new_index)


	def _InsertNonSystemIncludeHeader(filepath, header_line_to_add, contents):
	""" Mutates \|contents\| (contents of \|filepath\|) to #include
	the \|header_to_add
	"""
	# Don't add the header if it is already present.
	replacement_text = header_line_to_add
	if replacement_text in contents:
	return contents
	replacement_text += '\n'

	# Find the right insertion point.
	#
	# Note that we depend on a follow-up \|git cl format\| for the right order of
	# headers. Therefore we just need to find the right header group (e.g. skip
	# system headers and the primary header).
	primary_header_basename = _FindPrimaryHeaderBasename(filepath)
	if primary_header_basename is None:
	primary_header_basename = ':this:should:never:match:'
	regex_text = _INCLUDE_INSERTION_POINT_REGEX_TEMPLATE % primary_header_basename
	match = re.search(regex_text, contents, re.MULTILINE \| re.VERBOSE)
	assert (match is not None)
	insertion_point = _SkipOverPreviousComment(contents, match.start())

	# Extra empty line is required if the addition is not adjacent to other
	# includes.
	if not contents[insertion_point:].startswith('#include'):
	replacement_text += '\n'

	# Make the edit.
	return contents[:insertion_point] + replacement_text + \
	contents[insertion_point:]


	def _ApplyReplacement(filepath, contents, edit, last_edit):
	assert (edit.edit_type == 'r')
	assert ((last_edit is None) or (last_edit.edit_type == 'r'))

	if last_edit is not None:
	if edit.offset == last_edit.offset and edit.length == last_edit.length:
	assert (edit.replacement != last_edit.replacement)
	raise ValueError(('Conflicting replacement text: ' +
	'%s at offset %d, length %d: "%s" != "%s"\n') %
	(filepath, edit.offset, edit.length, edit.replacement,
	last_edit.replacement))

	if edit.offset + edit.length > last_edit.offset:
	raise ValueError(
	('Overlapping replacements: ' +
	'%s at offset %d, length %d: "%s" and ' +
	'offset %d, length %d: "%s"\n') %
	(filepath, edit.offset, edit.length, edit.replacement,
	last_edit.offset, last_edit.length, last_edit.replacement))

	start = edit.offset
	end = edit.offset + edit.length
	contents = contents[:start] + edit.replacement + contents[end:]
	if not edit.replacement:
	contents = _ExtendDeletionIfElementIsInList(contents, edit.offset)
	return contents


	def _ApplyIncludeHeader(filepath, contents, edit, last_edit):
	header_line_to_add = '#include "%s"' % edit.replacement
	return _InsertNonSystemIncludeHeader(filepath, header_line_to_add, contents)


	def _ApplySingleEdit(filepath, contents, edit, last_edit):
	if edit.edit_type == 'r':
	return _ApplyReplacement(filepath, contents, edit, last_edit)
	elif edit.edit_type == 'include-user-header':
	return _ApplyIncludeHeader(filepath, contents, edit, last_edit)
	else:
	raise ValueError('Unrecognized edit directive "%s": %s\n' %
	(edit.edit_type, filepath))
	return contents


	def _ApplyEditsToSingleFileContents(filepath, contents, edits):
	# Sort the edits and iterate through them in reverse order. Sorting allows
	# duplicate edits to be quickly skipped, while reversing means that
	# subsequent edits don't need to have their offsets updated with each edit
	# applied.
	#
	# Note that after sorting in reverse, the 'i' directives will come after 'r'
	# directives.
	edits.sort(reverse=True)

	edit_count = 0
	error_count = 0
	last_edit = None
	for edit in edits:
	if edit == last_edit:
	continue
	try:
	contents = _ApplySingleEdit(filepath, contents, edit, last_edit)
	last_edit = edit
	edit_count += 1
	except ValueError as err:
	sys.stderr.write(str(err) + '\n')
	error_count += 1

	return (contents, edit_count, error_count)


	def _ApplyEditsToSingleFile(filepath, edits):
	with open(filepath, 'r+') as f:
	contents = f.read()
	(contents, edit_count,
	error_count) = _ApplyEditsToSingleFileContents(filepath, contents, edits)
	f.seek(0)
	f.truncate()
	f.write(contents)
	return (edit_count, error_count)


	def _ApplyEdits(edits):
	"""Apply the generated edits.

	Args:
	edits: A dict mapping filenames to Edit instances that apply to that file.
	"""
	edit_count = 0
	error_count = 0
	done_files = 0
	for k, v in edits.items():
	tmp_edit_count, tmp_error_count = _ApplyEditsToSingleFile(k, v)
	edit_count += tmp_edit_count
	error_count += tmp_error_count
	done_files += 1
	percentage = (float(done_files) / len(edits)) * 100
	sys.stdout.write('Applied %d edits (%d errors) to %d files [%.2f%%]\r' %
	(edit_count, error_count, done_files, percentage))

	sys.stdout.write('\n')
	return -error_count


	_WHITESPACE_BYTES = frozenset((ord('\t'), ord('\n'), ord('\r'), ord(' ')))


	def _ExtendDeletionIfElementIsInList(contents, offset):
	"""Extends the range of a deletion if the deleted element was part of a list.

	This rewriter helper makes it easy for refactoring tools to remove elements
	from a list. Even if a matcher callback knows that it is removing an element
	from a list, it may not have enough information to accurately remove the list
	element; for example, another matcher callback may end up removing an adjacent
	list element, or all the list elements may end up being removed.

	With this helper, refactoring tools can simply remove the list element and not
	worry about having to include the comma in the replacement.

	Args:
	contents: A bytearray with the deletion already applied.
	offset: The offset in the bytearray where the deleted range used to be.
	"""
	char_before = char_after = None
	left_trim_count = 0
	for byte in reversed(contents[:offset]):
	left_trim_count += 1
	if byte in _WHITESPACE_BYTES:
	continue
	if byte in (ord(','), ord(':'), ord('('), ord('{')):
	char_before = chr(byte)
	break

	right_trim_count = 0
	for byte in contents[offset:]:
	right_trim_count += 1
	if byte in _WHITESPACE_BYTES:
	continue
	if byte == ord(','):
	char_after = chr(byte)
	break

	if char_before:
	if char_after:
	return contents[:offset] + contents[offset + right_trim_count:]
	elif char_before in (',', ':'):
	return contents[:offset - left_trim_count] + contents[offset:]
	return contents


	def main():
	parser = argparse.ArgumentParser()
	parser.add_argument(
	'-p',
	required=True,
	help='path to the build dir (dir that edit paths are relative to)')
	parser.add_argument(
	'path_filter',
	nargs='*',
	help='optional paths to filter what files the tool is run on')
	args = parser.parse_args()

	filenames = set(_GetFilesFromGit(args.path_filter))
	edits = _ParseEditsFromStdin(args.p)
	return _ApplyEdits(
	{k: v
	for k, v in edits.items() if os.path.realpath(k) in filenames})


	if __name__ == '__main__':
	sys.exit(main())