src/tools/clang/scripts/run_tool.py - cobalt - 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.
 """Wrapper script to help run clang tools across Chromium code.

 How to use run_tool.py:
 If you want to run a clang tool across all Chromium code:
 run_tool.py <tool> <path/to/compiledb>

 If you want to include all files mentioned in the compilation database
 (this will also include generated files, unlike the previous command):
 run_tool.py <tool> <path/to/compiledb> --all

 If you want to run the clang tool across only chrome/browser and
 content/browser:
 run_tool.py <tool> <path/to/compiledb> chrome/browser content/browser

 Please see docs/clang_tool_refactoring.md for more information, which documents
 the entire automated refactoring flow in Chromium.

 Why use run_tool.py (instead of running a clang tool directly):
 The clang tool implementation doesn't take advantage of multiple cores, and if
 it fails mysteriously in the middle, all the generated replacements will be
 lost. Additionally, if the work is simply sharded across multiple cores by
 running multiple RefactoringTools, problems arise when they attempt to rewrite a
 file at the same time.

 run_tool.py will
 1) run multiple instances of clang tool in parallel
 2) gather stdout from clang tool invocations
 3) "atomically" forward #2 to stdout

 Output of run_tool.py can be piped into extract_edits.py and then into
 apply_edits.py. These tools will extract individual edits and apply them to the
 source files. These tools assume the clang tool emits the edits in the
 following format:
     ...
     ==== BEGIN EDITS ====
     r:::<file path>:::<offset>:::<length>:::<replacement text>
     r:::<file path>:::<offset>:::<length>:::<replacement text>
     ...etc...
     ==== END EDITS ====
     ...

 extract_edits.py extracts only lines between BEGIN/END EDITS markers
 apply_edits.py reads edit lines from stdin and applies the edits
 """

 import argparse
 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


 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()
   return [os.path.realpath(p) for p in output.splitlines()]


 def _GetFilesFromCompileDB(build_directory):
   """ Gets the list of files mentioned in the compilation database.

   Args:
     build_directory: Directory that contains the compile database.
   """
   return [os.path.join(entry['directory'], entry['file'])
           for entry in compile_db.Read(build_directory)]


 def _ExecuteTool(toolname, tool_args, build_directory, filename):
   """Executes the clang tool.

   This is defined outside the class so it can be pickled for the multiprocessing
   module.

   Args:
     toolname: Name of the clang tool to execute.
     tool_args: Arguments to be passed to the clang tool. Can be None.
     build_directory: Directory that contains the compile database.
     filename: The file to run the clang tool over.

   Returns:
     A dictionary that must contain the key "status" and a boolean value
     associated with it.

     If status is True, then the generated output is stored with the key
     "stdout_text" in the dictionary.

     Otherwise, the filename and the output from stderr are associated with the
     keys "filename" and "stderr_text" respectively.
   """
   args = [toolname, '-p', build_directory, filename]
   if (tool_args):
     args.extend(tool_args)
   command = subprocess.Popen(
       args, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
   stdout_text, stderr_text = command.communicate()
   stderr_text = re.sub(
       r"^warning: .*'linker' input unused \[-Wunused-command-line-argument\]\n",
       "", stderr_text, flags=re.MULTILINE)
   if command.returncode != 0:
     return {'status': False, 'filename': filename, 'stderr_text': stderr_text}
   else:
     return {'status': True, 'filename': filename, 'stdout_text': stdout_text,
             'stderr_text': stderr_text}


 class _CompilerDispatcher(object):
   """Multiprocessing controller for running clang tools in parallel."""

   def __init__(self, toolname, tool_args, build_directory, filenames):
     """Initializer method.

     Args:
       toolname: Path to the tool to execute.
       tool_args: Arguments to be passed to the tool. Can be None.
       build_directory: Directory that contains the compile database.
       filenames: The files to run the tool over.
     """
     self.__toolname = toolname
     self.__tool_args = tool_args
     self.__build_directory = build_directory
     self.__filenames = filenames
     self.__success_count = 0
     self.__failed_count = 0

   @property
   def failed_count(self):
     return self.__failed_count

   def Run(self):
     """Does the grunt work."""
     pool = multiprocessing.Pool()
     result_iterator = pool.imap_unordered(
         functools.partial(_ExecuteTool, self.__toolname, self.__tool_args,
                           self.__build_directory),
                           self.__filenames)
     for result in result_iterator:
       self.__ProcessResult(result)
     sys.stderr.write('\n')

   def __ProcessResult(self, result):
     """Handles result processing.

     Args:
       result: The result dictionary returned by _ExecuteTool.
     """
     if result['status']:
       self.__success_count += 1
       sys.stdout.write(result['stdout_text'])
       sys.stderr.write(result['stderr_text'])
     else:
       self.__failed_count += 1
       sys.stderr.write('\nFailed to process %s\n' % result['filename'])
       sys.stderr.write(result['stderr_text'])
       sys.stderr.write('\n')
     done_count = self.__success_count + self.__failed_count
     percentage = (float(done_count) / len(self.__filenames)) * 100
     sys.stderr.write(
         'Processed %d files with %s tool (%d failures) [%.2f%%]\r' %
         (done_count, self.__toolname, self.__failed_count, percentage))


 def main():
   parser = argparse.ArgumentParser()
   parser.add_argument('tool', help='clang tool to run')
   parser.add_argument('--all', action='store_true')
   parser.add_argument(
       '--generate-compdb',
       action='store_true',
       help='regenerate the compile database before running the tool')
   parser.add_argument(
       'compile_database',
       help='path to the directory that contains the compile database')
   parser.add_argument(
       'path_filter',
       nargs='*',
       help='optional paths to filter what files the tool is run on')
   parser.add_argument(
       '--tool-args', nargs='*',
       help='optional arguments passed to the tool')
   args = parser.parse_args()

   os.environ['PATH'] = '%s%s%s' % (
       os.path.abspath(os.path.join(
           os.path.dirname(__file__),
           '../../../third_party/llvm-build/Release+Asserts/bin')),
       os.pathsep,
       os.environ['PATH'])

   if args.generate_compdb:
     compile_db.GenerateWithNinja(args.compile_database)

   if args.all:
     source_filenames = set(_GetFilesFromCompileDB(args.compile_database))
   else:
     git_filenames = set(_GetFilesFromGit(args.path_filter))
     # Filter out files that aren't C/C++/Obj-C/Obj-C++.
     extensions = frozenset(('.c', '.cc', '.cpp', '.m', '.mm'))
     source_filenames = [f
                         for f in git_filenames
                         if os.path.splitext(f)[1] in extensions]

   dispatcher = _CompilerDispatcher(args.tool, args.tool_args,
                                    args.compile_database,
                                    source_filenames)
   dispatcher.Run()
   return -dispatcher.failed_count


 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.
	"""Wrapper script to help run clang tools across Chromium code.

	How to use run_tool.py:
	If you want to run a clang tool across all Chromium code:
	run_tool.py <tool> <path/to/compiledb>

	If you want to include all files mentioned in the compilation database
	(this will also include generated files, unlike the previous command):
	run_tool.py <tool> <path/to/compiledb> --all

	If you want to run the clang tool across only chrome/browser and
	content/browser:
	run_tool.py <tool> <path/to/compiledb> chrome/browser content/browser

	Please see docs/clang_tool_refactoring.md for more information, which documents
	the entire automated refactoring flow in Chromium.

	Why use run_tool.py (instead of running a clang tool directly):
	The clang tool implementation doesn't take advantage of multiple cores, and if
	it fails mysteriously in the middle, all the generated replacements will be
	lost. Additionally, if the work is simply sharded across multiple cores by
	running multiple RefactoringTools, problems arise when they attempt to rewrite a
	file at the same time.

	run_tool.py will
	1) run multiple instances of clang tool in parallel
	2) gather stdout from clang tool invocations
	3) "atomically" forward #2 to stdout

	Output of run_tool.py can be piped into extract_edits.py and then into
	apply_edits.py. These tools will extract individual edits and apply them to the
	source files. These tools assume the clang tool emits the edits in the
	following format:
	...
	==== BEGIN EDITS ====
	r:::<file path>:::<offset>:::<length>:::<replacement text>
	r:::<file path>:::<offset>:::<length>:::<replacement text>
	...etc...
	==== END EDITS ====
	...

	extract_edits.py extracts only lines between BEGIN/END EDITS markers
	apply_edits.py reads edit lines from stdin and applies the edits
	"""

	import argparse
	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


	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()
	return [os.path.realpath(p) for p in output.splitlines()]


	def _GetFilesFromCompileDB(build_directory):
	""" Gets the list of files mentioned in the compilation database.

	Args:
	build_directory: Directory that contains the compile database.
	"""
	return [os.path.join(entry['directory'], entry['file'])
	for entry in compile_db.Read(build_directory)]


	def _ExecuteTool(toolname, tool_args, build_directory, filename):
	"""Executes the clang tool.

	This is defined outside the class so it can be pickled for the multiprocessing
	module.

	Args:
	toolname: Name of the clang tool to execute.
	tool_args: Arguments to be passed to the clang tool. Can be None.
	build_directory: Directory that contains the compile database.
	filename: The file to run the clang tool over.

	Returns:
	A dictionary that must contain the key "status" and a boolean value
	associated with it.

	If status is True, then the generated output is stored with the key
	"stdout_text" in the dictionary.

	Otherwise, the filename and the output from stderr are associated with the
	keys "filename" and "stderr_text" respectively.
	"""
	args = [toolname, '-p', build_directory, filename]
	if (tool_args):
	args.extend(tool_args)
	command = subprocess.Popen(
	args, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
	stdout_text, stderr_text = command.communicate()
	stderr_text = re.sub(
	r"^warning: .*'linker' input unused \[-Wunused-command-line-argument\]\n",
	"", stderr_text, flags=re.MULTILINE)
	if command.returncode != 0:
	return {'status': False, 'filename': filename, 'stderr_text': stderr_text}
	else:
	return {'status': True, 'filename': filename, 'stdout_text': stdout_text,
	'stderr_text': stderr_text}


	class _CompilerDispatcher(object):
	"""Multiprocessing controller for running clang tools in parallel."""

	def __init__(self, toolname, tool_args, build_directory, filenames):
	"""Initializer method.

	Args:
	toolname: Path to the tool to execute.
	tool_args: Arguments to be passed to the tool. Can be None.
	build_directory: Directory that contains the compile database.
	filenames: The files to run the tool over.
	"""
	self.__toolname = toolname
	self.__tool_args = tool_args
	self.__build_directory = build_directory
	self.__filenames = filenames
	self.__success_count = 0
	self.__failed_count = 0

	@property
	def failed_count(self):
	return self.__failed_count

	def Run(self):
	"""Does the grunt work."""
	pool = multiprocessing.Pool()
	result_iterator = pool.imap_unordered(
	functools.partial(_ExecuteTool, self.__toolname, self.__tool_args,
	self.__build_directory),
	self.__filenames)
	for result in result_iterator:
	self.__ProcessResult(result)
	sys.stderr.write('\n')

	def __ProcessResult(self, result):
	"""Handles result processing.

	Args:
	result: The result dictionary returned by _ExecuteTool.
	"""
	if result['status']:
	self.__success_count += 1
	sys.stdout.write(result['stdout_text'])
	sys.stderr.write(result['stderr_text'])
	else:
	self.__failed_count += 1
	sys.stderr.write('\nFailed to process %s\n' % result['filename'])
	sys.stderr.write(result['stderr_text'])
	sys.stderr.write('\n')
	done_count = self.__success_count + self.__failed_count
	percentage = (float(done_count) / len(self.__filenames)) * 100
	sys.stderr.write(
	'Processed %d files with %s tool (%d failures) [%.2f%%]\r' %
	(done_count, self.__toolname, self.__failed_count, percentage))


	def main():
	parser = argparse.ArgumentParser()
	parser.add_argument('tool', help='clang tool to run')
	parser.add_argument('--all', action='store_true')
	parser.add_argument(
	'--generate-compdb',
	action='store_true',
	help='regenerate the compile database before running the tool')
	parser.add_argument(
	'compile_database',
	help='path to the directory that contains the compile database')
	parser.add_argument(
	'path_filter',
	nargs='*',
	help='optional paths to filter what files the tool is run on')
	parser.add_argument(
	'--tool-args', nargs='*',
	help='optional arguments passed to the tool')
	args = parser.parse_args()

	os.environ['PATH'] = '%s%s%s' % (
	os.path.abspath(os.path.join(
	os.path.dirname(__file__),
	'../../../third_party/llvm-build/Release+Asserts/bin')),
	os.pathsep,
	os.environ['PATH'])

	if args.generate_compdb:
	compile_db.GenerateWithNinja(args.compile_database)

	if args.all:
	source_filenames = set(_GetFilesFromCompileDB(args.compile_database))
	else:
	git_filenames = set(_GetFilesFromGit(args.path_filter))
	# Filter out files that aren't C/C++/Obj-C/Obj-C++.
	extensions = frozenset(('.c', '.cc', '.cpp', '.m', '.mm'))
	source_filenames = [f
	for f in git_filenames
	if os.path.splitext(f)[1] in extensions]

	dispatcher = _CompilerDispatcher(args.tool, args.tool_args,
	args.compile_database,
	source_filenames)
	dispatcher.Run()
	return -dispatcher.failed_count


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