tools/autotest.py - chromium/src - Git at Google

 #!/usr/bin/env python3
 # Copyright 2020 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.
 """Builds and runs a test by filename.

 This script finds the appropriate test suites for the specified test file or
 directory, builds it, then runs it with the (optionally) specified filter,
 passing any extra args on to the test runner.

 Examples:
 # Run the test target for bit_cast_unittest.cc. Use a custom test filter instead
 # of the automatically generated one.
 autotest.py -C out/Desktop bit_cast_unittest.cc --gtest_filter=BitCastTest*

 # Find and run UrlUtilitiesUnitTest.java's tests, pass remaining parameters to
 # the test binary.
 autotest.py -C out/Android UrlUtilitiesUnitTest --fast-local-dev -v

 # Run all tests under base/strings
 autotest.py -C out/foo --run-all base/strings

 # Run only the test on line 11. Useful when running autotest.py from your text
 # editor.
 autotest.py -C out/foo --line 11 base/strings/strcat_unittest.cc
 """

 import argparse
 import locale
 import os
 import json
 import re
 import subprocess
 import sys

 from enum import Enum
 from pathlib import Path

 USE_PYTHON_3 = f'This script will only run under python3.'

 SRC_DIR = Path(__file__).parent.parent.resolve()
 DEPOT_TOOLS_DIR = SRC_DIR.joinpath('third_party', 'depot_tools')
 DEBUG = False

 _TEST_TARGET_SUFFIXES = [
     '_browsertests',
     '_junit_tests',
     '_perftests',
     '_test_apk',
     '_unittests',
 ]

 # Some test suites use suffixes that would also match non-test-suite targets.
 # Those test suites should be manually added here.
 _OTHER_TEST_TARGETS = [
     '//chrome/test:browser_tests',
     '//chrome/test:unit_tests',
 ]

 TEST_FILE_NAME_REGEX = re.compile(r'(.*Test\.java)|(.*_[a-z]*test\.cc)')

 # Some tests don't directly include gtest.h and instead include it via gmock.h
 # or a test_utils.h file, so make sure these cases are captured. Also include
 # files that use <...> for #includes instead of quotes.
 GTEST_INCLUDE_REGEX = re.compile(r'#include.*(gtest|gmock|_test_utils)\.h("|>)')


 def ExitWithMessage(*args):
   print(*args, file=sys.stderr)
   sys.exit(1)


 class TestValidity(Enum):
   NOT_A_TEST = 0  # Does not match test file regex.
   MAYBE_A_TEST = 1  # Matches test file regex, but doesn't include gtest files.
   VALID_TEST = 2  # Matches test file regex and includes gtest files.


 def IsTestFile(file_path):
   if not TEST_FILE_NAME_REGEX.match(file_path):
     return TestValidity.NOT_A_TEST
   if file_path.endswith('.cc'):
     # Try a bit harder to remove non-test files for c++. Without this,
     # 'autotest.py base/' finds non-test files.
     try:
       with open(file_path, 'r', encoding='utf-8') as f:
         if GTEST_INCLUDE_REGEX.search(f.read()) is not None:
           return TestValidity.VALID_TEST
     except IOError:
       pass
     # It may still be a test file, even if it doesn't include a gtest file.
     return TestValidity.MAYBE_A_TEST
   return TestValidity.VALID_TEST


 class CommandError(Exception):
   """Exception thrown when a subcommand fails."""

   def __init__(self, command, return_code, output=None):
     Exception.__init__(self)
     self.command = command
     self.return_code = return_code
     self.output = output

   def __str__(self):
     message = (f'\n***\nERROR: Error while running command {self.command}'
                f'.\nExit status: {self.return_code}\n')
     if self.output:
       message += f'Output:\n{self.output}\n'
     message += '***'
     return message


 def StreamCommandOrExit(cmd, **kwargs):
   try:
     subprocess.check_call(cmd, **kwargs)
   except subprocess.CalledProcessError as e:
     sys.exit(1)


 def RunCommand(cmd, **kwargs):
   try:
     # Set an encoding to convert the binary output to a string.
     return subprocess.check_output(
         cmd, **kwargs, encoding=locale.getpreferredencoding())
   except subprocess.CalledProcessError as e:
     raise CommandError(e.cmd, e.returncode, e.output) from None


 def BuildTestTargetsWithNinja(out_dir, targets, dry_run):
   """Builds the specified targets with ninja"""
   # Use autoninja from PATH to match version used for manual builds.
   ninja_path = 'autoninja'
   if sys.platform.startswith('win32'):
     ninja_path += '.bat'
   cmd = [ninja_path, '-C', out_dir] + targets
   print('Building: ' + ' '.join(cmd))
   if (dry_run):
     return True
   try:
     subprocess.check_call(cmd)
   except subprocess.CalledProcessError as e:
     return False
   return True


 def RecursiveMatchFilename(folder, filename):
   current_dir = os.path.split(folder)[-1]
   if current_dir.startswith('out') or current_dir.startswith('.'):
     return [[], []]
   exact = []
   close = []
   with os.scandir(folder) as it:
     for entry in it:
       if (entry.is_symlink()):
         continue
       if (entry.is_file() and filename in entry.path and
           not os.path.basename(entry.path).startswith('.')):
         file_validity = IsTestFile(entry.path)
         if file_validity is TestValidity.VALID_TEST:
           exact.append(entry.path)
         elif file_validity is TestValidity.MAYBE_A_TEST:
           close.append(entry.path)
       if entry.is_dir():
         # On Windows, junctions are like a symlink that python interprets as a
         # directory, leading to exceptions being thrown. We can just catch and
         # ignore these exceptions like we would ignore symlinks.
         try:
           matches = RecursiveMatchFilename(entry.path, filename)
           exact += matches[0]
           close += matches[1]
         except FileNotFoundError as e:
           if DEBUG:
             print(f'Failed to scan directory "{entry}" - junction?')
           pass
   return [exact, close]


 def FindTestFilesInDirectory(directory):
   test_files = []
   if DEBUG:
     print('Test files:')
   for root, dirs, files in os.walk(directory):
     for f in files:
       path = os.path.join(root, f)
       file_validity = IsTestFile(path)
       if file_validity is TestValidity.VALID_TEST:
         if DEBUG:
           print(path)
         test_files.append(path)
       elif DEBUG and file_validity is TestValidity.MAYBE_A_TEST:
         print(path + ' matched but doesn\'t include gtest files, skipping.')
   return test_files


 def FindMatchingTestFiles(target):
   # Return early if there's an exact file match.
   if os.path.isfile(target):
     # If the target is a C++ implementation file, try to guess the test file.
     if target.endswith('.cc') or target.endswith('.h'):
       target_validity = IsTestFile(target)
       if target_validity is TestValidity.VALID_TEST:
         return [target]
       alternate = f"{target.rsplit('.', 1)[0]}_unittest.cc"
       alt_validity = TestValidity.NOT_A_TEST if not os.path.isfile(
           alternate) else IsTestFile(alternate)
       if alt_validity is TestValidity.VALID_TEST:
         return [alternate]

       # If neither the target nor its alternative were valid, check if they just
       # didn't include the gtest files before deciding to exit.
       if target_validity is TestValidity.MAYBE_A_TEST:
         return [target]
       if alt_validity is TestValidity.MAYBE_A_TEST:
         return [alternate]
       ExitWithMessage(f"{target} doesn't look like a test file")
     return [target]
   # If this is a directory, return all the test files it contains.
   if os.path.isdir(target):
     files = FindTestFilesInDirectory(target)
     if not files:
       ExitWithMessage('No tests found in directory')
     return files

   if sys.platform.startswith('win32') and os.path.altsep in target:
     # Use backslash as the path separator on Windows to match os.scandir().
     if DEBUG:
       print('Replacing ' + os.path.altsep + ' with ' + os.path.sep + ' in: '
             + target)
     target = target.replace(os.path.altsep, os.path.sep)
   if DEBUG:
     print('Finding files with full path containing: ' + target)

   [exact, close] = RecursiveMatchFilename(SRC_DIR, target)
   if DEBUG:
     if exact:
       print('Found exact matching file(s):')
       print('\n'.join(exact))
     if close:
       print('Found possible matching file(s):')
       print('\n'.join(close))

   test_files = exact if len(exact) > 0 else close
   if len(test_files) > 1:
     # Arbitrarily capping at 10 results so we don't print the name of every file
     # in the repo if the target is poorly specified.
     test_files = test_files[:10]
     ExitWithMessage(f'Target "{target}" is ambiguous. Matching files: '
                     f'{test_files}')
   if not test_files:
     ExitWithMessage(f'Target "{target}" did not match any files.')
   return test_files


 def IsTestTarget(target):
   for suffix in _TEST_TARGET_SUFFIXES:
     if target.endswith(suffix):
       return True
   return target in _OTHER_TEST_TARGETS


 def HaveUserPickTarget(paths, targets):
   # Cap to 10 targets for convenience [0-9].
   targets = targets[:10]
   target_list = '\n'.join(f'{i}. {t}' for i, t in enumerate(targets))

   user_input = input(f'Target "{paths}" is used by multiple test targets.\n' +
                      target_list + '\nPlease pick a target: ')
   try:
     value = int(user_input)
     return targets[value]
   except (ValueError, IndexError):
     print('Try again')
     return HaveUserPickTarget(paths, targets)


 # A persistent cache to avoid running gn on repeated runs of autotest.
 class TargetCache:
   def __init__(self, out_dir):
     self.out_dir = out_dir
     self.path = os.path.join(out_dir, 'autotest_cache')
     self.gold_mtime = self.GetBuildNinjaMtime()
     self.cache = {}
     try:
       mtime, cache = json.load(open(self.path, 'r'))
       if mtime == self.gold_mtime:
         self.cache = cache
     except Exception:
       pass

   def Save(self):
     with open(self.path, 'w') as f:
       json.dump([self.gold_mtime, self.cache], f)

   def Find(self, test_paths):
     key = ' '.join(test_paths)
     return self.cache.get(key, None)

   def Store(self, test_paths, test_targets):
     key = ' '.join(test_paths)
     self.cache[key] = test_targets

   def GetBuildNinjaMtime(self):
     return os.path.getmtime(os.path.join(self.out_dir, 'build.ninja'))

   def IsStillValid(self):
     return self.GetBuildNinjaMtime() == self.gold_mtime


 def FindTestTargets(target_cache, out_dir, paths, run_all):
   # Normalize paths, so they can be cached.
   paths = [os.path.realpath(p) for p in paths]
   test_targets = target_cache.Find(paths)
   used_cache = True
   if not test_targets:
     used_cache = False

     # Use gn refs to recursively find all targets that depend on |path|, filter
     # internal gn targets, and match against well-known test suffixes, falling
     # back to a list of known test targets if that fails.
     gn_path = os.path.join(DEPOT_TOOLS_DIR, 'gn')
     if sys.platform.startswith('win32'):
       gn_path += '.bat'

     cmd = [gn_path, 'refs', out_dir, '--all'] + paths
     targets = RunCommand(cmd).splitlines()
     targets = [t for t in targets if '__' not in t]
     test_targets = [t for t in targets if IsTestTarget(t)]

   if not test_targets:
     ExitWithMessage(
         f'Target(s) "{paths}" did not match any test targets. Consider adding'
         f' one of the following targets to the top of this file: {targets}')

   target_cache.Store(paths, test_targets)
   target_cache.Save()

   if len(test_targets) > 1:
     if run_all:
       print(f'Warning, found {len(test_targets)} test targets.',
             file=sys.stderr)
       if len(test_targets) > 10:
         ExitWithMessage('Your query likely involves non-test sources.')
       print('Trying to run all of them!', file=sys.stderr)
     else:
       test_targets = [HaveUserPickTarget(paths, test_targets)]

   test_targets = list(set([t.split(':')[-1] for t in test_targets]))

   return (test_targets, used_cache)


 def RunTestTargets(out_dir, targets, gtest_filter, extra_args, dry_run):
   for target in targets:
     # Look for the Android wrapper script first.
     path = os.path.join(out_dir, 'bin', f'run_{target}')
     if not os.path.isfile(path):
       # Otherwise, use the Desktop target which is an executable.
       path = os.path.join(out_dir, target)
     cmd = [path, f'--gtest_filter={gtest_filter}'] + extra_args
     print('Running test: ' + ' '.join(cmd))
     if not dry_run:
       StreamCommandOrExit(cmd)


 def BuildCppTestFilter(filenames, line):
   make_filter_command = [
       sys.executable,
       os.path.join(SRC_DIR, 'tools', 'make-gtest-filter.py')
   ]
   if line:
     make_filter_command += ['--line', str(line)]
   else:
     make_filter_command += ['--class-only']
   make_filter_command += filenames
   return RunCommand(make_filter_command).strip()


 def BuildJavaTestFilter(filenames):
   return ':'.join('*.{}*'.format(os.path.splitext(os.path.basename(f))[0])
                   for f in filenames)


 def BuildTestFilter(filenames, line):
   java_files = [f for f in filenames if f.endswith('.java')]
   cc_files = [f for f in filenames if f.endswith('.cc')]
   filters = []
   if java_files:
     filters.append(BuildJavaTestFilter(java_files))
   if cc_files:
     filters.append(BuildCppTestFilter(cc_files, line))

   return ':'.join(filters)


 def main():
   parser = argparse.ArgumentParser(
       description=__doc__, formatter_class=argparse.RawTextHelpFormatter)
   parser.add_argument('--out-dir',
                       '-C',
                       metavar='OUT_DIR',
                       help='output directory of the build')
   parser.add_argument(
       '--run-all',
       action='store_true',
       help='Run all tests for the file or directory, instead of just one')
   parser.add_argument('--line',
                       type=int,
                       help='run only the test on this line number. c++ only.')
   parser.add_argument(
       '--gtest_filter', '-f', metavar='FILTER', help='test filter')
   parser.add_argument(
       '--dry-run',
       '-n',
       action='store_true',
       help='Print ninja and test run commands without executing them.')
   parser.add_argument('file',
                       metavar='FILE_NAME',
                       help='test suite file (eg. FooTest.java)')

   args, _extras = parser.parse_known_args()

   # Use CWD as out_dir when build.ninja exists.
   if not args.out_dir and os.path.exists('build.ninja'):
     args.out_dir = '.'

   if not os.path.isdir(args.out_dir):
     parser.error(f'OUT_DIR "{args.out_dir}" does not exist.')
   target_cache = TargetCache(args.out_dir)
   filenames = FindMatchingTestFiles(args.file)

   targets, used_cache = FindTestTargets(target_cache, args.out_dir, filenames,
                                         args.run_all)

   gtest_filter = args.gtest_filter
   if not gtest_filter:
     gtest_filter = BuildTestFilter(filenames, args.line)

   if not gtest_filter:
     ExitWithMessage('Failed to derive a gtest filter')

   assert targets
   build_ok = BuildTestTargetsWithNinja(args.out_dir, targets, args.dry_run)

   # If we used the target cache, it's possible we chose the wrong target because
   # a gn file was changed. The build step above will check for gn modifications
   # and update build.ninja. Use this opportunity the verify the cache is still
   # valid.
   if used_cache and not target_cache.IsStillValid():
     target_cache = TargetCache(args.out_dir)
     new_targets, _ = FindTestTargets(target_cache, args.out_dir, filenames,
                                      args.run_all)
     if targets != new_targets:
       # Note that this can happen, for example, if you rename a test target.
       print('gn config was changed, trying to build again', file=sys.stderr)
       targets = new_targets
       if not BuildTestTargetsWithNinja(args.out_dir, targets, args.dry_run):
         sys.exit(1)
   else:  # cache still valid, quit if the build failed
     if not build_ok: sys.exit(1)

   RunTestTargets(args.out_dir, targets, gtest_filter, _extras, args.dry_run)


 if __name__ == '__main__':
   sys.exit(main())
	#!/usr/bin/env python3
	# Copyright 2020 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.
	"""Builds and runs a test by filename.

	This script finds the appropriate test suites for the specified test file or
	directory, builds it, then runs it with the (optionally) specified filter,
	passing any extra args on to the test runner.

	Examples:
	# Run the test target for bit_cast_unittest.cc. Use a custom test filter instead
	# of the automatically generated one.
	autotest.py -C out/Desktop bit_cast_unittest.cc --gtest_filter=BitCastTest*

	# Find and run UrlUtilitiesUnitTest.java's tests, pass remaining parameters to
	# the test binary.
	autotest.py -C out/Android UrlUtilitiesUnitTest --fast-local-dev -v

	# Run all tests under base/strings
	autotest.py -C out/foo --run-all base/strings

	# Run only the test on line 11. Useful when running autotest.py from your text
	# editor.
	autotest.py -C out/foo --line 11 base/strings/strcat_unittest.cc
	"""

	import argparse
	import locale
	import os
	import json
	import re
	import subprocess
	import sys

	from enum import Enum
	from pathlib import Path

	USE_PYTHON_3 = f'This script will only run under python3.'

	SRC_DIR = Path(__file__).parent.parent.resolve()
	DEPOT_TOOLS_DIR = SRC_DIR.joinpath('third_party', 'depot_tools')
	DEBUG = False

	_TEST_TARGET_SUFFIXES = [
	'_browsertests',
	'_junit_tests',
	'_perftests',
	'_test_apk',
	'_unittests',
	]

	# Some test suites use suffixes that would also match non-test-suite targets.
	# Those test suites should be manually added here.
	_OTHER_TEST_TARGETS = [
	'//chrome/test:browser_tests',
	'//chrome/test:unit_tests',
	]

	TEST_FILE_NAME_REGEX = re.compile(r'(.Test\.java)\|(._[a-z]*test\.cc)')

	# Some tests don't directly include gtest.h and instead include it via gmock.h
	# or a test_utils.h file, so make sure these cases are captured. Also include
	# files that use <...> for #includes instead of quotes.
	GTEST_INCLUDE_REGEX = re.compile(r'#include.*(gtest\|gmock\|_test_utils)\.h("\|>)')


	def ExitWithMessage(*args):
	print(*args, file=sys.stderr)
	sys.exit(1)


	class TestValidity(Enum):
	NOT_A_TEST = 0 # Does not match test file regex.
	MAYBE_A_TEST = 1 # Matches test file regex, but doesn't include gtest files.
	VALID_TEST = 2 # Matches test file regex and includes gtest files.


	def IsTestFile(file_path):
	if not TEST_FILE_NAME_REGEX.match(file_path):
	return TestValidity.NOT_A_TEST
	if file_path.endswith('.cc'):
	# Try a bit harder to remove non-test files for c++. Without this,
	# 'autotest.py base/' finds non-test files.
	try:
	with open(file_path, 'r', encoding='utf-8') as f:
	if GTEST_INCLUDE_REGEX.search(f.read()) is not None:
	return TestValidity.VALID_TEST
	except IOError:
	pass
	# It may still be a test file, even if it doesn't include a gtest file.
	return TestValidity.MAYBE_A_TEST
	return TestValidity.VALID_TEST


	class CommandError(Exception):
	"""Exception thrown when a subcommand fails."""

	def __init__(self, command, return_code, output=None):
	Exception.__init__(self)
	self.command = command
	self.return_code = return_code
	self.output = output

	def __str__(self):
	message = (f'\n***\nERROR: Error while running command {self.command}'
	f'.\nExit status: {self.return_code}\n')
	if self.output:
	message += f'Output:\n{self.output}\n'
	message += '***'
	return message


	def StreamCommandOrExit(cmd, **kwargs):
	try:
	subprocess.check_call(cmd, **kwargs)
	except subprocess.CalledProcessError as e:
	sys.exit(1)


	def RunCommand(cmd, **kwargs):
	try:
	# Set an encoding to convert the binary output to a string.
	return subprocess.check_output(
	cmd, **kwargs, encoding=locale.getpreferredencoding())
	except subprocess.CalledProcessError as e:
	raise CommandError(e.cmd, e.returncode, e.output) from None


	def BuildTestTargetsWithNinja(out_dir, targets, dry_run):
	"""Builds the specified targets with ninja"""
	# Use autoninja from PATH to match version used for manual builds.
	ninja_path = 'autoninja'
	if sys.platform.startswith('win32'):
	ninja_path += '.bat'
	cmd = [ninja_path, '-C', out_dir] + targets
	print('Building: ' + ' '.join(cmd))
	if (dry_run):
	return True
	try:
	subprocess.check_call(cmd)
	except subprocess.CalledProcessError as e:
	return False
	return True


	def RecursiveMatchFilename(folder, filename):
	current_dir = os.path.split(folder)[-1]
	if current_dir.startswith('out') or current_dir.startswith('.'):
	return [[], []]
	exact = []
	close = []
	with os.scandir(folder) as it:
	for entry in it:
	if (entry.is_symlink()):
	continue
	if (entry.is_file() and filename in entry.path and
	not os.path.basename(entry.path).startswith('.')):
	file_validity = IsTestFile(entry.path)
	if file_validity is TestValidity.VALID_TEST:
	exact.append(entry.path)
	elif file_validity is TestValidity.MAYBE_A_TEST:
	close.append(entry.path)
	if entry.is_dir():
	# On Windows, junctions are like a symlink that python interprets as a
	# directory, leading to exceptions being thrown. We can just catch and
	# ignore these exceptions like we would ignore symlinks.
	try:
	matches = RecursiveMatchFilename(entry.path, filename)
	exact += matches[0]
	close += matches[1]
	except FileNotFoundError as e:
	if DEBUG:
	print(f'Failed to scan directory "{entry}" - junction?')
	pass
	return [exact, close]


	def FindTestFilesInDirectory(directory):
	test_files = []
	if DEBUG:
	print('Test files:')
	for root, dirs, files in os.walk(directory):
	for f in files:
	path = os.path.join(root, f)
	file_validity = IsTestFile(path)
	if file_validity is TestValidity.VALID_TEST:
	if DEBUG:
	print(path)
	test_files.append(path)
	elif DEBUG and file_validity is TestValidity.MAYBE_A_TEST:
	print(path + ' matched but doesn\'t include gtest files, skipping.')
	return test_files


	def FindMatchingTestFiles(target):
	# Return early if there's an exact file match.
	if os.path.isfile(target):
	# If the target is a C++ implementation file, try to guess the test file.
	if target.endswith('.cc') or target.endswith('.h'):
	target_validity = IsTestFile(target)
	if target_validity is TestValidity.VALID_TEST:
	return [target]
	alternate = f"{target.rsplit('.', 1)[0]}_unittest.cc"
	alt_validity = TestValidity.NOT_A_TEST if not os.path.isfile(
	alternate) else IsTestFile(alternate)
	if alt_validity is TestValidity.VALID_TEST:
	return [alternate]

	# If neither the target nor its alternative were valid, check if they just
	# didn't include the gtest files before deciding to exit.
	if target_validity is TestValidity.MAYBE_A_TEST:
	return [target]
	if alt_validity is TestValidity.MAYBE_A_TEST:
	return [alternate]
	ExitWithMessage(f"{target} doesn't look like a test file")
	return [target]
	# If this is a directory, return all the test files it contains.
	if os.path.isdir(target):
	files = FindTestFilesInDirectory(target)
	if not files:
	ExitWithMessage('No tests found in directory')
	return files

	if sys.platform.startswith('win32') and os.path.altsep in target:
	# Use backslash as the path separator on Windows to match os.scandir().
	if DEBUG:
	print('Replacing ' + os.path.altsep + ' with ' + os.path.sep + ' in: '
	+ target)
	target = target.replace(os.path.altsep, os.path.sep)
	if DEBUG:
	print('Finding files with full path containing: ' + target)

	[exact, close] = RecursiveMatchFilename(SRC_DIR, target)
	if DEBUG:
	if exact:
	print('Found exact matching file(s):')
	print('\n'.join(exact))
	if close:
	print('Found possible matching file(s):')
	print('\n'.join(close))

	test_files = exact if len(exact) > 0 else close
	if len(test_files) > 1:
	# Arbitrarily capping at 10 results so we don't print the name of every file
	# in the repo if the target is poorly specified.
	test_files = test_files[:10]
	ExitWithMessage(f'Target "{target}" is ambiguous. Matching files: '
	f'{test_files}')
	if not test_files:
	ExitWithMessage(f'Target "{target}" did not match any files.')
	return test_files


	def IsTestTarget(target):
	for suffix in _TEST_TARGET_SUFFIXES:
	if target.endswith(suffix):
	return True
	return target in _OTHER_TEST_TARGETS


	def HaveUserPickTarget(paths, targets):
	# Cap to 10 targets for convenience [0-9].
	targets = targets[:10]
	target_list = '\n'.join(f'{i}. {t}' for i, t in enumerate(targets))

	user_input = input(f'Target "{paths}" is used by multiple test targets.\n' +
	target_list + '\nPlease pick a target: ')
	try:
	value = int(user_input)
	return targets[value]
	except (ValueError, IndexError):
	print('Try again')
	return HaveUserPickTarget(paths, targets)


	# A persistent cache to avoid running gn on repeated runs of autotest.
	class TargetCache:
	def __init__(self, out_dir):
	self.out_dir = out_dir
	self.path = os.path.join(out_dir, 'autotest_cache')
	self.gold_mtime = self.GetBuildNinjaMtime()
	self.cache = {}
	try:
	mtime, cache = json.load(open(self.path, 'r'))
	if mtime == self.gold_mtime:
	self.cache = cache
	except Exception:
	pass

	def Save(self):
	with open(self.path, 'w') as f:
	json.dump([self.gold_mtime, self.cache], f)

	def Find(self, test_paths):
	key = ' '.join(test_paths)
	return self.cache.get(key, None)

	def Store(self, test_paths, test_targets):
	key = ' '.join(test_paths)
	self.cache[key] = test_targets

	def GetBuildNinjaMtime(self):
	return os.path.getmtime(os.path.join(self.out_dir, 'build.ninja'))

	def IsStillValid(self):
	return self.GetBuildNinjaMtime() == self.gold_mtime


	def FindTestTargets(target_cache, out_dir, paths, run_all):
	# Normalize paths, so they can be cached.
	paths = [os.path.realpath(p) for p in paths]
	test_targets = target_cache.Find(paths)
	used_cache = True
	if not test_targets:
	used_cache = False

	# Use gn refs to recursively find all targets that depend on \|path\|, filter
	# internal gn targets, and match against well-known test suffixes, falling
	# back to a list of known test targets if that fails.
	gn_path = os.path.join(DEPOT_TOOLS_DIR, 'gn')
	if sys.platform.startswith('win32'):
	gn_path += '.bat'

	cmd = [gn_path, 'refs', out_dir, '--all'] + paths
	targets = RunCommand(cmd).splitlines()
	targets = [t for t in targets if '__' not in t]
	test_targets = [t for t in targets if IsTestTarget(t)]

	if not test_targets:
	ExitWithMessage(
	f'Target(s) "{paths}" did not match any test targets. Consider adding'
	f' one of the following targets to the top of this file: {targets}')

	target_cache.Store(paths, test_targets)
	target_cache.Save()

	if len(test_targets) > 1:
	if run_all:
	print(f'Warning, found {len(test_targets)} test targets.',
	file=sys.stderr)
	if len(test_targets) > 10:
	ExitWithMessage('Your query likely involves non-test sources.')
	print('Trying to run all of them!', file=sys.stderr)
	else:
	test_targets = [HaveUserPickTarget(paths, test_targets)]

	test_targets = list(set([t.split(':')[-1] for t in test_targets]))

	return (test_targets, used_cache)


	def RunTestTargets(out_dir, targets, gtest_filter, extra_args, dry_run):
	for target in targets:
	# Look for the Android wrapper script first.
	path = os.path.join(out_dir, 'bin', f'run_{target}')
	if not os.path.isfile(path):
	# Otherwise, use the Desktop target which is an executable.
	path = os.path.join(out_dir, target)
	cmd = [path, f'--gtest_filter={gtest_filter}'] + extra_args
	print('Running test: ' + ' '.join(cmd))
	if not dry_run:
	StreamCommandOrExit(cmd)


	def BuildCppTestFilter(filenames, line):
	make_filter_command = [
	sys.executable,
	os.path.join(SRC_DIR, 'tools', 'make-gtest-filter.py')
	]
	if line:
	make_filter_command += ['--line', str(line)]
	else:
	make_filter_command += ['--class-only']
	make_filter_command += filenames
	return RunCommand(make_filter_command).strip()


	def BuildJavaTestFilter(filenames):
	return ':'.join('.{}'.format(os.path.splitext(os.path.basename(f))[0])
	for f in filenames)


	def BuildTestFilter(filenames, line):
	java_files = [f for f in filenames if f.endswith('.java')]
	cc_files = [f for f in filenames if f.endswith('.cc')]
	filters = []
	if java_files:
	filters.append(BuildJavaTestFilter(java_files))
	if cc_files:
	filters.append(BuildCppTestFilter(cc_files, line))

	return ':'.join(filters)


	def main():
	parser = argparse.ArgumentParser(
	description=__doc__, formatter_class=argparse.RawTextHelpFormatter)
	parser.add_argument('--out-dir',
	'-C',
	metavar='OUT_DIR',
	help='output directory of the build')
	parser.add_argument(
	'--run-all',
	action='store_true',
	help='Run all tests for the file or directory, instead of just one')
	parser.add_argument('--line',
	type=int,
	help='run only the test on this line number. c++ only.')
	parser.add_argument(
	'--gtest_filter', '-f', metavar='FILTER', help='test filter')
	parser.add_argument(
	'--dry-run',
	'-n',
	action='store_true',
	help='Print ninja and test run commands without executing them.')
	parser.add_argument('file',
	metavar='FILE_NAME',
	help='test suite file (eg. FooTest.java)')

	args, _extras = parser.parse_known_args()

	# Use CWD as out_dir when build.ninja exists.
	if not args.out_dir and os.path.exists('build.ninja'):
	args.out_dir = '.'

	if not os.path.isdir(args.out_dir):
	parser.error(f'OUT_DIR "{args.out_dir}" does not exist.')
	target_cache = TargetCache(args.out_dir)
	filenames = FindMatchingTestFiles(args.file)

	targets, used_cache = FindTestTargets(target_cache, args.out_dir, filenames,
	args.run_all)

	gtest_filter = args.gtest_filter
	if not gtest_filter:
	gtest_filter = BuildTestFilter(filenames, args.line)

	if not gtest_filter:
	ExitWithMessage('Failed to derive a gtest filter')

	assert targets
	build_ok = BuildTestTargetsWithNinja(args.out_dir, targets, args.dry_run)

	# If we used the target cache, it's possible we chose the wrong target because
	# a gn file was changed. The build step above will check for gn modifications
	# and update build.ninja. Use this opportunity the verify the cache is still
	# valid.
	if used_cache and not target_cache.IsStillValid():
	target_cache = TargetCache(args.out_dir)
	new_targets, _ = FindTestTargets(target_cache, args.out_dir, filenames,
	args.run_all)
	if targets != new_targets:
	# Note that this can happen, for example, if you rename a test target.
	print('gn config was changed, trying to build again', file=sys.stderr)
	targets = new_targets
	if not BuildTestTargetsWithNinja(args.out_dir, targets, args.dry_run):
	sys.exit(1)
	else: # cache still valid, quit if the build failed
	if not build_ok: sys.exit(1)

	RunTestTargets(args.out_dir, targets, gtest_filter, _extras, args.dry_run)


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