python/tests/_test_utils.py - external/github.com/google/brotli - Git at Google

 from __future__ import print_function
 import filecmp
 import glob
 import itertools
 import os
 import sys
 import sysconfig
 import tempfile
 import unittest


 project_dir = os.path.abspath(os.path.join(__file__, '..', '..', '..'))
 test_dir = os.getenv("BROTLI_TESTS_PATH")
 BRO_ARGS = [os.getenv("BROTLI_WRAPPER")]

 # Fallbacks
 if test_dir is None:
   test_dir = os.path.join(project_dir, 'tests')
 if BRO_ARGS[0] is None:
   python_exe = sys.executable or 'python'
   bro_path = os.path.join(project_dir, 'python', 'bro.py')
   BRO_ARGS = [python_exe, bro_path]

 # Get the platform/version-specific build folder.
 # By default, the distutils build base is in the same location as setup.py.
 platform_lib_name = 'lib.{platform}-{version[0]}.{version[1]}'.format(
     platform=sysconfig.get_platform(), version=sys.version_info)
 build_dir = os.path.join(project_dir, 'bin', platform_lib_name)

 # Prepend the build folder to sys.path and the PYTHONPATH environment variable.
 if build_dir not in sys.path:
     sys.path.insert(0, build_dir)
 TEST_ENV = os.environ.copy()
 if 'PYTHONPATH' not in TEST_ENV:
     TEST_ENV['PYTHONPATH'] = build_dir
 else:
     TEST_ENV['PYTHONPATH'] = build_dir + os.pathsep + TEST_ENV['PYTHONPATH']

 TESTDATA_DIR = os.path.join(test_dir, 'testdata')

 TESTDATA_FILES = [
     'empty',  # Empty file
     '10x10y',  # Small text
     'alice29.txt',  # Large text
     'random_org_10k.bin',  # Small data
     'mapsdatazrh',  # Large data
 ]

 TESTDATA_PATHS = [os.path.join(TESTDATA_DIR, f) for f in TESTDATA_FILES]

 TESTDATA_PATHS_FOR_DECOMPRESSION = glob.glob(
     os.path.join(TESTDATA_DIR, '*.compressed'))

 TEMP_DIR = tempfile.mkdtemp()


 def get_temp_compressed_name(filename):
     return os.path.join(TEMP_DIR, os.path.basename(filename + '.bro'))


 def get_temp_uncompressed_name(filename):
     return os.path.join(TEMP_DIR, os.path.basename(filename + '.unbro'))


 def bind_method_args(method, *args, **kwargs):
     return lambda self: method(self, *args, **kwargs)


 def generate_test_methods(test_case_class,
                           for_decompression=False,
                           variants=None):
     # Add test methods for each test data file.  This makes identifying problems
     # with specific compression scenarios easier.
     if for_decompression:
         paths = TESTDATA_PATHS_FOR_DECOMPRESSION
     else:
         paths = TESTDATA_PATHS
     opts = []
     if variants:
         opts_list = []
         for k, v in variants.items():
             opts_list.append([r for r in itertools.product([k], v)])
         for o in itertools.product(*opts_list):
             opts_name = '_'.join([str(i) for i in itertools.chain(*o)])
             opts_dict = dict(o)
             opts.append([opts_name, opts_dict])
     else:
         opts.append(['', {}])
     for method in [m for m in dir(test_case_class) if m.startswith('_test')]:
         for testdata in paths:
             for (opts_name, opts_dict) in opts:
                 f = os.path.splitext(os.path.basename(testdata))[0]
                 name = 'test_{method}_{options}_{file}'.format(
                     method=method, options=opts_name, file=f)
                 func = bind_method_args(
                     getattr(test_case_class, method), testdata, **opts_dict)
                 setattr(test_case_class, name, func)


 class TestCase(unittest.TestCase):

     def tearDown(self):
         for f in TESTDATA_PATHS:
             try:
                 os.unlink(get_temp_compressed_name(f))
             except OSError:
                 pass
             try:
                 os.unlink(get_temp_uncompressed_name(f))
             except OSError:
                 pass

     def assertFilesMatch(self, first, second):
         self.assertTrue(
             filecmp.cmp(first, second, shallow=False),
             'File {} differs from {}'.format(first, second))
	from __future__ import print_function
	import filecmp
	import glob
	import itertools
	import os
	import sys
	import sysconfig
	import tempfile
	import unittest


	project_dir = os.path.abspath(os.path.join(__file__, '..', '..', '..'))
	test_dir = os.getenv("BROTLI_TESTS_PATH")
	BRO_ARGS = [os.getenv("BROTLI_WRAPPER")]

	# Fallbacks
	if test_dir is None:
	test_dir = os.path.join(project_dir, 'tests')
	if BRO_ARGS[0] is None:
	python_exe = sys.executable or 'python'
	bro_path = os.path.join(project_dir, 'python', 'bro.py')
	BRO_ARGS = [python_exe, bro_path]

	# Get the platform/version-specific build folder.
	# By default, the distutils build base is in the same location as setup.py.
	platform_lib_name = 'lib.{platform}-{version[0]}.{version[1]}'.format(
	platform=sysconfig.get_platform(), version=sys.version_info)
	build_dir = os.path.join(project_dir, 'bin', platform_lib_name)

	# Prepend the build folder to sys.path and the PYTHONPATH environment variable.
	if build_dir not in sys.path:
	sys.path.insert(0, build_dir)
	TEST_ENV = os.environ.copy()
	if 'PYTHONPATH' not in TEST_ENV:
	TEST_ENV['PYTHONPATH'] = build_dir
	else:
	TEST_ENV['PYTHONPATH'] = build_dir + os.pathsep + TEST_ENV['PYTHONPATH']

	TESTDATA_DIR = os.path.join(test_dir, 'testdata')

	TESTDATA_FILES = [
	'empty', # Empty file
	'10x10y', # Small text
	'alice29.txt', # Large text
	'random_org_10k.bin', # Small data
	'mapsdatazrh', # Large data
	]

	TESTDATA_PATHS = [os.path.join(TESTDATA_DIR, f) for f in TESTDATA_FILES]

	TESTDATA_PATHS_FOR_DECOMPRESSION = glob.glob(
	os.path.join(TESTDATA_DIR, '*.compressed'))

	TEMP_DIR = tempfile.mkdtemp()


	def get_temp_compressed_name(filename):
	return os.path.join(TEMP_DIR, os.path.basename(filename + '.bro'))


	def get_temp_uncompressed_name(filename):
	return os.path.join(TEMP_DIR, os.path.basename(filename + '.unbro'))


	def bind_method_args(method, args, *kwargs):
	return lambda self: method(self, args, *kwargs)


	def generate_test_methods(test_case_class,
	for_decompression=False,
	variants=None):
	# Add test methods for each test data file. This makes identifying problems
	# with specific compression scenarios easier.
	if for_decompression:
	paths = TESTDATA_PATHS_FOR_DECOMPRESSION
	else:
	paths = TESTDATA_PATHS
	opts = []
	if variants:
	opts_list = []
	for k, v in variants.items():
	opts_list.append([r for r in itertools.product([k], v)])
	for o in itertools.product(*opts_list):
	opts_name = '_'.join([str(i) for i in itertools.chain(*o)])
	opts_dict = dict(o)
	opts.append([opts_name, opts_dict])
	else:
	opts.append(['', {}])
	for method in [m for m in dir(test_case_class) if m.startswith('_test')]:
	for testdata in paths:
	for (opts_name, opts_dict) in opts:
	f = os.path.splitext(os.path.basename(testdata))[0]
	name = 'test_{method}_{options}_{file}'.format(
	method=method, options=opts_name, file=f)
	func = bind_method_args(
	getattr(test_case_class, method), testdata, **opts_dict)
	setattr(test_case_class, name, func)


	class TestCase(unittest.TestCase):

	def tearDown(self):
	for f in TESTDATA_PATHS:
	try:
	os.unlink(get_temp_compressed_name(f))
	except OSError:
	pass
	try:
	os.unlink(get_temp_uncompressed_name(f))
	except OSError:
	pass

	def assertFilesMatch(self, first, second):
	self.assertTrue(
	filecmp.cmp(first, second, shallow=False),
	'File {} differs from {}'.format(first, second))