JSTests/ChakraCore/test/runtests.py - WebKit - Git at Google

 #!/usr/bin/env python
 #-------------------------------------------------------------------------------------------------------
 # Copyright (C) Microsoft. All rights reserved.
 # Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
 #-------------------------------------------------------------------------------------------------------

 from __future__ import print_function
 from datetime import datetime
 from multiprocessing import Pool, Manager
 from threading import Timer
 import sys
 import os
 import subprocess as SP
 import traceback
 import argparse
 import xml.etree.ElementTree as ET
 import re
 import time

 # handle command line args
 parser = argparse.ArgumentParser(
     description='ChakraCore *nix Test Script',
     formatter_class=argparse.RawDescriptionHelpFormatter,
     epilog='''\
 Samples:

 test all folders:
     runtests.py

 test only Array:
     runtests.py Array

 test a single file:
     runtests.py Basics/hello.js
 ''')

 parser.add_argument('folders', metavar='folder', nargs='*',
                     help='folder subset to run tests')
 parser.add_argument('-b', '--binary', metavar='bin', help='ch full path')
 parser.add_argument('-d', '--debug', action='store_true',
                     help='use debug build');
 parser.add_argument('-t', '--test', action='store_true', help='use test build')
 parser.add_argument('--include-slow', action='store_true',
                     help='include slow tests')
 parser.add_argument('--only-slow', action='store_true',
                     help='run only slow tests')
 parser.add_argument('--nightly', action='store_true',
                     help='run as nightly tests')
 parser.add_argument('--tag', nargs='*',
                     help='select tests with given tags')
 parser.add_argument('--not-tag', nargs='*',
                     help='exclude tests with given tags')
 parser.add_argument('--timeout', type=int, default=60,
                     help='test timeout (default 60 seconds)')
 parser.add_argument('-l', '--logfile', metavar='logfile', help='file to log results to', default=None)
 parser.add_argument('--x86', action='store_true', help='use x86 build')
 parser.add_argument('--x64', action='store_true', help='use x64 build')
 args = parser.parse_args()


 test_root = os.path.dirname(os.path.realpath(__file__))
 repo_root = os.path.dirname(test_root)

 # arch: x86, x64
 arch = 'x86' if args.x86 else ('x64' if args.x64 else None)
 if arch == None:
     arch = os.environ.get('_BuildArch', 'x86')
 if sys.platform != 'win32':
     arch = 'x64'    # xplat: hard code arch == x64
 arch_alias = 'amd64' if arch == 'x64' else None

 # flavor: debug, test, release
 type_flavor = {'chk':'Debug', 'test':'Test', 'fre':'Release'}
 flavor = 'Debug' if args.debug else ('Test' if args.test else None)
 if flavor == None:
     print("ERROR: Test build target wasn't defined.")
     print("Try '-t' (test build) or '-d' (debug build).")
     sys.exit(1)
 flavor_alias = 'chk' if flavor == 'Debug' else 'fre'

 # binary: full ch path
 binary = args.binary
 if binary == None:
     if sys.platform == 'win32':
         binary = 'Build/VcBuild/bin/{}_{}/ch.exe'.format(arch, flavor)
     else:
         binary = 'BuildLinux/{0}/ch'.format(flavor)
     binary = os.path.join(repo_root, binary)
 if not os.path.isfile(binary):
     print('{} not found. Did you run ./build.sh already?'.format(binary))
     sys.exit(1)

 # global tags/not_tags
 tags = set(args.tag or [])
 not_tags = set(args.not_tag or []).union(['fail', 'exclude_' + arch])

 if arch_alias:
     not_tags.add('exclude_' + arch_alias)
 if flavor_alias:
     not_tags.add('exclude_' + flavor_alias)
 if args.only_slow:
     tags.add('Slow')
 elif not args.include_slow:
     not_tags.add('Slow')

 not_tags.add('exclude_nightly' if args.nightly else 'nightly')

 # xplat: temp hard coded to exclude unsupported tests
 if sys.platform != 'win32':
     not_tags.add('exclude_xplat')
     not_tags.add('Intl')
     not_tags.add('require_backend')
     not_tags.add('require_debugger')
 if sys.platform == 'darwin':
     not_tags.add('exclude_mac')
 not_compile_flags = set(['-simdjs']) \
     if sys.platform != 'win32' else None

 # use tags/not_tags/not_compile_flags as case-insensitive
 def lower_set(s):
     return set([x.lower() for x in s] if s else [])

 tags = lower_set(tags)
 not_tags = lower_set(not_tags)
 not_compile_flags = lower_set(not_compile_flags)

 # split tags text into tags set
 _empty_set = set()
 def split_tags(text):
     return set(x.strip() for x in text.lower().split(',')) if text \
             else _empty_set

 class LogFile(object):
     def __init__(self, log_file_path = None):
         self.file = None

         if log_file_path is None:
             # Set up the log file paths
             # Make sure the right directory exists and the log file doesn't
             log_file_name = "testrun.{0}{1}.log".format(arch, flavor)
             log_file_directory = os.path.join(repo_root, "test", "logs")

             if not os.path.exists(log_file_directory):
                 os.mkdir(log_file_directory)

             self.log_file_path = os.path.join(log_file_directory, log_file_name)

             if os.path.exists(self.log_file_path):
                 os.remove(self.log_file_path)
         else:
             self.log_file_path = log_file_path

         self.file = open(self.log_file_path, "w")

     def log(self, args):
         self.file.write(args)

     def __del__(self):
         if not (self.file is None):
             self.file.close()

 if __name__ == '__main__':
     log_file = LogFile(args.logfile)

 def log_message(msg = ""):
     log_file.log(msg + "\n")

 def print_and_log(msg = ""):
     print(msg)
     log_message(msg)

 # remove carriage returns at end of line to avoid platform difference
 def normalize_new_line(text):
     return re.sub(b'[\r]+\n', b'\n', text)

 # A test simply contains a collection of test attributes.
 # Misc attributes added by test run:
 #   filename        full path of test file
 #   elapsed_time    elapsed time when running the test
 #
 class Test(dict):
     __setattr__ = dict.__setitem__
     __delattr__ = dict.__delitem__

     # support dot syntax for normal attribute access
     def __getattr__(self, key):
         return super(Test, self).__getattr__(key) if key.startswith('__') \
                 else self.get(key)

     # mark start of this test run, to compute elapsed_time
     def start(self):
         self.start_time = datetime.now()

     # mark end of this test run, compute elapsed_time
     def done(self):
         if not self.elapsed_time:
             self.elapsed_time = (datetime.now() - self.start_time)\
                                 .total_seconds()

 # records pass_count/fail_count
 class PassFailCount(object):
     def __init__(self):
         self.pass_count = 0
         self.fail_count = 0

     def __str__(self):
         return 'passed {}, failed {}'.format(self.pass_count, self.fail_count)

     def total_count(self):
         return self.pass_count + self.fail_count

 # records total and individual folder's pass_count/fail_count
 class TestResult(PassFailCount):
     def __init__(self):
         super(self.__class__, self).__init__()
         self.folders = {}

     def _get_folder_result(self, folder):
         r = self.folders.get(folder)
         if not r:
             r = PassFailCount()
             self.folders[folder] = r
         return r

     def log(self, filename, fail=False):
         folder = os.path.basename(os.path.dirname(filename))
         r = self._get_folder_result(folder)
         if fail:
             r.fail_count += 1
             self.fail_count += 1
         else:
             r.pass_count += 1
             self.pass_count += 1

 # test variants:
 #   interpreted: -maxInterpretCount:1 -maxSimpleJitRunCount:1 -bgjit-
 #   dynapogo: -forceNative -off:simpleJit -bgJitDelay:0
 class TestVariant(object):
     def __init__(self, name, compile_flags=[]):
         self.name = name
         self.compile_flags = \
             ['-WERExceptionSupport', '-ExtendedErrorStackForTestHost',
              '-BaselineMode'] + compile_flags
         self.tags = tags.copy()
         self.not_tags = not_tags.union(
             ['{}_{}'.format(x, name) for x in ('fails','exclude')])

         self.msg_queue = Manager().Queue() # messages from multi processes
         self.test_result = TestResult()
         self._print_lines = [] # _print lines buffer
         self._last_len = 0

     # check if this test variant should run a given test
     def _should_test(self, test):
         tags = split_tags(test.get('tags'))
         if not tags.isdisjoint(self.not_tags):
             return False
         if self.tags and not self.tags.issubset(tags):
             return False
         if not_compile_flags: # exclude unsupported compile-flags if any
             flags = test.get('compile-flags')
             if flags and \
                     not not_compile_flags.isdisjoint(flags.lower().split()):
                 return False
         return True

     # print output from multi-process run, to be sent with result message
     def _print(self, line):
         self._print_lines.append(str(line))

     # queue a test result from multi-process runs
     def _log_result(self, test, fail):
         output = '\n'.join(self._print_lines) # collect buffered _print output
         self._print_lines = []
         self.msg_queue.put((test.filename, fail, test.elapsed_time, output))

     # (on main process) process one queued message
     def _process_msg(self, msg):
         filename, fail, elapsed_time, output = msg
         self.test_result.log(filename, fail=fail)
         line = '[{}/{} {:4.2f}] {} -> {}'.format(
             self.test_result.total_count(),
             self.test_count,
             elapsed_time,
             'Failed' if fail else 'Passed',
             self._short_name(filename))
         padding = self._last_len - len(line)
         print(line + ' ' * padding, end='\n' if fail else '\r')
         log_message(line)
         self._last_len = len(line) if not fail else 0
         if len(output) > 0:
             print_and_log(output)

     # get a shorter test file path for display only
     def _short_name(self, filename):
         folder = os.path.basename(os.path.dirname(filename))
         return os.path.join(folder, os.path.basename(filename))

     # (on main process) wait and process one queued message
     def _process_one_msg(self):
         self._process_msg(self.msg_queue.get())

     # log a failed test with details
     def _show_failed(self, test, flags, exit_code, output,
                     expected_output=None, timedout=False):
         if timedout:
             self._print('ERROR: Test timed out!')
         self._print('{} {} {}'.format(binary, ' '.join(flags), test.filename))
         if expected_output == None or timedout:
             self._print("\nOutput:")
             self._print("----------------------------")
             self._print(output)
             self._print("----------------------------")
         else:
             lst_output = output.split(b'\n')
             lst_expected = expected_output.split(b'\n')
             ln = min(len(lst_output), len(lst_expected))
             for i in range(0, ln):
                 if lst_output[i] != lst_expected[i]:
                     self._print("Output: (at line " + str(i) + ")")
                     self._print("----------------------------")
                     self._print(lst_output[i])
                     self._print("----------------------------")
                     self._print("Expected Output:")
                     self._print("----------------------------")
                     self._print(lst_expected[i])
                     self._print("----------------------------")
                     break

         self._print("exit code: {}".format(exit_code))
         self._log_result(test, fail=True)

     # temp: try find real file name on hard drive if case mismatch
     def _check_file(self, folder, filename):
         path = os.path.join(folder, filename)
         if os.path.isfile(path):
             return path     # file exists on disk

         filename_lower = filename.lower()
         files = os.listdir(folder)
         for i in range(len(files)):
             if files[i].lower() == filename_lower:
                 self._print('\nWARNING: {} should be {}\n'.format(
                     path, files[i]))
                 return os.path.join(folder, files[i])

         # cann't find the file, just return the path and let it error out
         return path

     # run one test under this variant
     def test_one(self, test):
         try:
             test.start()
             self._run_one_test(test)
         except Exception:
             test.done()
             self._print(traceback.format_exc())
             self._log_result(test, fail=True)

     # internally perform one test run
     def _run_one_test(self, test):
         folder = test.folder
         js_file = test.filename = self._check_file(folder, test.files)
         js_output = b''

         working_path = os.path.dirname(js_file)

         flags = test.get('compile-flags')
         flags = self.compile_flags + (flags.split() if flags else [])
         cmd = [binary] + flags + [os.path.basename(js_file)]

         test.start()
         proc = SP.Popen(cmd, stdout=SP.PIPE, stderr=SP.STDOUT, cwd=working_path)
         timeout_data = [proc, False]
         def timeout_func(timeout_data):
             timeout_data[0].kill()
             timeout_data[1] = True
         timeout = test.get('timeout', args.timeout) # test override or default
         timer = Timer(timeout, timeout_func, [timeout_data])
         try:
             timer.start()
             js_output = normalize_new_line(proc.communicate()[0])
             exit_code = proc.wait()
         finally:
             timer.cancel()
         test.done()

         # shared _show_failed args
         fail_args = { 'test': test, 'flags': flags,
                       'exit_code': exit_code, 'output': js_output };

         # check timed out
         if (timeout_data[1]):
             return self._show_failed(timedout=True, **fail_args)

         # check ch failed
         if exit_code != 0:
             return self._show_failed(**fail_args)

         # check output
         if 'baseline' not in test:
             # output lines must be 'pass' or 'passed' or empty
             lines = (line.lower() for line in js_output.split(b'\n'))
             if any(line != b'' and line != b'pass' and line != b'passed'
                     for line in lines):
                 return self._show_failed(**fail_args)
         else:
             baseline = test.get('baseline')
             if baseline:
                 # perform baseline comparison
                 baseline = self._check_file(working_path, baseline)
                 with open(baseline, 'rb') as bs_file:
                     baseline_output = bs_file.read()

                 # Cleanup carriage return
                 # todo: remove carriage return at the end of the line
                 #       or better fix ch to output same on all platforms
                 expected_output = normalize_new_line(baseline_output)

                 if expected_output != js_output:
                     return self._show_failed(
                         expected_output=expected_output, **fail_args)

         # passed
         self._log_result(test, fail=False)

     # run tests under this variant, using given multiprocessing Pool
     def run(self, tests, pool):
         print_and_log('\n############# Starting {} variant #############'\
                         .format(self.name))
         if self.tags:
             print_and_log('  tags: {}'.format(self.tags))
         for x in self.not_tags:
             print_and_log('  exclude: {}'.format(x))
         print_and_log()

         # filter tests to run
         tests = [x for x in tests if self._should_test(x)]
         self.test_count = len(tests)

         # run tests in parallel
         result = pool.map_async(run_one, [(self,test) for test in tests])
         while self.test_result.total_count() != self.test_count:
             self._process_one_msg()

     # print test result summary
     def print_summary(self):
         print_and_log('\n######## Logs for {} variant ########'\
                         .format(self.name))
         for folder, result in sorted(self.test_result.folders.items()):
             print_and_log('{}: {}'.format(folder, result))
         print_and_log("----------------------------")
         print_and_log('Total: {}'.format(self.test_result))

 # global run one test function for multiprocessing, used by TestVariant
 def run_one(data):
     try:
         variant, test = data
         variant.test_one(test)
     except Exception:
         print('ERROR: Unhandled exception!!!')
         traceback.print_exc()

 # record folder/tags info from test_root/rlexedirs.xml
 class FolderTags(object):
     def __init__(self):
         xmlpath = os.path.join(test_root, 'rlexedirs.xml')
         try:
             xml = ET.parse(xmlpath).getroot()
         except IOError:
             print_and_log('ERROR: failed to read {}'.format(xmlpath))
             exit(-1)

         self._folder_tags = {}
         for x in xml:
             d = x.find('default')
             key = d.find('files').text.lower() # avoid case mismatch
             tags = d.find('tags')
             self._folder_tags[key] = \
                 split_tags(tags.text) if tags != None else _empty_set

     # check if should test a given folder
     def should_test(self, folder):
         key = os.path.basename(os.path.normpath(folder)).lower()
         ftags = self._folder_tags.get(key)

         # folder listed in rlexedirs.xml and not exlucded by global not_tags
         return ftags != None and ftags.isdisjoint(not_tags)


 # load all tests in folder using rlexe.xml file
 def load_tests(folder, file):
     try:
         xmlpath = os.path.join(folder, 'rlexe.xml')
         xml = ET.parse(xmlpath).getroot()
     except IOError:
         return []

     def test_override(condition, check_tag, check_value, test):
         target = condition.find(check_tag)
         if target != None and target.text == check_value:
             for override in condition.find('override'):
                 test[override.tag] = override.text

     def load_test(testXml):
         test = Test(folder=folder)
         for c in testXml.find('default'):
             if c.tag == 'timeout':                       # timeout seconds
                 test[c.tag] = int(c.text)
             elif c.tag == 'tags' and c.tag in test:      # merge multiple <tags>
                 test[c.tag] = test[c.tag] + ',' + c.text
             else:
                 test[c.tag] = c.text

         condition = testXml.find('condition')
         if condition != None:
             test_override(condition, 'target', arch_alias, test)

         return test

     tests = [load_test(x) for x in xml]
     if file != None:
         tests = [x for x in tests if x.files == file]
         if len(tests) == 0 and is_jsfile(file):
             tests = [Test(folder=folder, files=file, baseline='')]
     return tests

 def is_jsfile(path):
     return os.path.splitext(path)[1] == '.js'

 def main():
     # By default run all tests
     if len(args.folders) == 0:
         files = (os.path.join(test_root, x) for x in os.listdir(test_root))
         args.folders = [f for f in sorted(files) if not os.path.isfile(f)]

     # Set the right timezone, the tests need Pacific Standard Time
     os.environ['TZ'] = 'US/Pacific'
     time.tzset()

     # load all tests
     tests = []
     folder_tags = FolderTags()
     for path in args.folders:
         if os.path.isfile(path):
             folder, file = os.path.dirname(path), os.path.basename(path)
         else:
             folder, file = path, None
         if folder_tags.should_test(folder):
             tests += load_tests(folder, file)

     # test variants
     variants = [
         TestVariant('interpreted', [
             '-maxInterpretCount:1', '-maxSimpleJitRunCount:1', '-bgjit-'])
     ]

     # run each variant
     pool = Pool(1) # Use a multiprocessing process Pool -- TODO: forcing this to single threaded until we have support for sequential tag
     start_time = datetime.now()
     for variant in variants:
         variant.run(tests, pool)
     elapsed_time = datetime.now() - start_time

     # print summary
     for variant in variants:
         variant.print_summary()

     print()
     failed = any(variant.test_result.fail_count > 0 for variant in variants)
     print('[{}] {}'.format(
         str(elapsed_time), 'Success!' if not failed else 'Failed!'))

     return 1 if failed else 0

 if __name__ == '__main__':
     sys.exit(main())
	#!/usr/bin/env python
	#-------------------------------------------------------------------------------------------------------
	# Copyright (C) Microsoft. All rights reserved.
	# Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
	#-------------------------------------------------------------------------------------------------------

	from __future__ import print_function
	from datetime import datetime
	from multiprocessing import Pool, Manager
	from threading import Timer
	import sys
	import os
	import subprocess as SP
	import traceback
	import argparse
	import xml.etree.ElementTree as ET
	import re
	import time

	# handle command line args
	parser = argparse.ArgumentParser(
	description='ChakraCore *nix Test Script',
	formatter_class=argparse.RawDescriptionHelpFormatter,
	epilog='''\
	Samples:

	test all folders:
	runtests.py

	test only Array:
	runtests.py Array

	test a single file:
	runtests.py Basics/hello.js
	''')

	parser.add_argument('folders', metavar='folder', nargs='*',
	help='folder subset to run tests')
	parser.add_argument('-b', '--binary', metavar='bin', help='ch full path')
	parser.add_argument('-d', '--debug', action='store_true',
	help='use debug build');
	parser.add_argument('-t', '--test', action='store_true', help='use test build')
	parser.add_argument('--include-slow', action='store_true',
	help='include slow tests')
	parser.add_argument('--only-slow', action='store_true',
	help='run only slow tests')
	parser.add_argument('--nightly', action='store_true',
	help='run as nightly tests')
	parser.add_argument('--tag', nargs='*',
	help='select tests with given tags')
	parser.add_argument('--not-tag', nargs='*',
	help='exclude tests with given tags')
	parser.add_argument('--timeout', type=int, default=60,
	help='test timeout (default 60 seconds)')
	parser.add_argument('-l', '--logfile', metavar='logfile', help='file to log results to', default=None)
	parser.add_argument('--x86', action='store_true', help='use x86 build')
	parser.add_argument('--x64', action='store_true', help='use x64 build')
	args = parser.parse_args()


	test_root = os.path.dirname(os.path.realpath(__file__))
	repo_root = os.path.dirname(test_root)

	# arch: x86, x64
	arch = 'x86' if args.x86 else ('x64' if args.x64 else None)
	if arch == None:
	arch = os.environ.get('_BuildArch', 'x86')
	if sys.platform != 'win32':
	arch = 'x64' # xplat: hard code arch == x64
	arch_alias = 'amd64' if arch == 'x64' else None

	# flavor: debug, test, release
	type_flavor = {'chk':'Debug', 'test':'Test', 'fre':'Release'}
	flavor = 'Debug' if args.debug else ('Test' if args.test else None)
	if flavor == None:
	print("ERROR: Test build target wasn't defined.")
	print("Try '-t' (test build) or '-d' (debug build).")
	sys.exit(1)
	flavor_alias = 'chk' if flavor == 'Debug' else 'fre'

	# binary: full ch path
	binary = args.binary
	if binary == None:
	if sys.platform == 'win32':
	binary = 'Build/VcBuild/bin/{}_{}/ch.exe'.format(arch, flavor)
	else:
	binary = 'BuildLinux/{0}/ch'.format(flavor)
	binary = os.path.join(repo_root, binary)
	if not os.path.isfile(binary):
	print('{} not found. Did you run ./build.sh already?'.format(binary))
	sys.exit(1)

	# global tags/not_tags
	tags = set(args.tag or [])
	not_tags = set(args.not_tag or []).union(['fail', 'exclude_' + arch])

	if arch_alias:
	not_tags.add('exclude_' + arch_alias)
	if flavor_alias:
	not_tags.add('exclude_' + flavor_alias)
	if args.only_slow:
	tags.add('Slow')
	elif not args.include_slow:
	not_tags.add('Slow')

	not_tags.add('exclude_nightly' if args.nightly else 'nightly')

	# xplat: temp hard coded to exclude unsupported tests
	if sys.platform != 'win32':
	not_tags.add('exclude_xplat')
	not_tags.add('Intl')
	not_tags.add('require_backend')
	not_tags.add('require_debugger')
	if sys.platform == 'darwin':
	not_tags.add('exclude_mac')
	not_compile_flags = set(['-simdjs']) \
	if sys.platform != 'win32' else None

	# use tags/not_tags/not_compile_flags as case-insensitive
	def lower_set(s):
	return set([x.lower() for x in s] if s else [])

	tags = lower_set(tags)
	not_tags = lower_set(not_tags)
	not_compile_flags = lower_set(not_compile_flags)

	# split tags text into tags set
	_empty_set = set()
	def split_tags(text):
	return set(x.strip() for x in text.lower().split(',')) if text \
	else _empty_set

	class LogFile(object):
	def __init__(self, log_file_path = None):
	self.file = None

	if log_file_path is None:
	# Set up the log file paths
	# Make sure the right directory exists and the log file doesn't
	log_file_name = "testrun.{0}{1}.log".format(arch, flavor)
	log_file_directory = os.path.join(repo_root, "test", "logs")

	if not os.path.exists(log_file_directory):
	os.mkdir(log_file_directory)

	self.log_file_path = os.path.join(log_file_directory, log_file_name)

	if os.path.exists(self.log_file_path):
	os.remove(self.log_file_path)
	else:
	self.log_file_path = log_file_path

	self.file = open(self.log_file_path, "w")

	def log(self, args):
	self.file.write(args)

	def __del__(self):
	if not (self.file is None):
	self.file.close()

	if __name__ == '__main__':
	log_file = LogFile(args.logfile)

	def log_message(msg = ""):
	log_file.log(msg + "\n")

	def print_and_log(msg = ""):
	print(msg)
	log_message(msg)

	# remove carriage returns at end of line to avoid platform difference
	def normalize_new_line(text):
	return re.sub(b'[\r]+\n', b'\n', text)

	# A test simply contains a collection of test attributes.
	# Misc attributes added by test run:
	# filename full path of test file
	# elapsed_time elapsed time when running the test
	#
	class Test(dict):
	__setattr__ = dict.__setitem__
	__delattr__ = dict.__delitem__

	# support dot syntax for normal attribute access
	def __getattr__(self, key):
	return super(Test, self).__getattr__(key) if key.startswith('__') \
	else self.get(key)

	# mark start of this test run, to compute elapsed_time
	def start(self):
	self.start_time = datetime.now()

	# mark end of this test run, compute elapsed_time
	def done(self):
	if not self.elapsed_time:
	self.elapsed_time = (datetime.now() - self.start_time)\
	.total_seconds()

	# records pass_count/fail_count
	class PassFailCount(object):
	def __init__(self):
	self.pass_count = 0
	self.fail_count = 0

	def __str__(self):
	return 'passed {}, failed {}'.format(self.pass_count, self.fail_count)

	def total_count(self):
	return self.pass_count + self.fail_count

	# records total and individual folder's pass_count/fail_count
	class TestResult(PassFailCount):
	def __init__(self):
	super(self.__class__, self).__init__()
	self.folders = {}

	def _get_folder_result(self, folder):
	r = self.folders.get(folder)
	if not r:
	r = PassFailCount()
	self.folders[folder] = r
	return r

	def log(self, filename, fail=False):
	folder = os.path.basename(os.path.dirname(filename))
	r = self._get_folder_result(folder)
	if fail:
	r.fail_count += 1
	self.fail_count += 1
	else:
	r.pass_count += 1
	self.pass_count += 1

	# test variants:
	# interpreted: -maxInterpretCount:1 -maxSimpleJitRunCount:1 -bgjit-
	# dynapogo: -forceNative -off:simpleJit -bgJitDelay:0
	class TestVariant(object):
	def __init__(self, name, compile_flags=[]):
	self.name = name
	self.compile_flags = \
	['-WERExceptionSupport', '-ExtendedErrorStackForTestHost',
	'-BaselineMode'] + compile_flags
	self.tags = tags.copy()
	self.not_tags = not_tags.union(
	['{}_{}'.format(x, name) for x in ('fails','exclude')])

	self.msg_queue = Manager().Queue() # messages from multi processes
	self.test_result = TestResult()
	self._print_lines = [] # _print lines buffer
	self._last_len = 0

	# check if this test variant should run a given test
	def _should_test(self, test):
	tags = split_tags(test.get('tags'))
	if not tags.isdisjoint(self.not_tags):
	return False
	if self.tags and not self.tags.issubset(tags):
	return False
	if not_compile_flags: # exclude unsupported compile-flags if any
	flags = test.get('compile-flags')
	if flags and \
	not not_compile_flags.isdisjoint(flags.lower().split()):
	return False
	return True

	# print output from multi-process run, to be sent with result message
	def _print(self, line):
	self._print_lines.append(str(line))

	# queue a test result from multi-process runs
	def _log_result(self, test, fail):
	output = '\n'.join(self._print_lines) # collect buffered _print output
	self._print_lines = []
	self.msg_queue.put((test.filename, fail, test.elapsed_time, output))

	# (on main process) process one queued message
	def _process_msg(self, msg):
	filename, fail, elapsed_time, output = msg
	self.test_result.log(filename, fail=fail)
	line = '[{}/{} {:4.2f}] {} -> {}'.format(
	self.test_result.total_count(),
	self.test_count,
	elapsed_time,
	'Failed' if fail else 'Passed',
	self._short_name(filename))
	padding = self._last_len - len(line)
	print(line + ' ' * padding, end='\n' if fail else '\r')
	log_message(line)
	self._last_len = len(line) if not fail else 0
	if len(output) > 0:
	print_and_log(output)

	# get a shorter test file path for display only
	def _short_name(self, filename):
	folder = os.path.basename(os.path.dirname(filename))
	return os.path.join(folder, os.path.basename(filename))

	# (on main process) wait and process one queued message
	def _process_one_msg(self):
	self._process_msg(self.msg_queue.get())

	# log a failed test with details
	def _show_failed(self, test, flags, exit_code, output,
	expected_output=None, timedout=False):
	if timedout:
	self._print('ERROR: Test timed out!')
	self._print('{} {} {}'.format(binary, ' '.join(flags), test.filename))
	if expected_output == None or timedout:
	self._print("\nOutput:")
	self._print("----------------------------")
	self._print(output)
	self._print("----------------------------")
	else:
	lst_output = output.split(b'\n')
	lst_expected = expected_output.split(b'\n')
	ln = min(len(lst_output), len(lst_expected))
	for i in range(0, ln):
	if lst_output[i] != lst_expected[i]:
	self._print("Output: (at line " + str(i) + ")")
	self._print("----------------------------")
	self._print(lst_output[i])
	self._print("----------------------------")
	self._print("Expected Output:")
	self._print("----------------------------")
	self._print(lst_expected[i])
	self._print("----------------------------")
	break

	self._print("exit code: {}".format(exit_code))
	self._log_result(test, fail=True)

	# temp: try find real file name on hard drive if case mismatch
	def _check_file(self, folder, filename):
	path = os.path.join(folder, filename)
	if os.path.isfile(path):
	return path # file exists on disk

	filename_lower = filename.lower()
	files = os.listdir(folder)
	for i in range(len(files)):
	if files[i].lower() == filename_lower:
	self._print('\nWARNING: {} should be {}\n'.format(
	path, files[i]))
	return os.path.join(folder, files[i])

	# cann't find the file, just return the path and let it error out
	return path

	# run one test under this variant
	def test_one(self, test):
	try:
	test.start()
	self._run_one_test(test)
	except Exception:
	test.done()
	self._print(traceback.format_exc())
	self._log_result(test, fail=True)

	# internally perform one test run
	def _run_one_test(self, test):
	folder = test.folder
	js_file = test.filename = self._check_file(folder, test.files)
	js_output = b''

	working_path = os.path.dirname(js_file)

	flags = test.get('compile-flags')
	flags = self.compile_flags + (flags.split() if flags else [])
	cmd = [binary] + flags + [os.path.basename(js_file)]

	test.start()
	proc = SP.Popen(cmd, stdout=SP.PIPE, stderr=SP.STDOUT, cwd=working_path)
	timeout_data = [proc, False]
	def timeout_func(timeout_data):
	timeout_data[0].kill()
	timeout_data[1] = True
	timeout = test.get('timeout', args.timeout) # test override or default
	timer = Timer(timeout, timeout_func, [timeout_data])
	try:
	timer.start()
	js_output = normalize_new_line(proc.communicate()[0])
	exit_code = proc.wait()
	finally:
	timer.cancel()
	test.done()

	# shared _show_failed args
	fail_args = { 'test': test, 'flags': flags,
	'exit_code': exit_code, 'output': js_output };

	# check timed out
	if (timeout_data[1]):
	return self._show_failed(timedout=True, **fail_args)

	# check ch failed
	if exit_code != 0:
	return self._show_failed(**fail_args)

	# check output
	if 'baseline' not in test:
	# output lines must be 'pass' or 'passed' or empty
	lines = (line.lower() for line in js_output.split(b'\n'))
	if any(line != b'' and line != b'pass' and line != b'passed'
	for line in lines):
	return self._show_failed(**fail_args)
	else:
	baseline = test.get('baseline')
	if baseline:
	# perform baseline comparison
	baseline = self._check_file(working_path, baseline)
	with open(baseline, 'rb') as bs_file:
	baseline_output = bs_file.read()

	# Cleanup carriage return
	# todo: remove carriage return at the end of the line
	# or better fix ch to output same on all platforms
	expected_output = normalize_new_line(baseline_output)

	if expected_output != js_output:
	return self._show_failed(
	expected_output=expected_output, **fail_args)

	# passed
	self._log_result(test, fail=False)

	# run tests under this variant, using given multiprocessing Pool
	def run(self, tests, pool):
	print_and_log('\n############# Starting {} variant #############'\
	.format(self.name))
	if self.tags:
	print_and_log(' tags: {}'.format(self.tags))
	for x in self.not_tags:
	print_and_log(' exclude: {}'.format(x))
	print_and_log()

	# filter tests to run
	tests = [x for x in tests if self._should_test(x)]
	self.test_count = len(tests)

	# run tests in parallel
	result = pool.map_async(run_one, [(self,test) for test in tests])
	while self.test_result.total_count() != self.test_count:
	self._process_one_msg()

	# print test result summary
	def print_summary(self):
	print_and_log('\n######## Logs for {} variant ########'\
	.format(self.name))
	for folder, result in sorted(self.test_result.folders.items()):
	print_and_log('{}: {}'.format(folder, result))
	print_and_log("----------------------------")
	print_and_log('Total: {}'.format(self.test_result))

	# global run one test function for multiprocessing, used by TestVariant
	def run_one(data):
	try:
	variant, test = data
	variant.test_one(test)
	except Exception:
	print('ERROR: Unhandled exception!!!')
	traceback.print_exc()

	# record folder/tags info from test_root/rlexedirs.xml
	class FolderTags(object):
	def __init__(self):
	xmlpath = os.path.join(test_root, 'rlexedirs.xml')
	try:
	xml = ET.parse(xmlpath).getroot()
	except IOError:
	print_and_log('ERROR: failed to read {}'.format(xmlpath))
	exit(-1)

	self._folder_tags = {}
	for x in xml:
	d = x.find('default')
	key = d.find('files').text.lower() # avoid case mismatch
	tags = d.find('tags')
	self._folder_tags[key] = \
	split_tags(tags.text) if tags != None else _empty_set

	# check if should test a given folder
	def should_test(self, folder):
	key = os.path.basename(os.path.normpath(folder)).lower()
	ftags = self._folder_tags.get(key)

	# folder listed in rlexedirs.xml and not exlucded by global not_tags
	return ftags != None and ftags.isdisjoint(not_tags)


	# load all tests in folder using rlexe.xml file
	def load_tests(folder, file):
	try:
	xmlpath = os.path.join(folder, 'rlexe.xml')
	xml = ET.parse(xmlpath).getroot()
	except IOError:
	return []

	def test_override(condition, check_tag, check_value, test):
	target = condition.find(check_tag)
	if target != None and target.text == check_value:
	for override in condition.find('override'):
	test[override.tag] = override.text

	def load_test(testXml):
	test = Test(folder=folder)
	for c in testXml.find('default'):
	if c.tag == 'timeout': # timeout seconds
	test[c.tag] = int(c.text)
	elif c.tag == 'tags' and c.tag in test: # merge multiple <tags>
	test[c.tag] = test[c.tag] + ',' + c.text
	else:
	test[c.tag] = c.text

	condition = testXml.find('condition')
	if condition != None:
	test_override(condition, 'target', arch_alias, test)

	return test

	tests = [load_test(x) for x in xml]
	if file != None:
	tests = [x for x in tests if x.files == file]
	if len(tests) == 0 and is_jsfile(file):
	tests = [Test(folder=folder, files=file, baseline='')]
	return tests

	def is_jsfile(path):
	return os.path.splitext(path)[1] == '.js'

	def main():
	# By default run all tests
	if len(args.folders) == 0:
	files = (os.path.join(test_root, x) for x in os.listdir(test_root))
	args.folders = [f for f in sorted(files) if not os.path.isfile(f)]

	# Set the right timezone, the tests need Pacific Standard Time
	os.environ['TZ'] = 'US/Pacific'
	time.tzset()

	# load all tests
	tests = []
	folder_tags = FolderTags()
	for path in args.folders:
	if os.path.isfile(path):
	folder, file = os.path.dirname(path), os.path.basename(path)
	else:
	folder, file = path, None
	if folder_tags.should_test(folder):
	tests += load_tests(folder, file)

	# test variants
	variants = [
	TestVariant('interpreted', [
	'-maxInterpretCount:1', '-maxSimpleJitRunCount:1', '-bgjit-'])
	]

	# run each variant
	pool = Pool(1) # Use a multiprocessing process Pool -- TODO: forcing this to single threaded until we have support for sequential tag
	start_time = datetime.now()
	for variant in variants:
	variant.run(tests, pool)
	elapsed_time = datetime.now() - start_time

	# print summary
	for variant in variants:
	variant.print_summary()

	print()
	failed = any(variant.test_result.fail_count > 0 for variant in variants)
	print('[{}] {}'.format(
	str(elapsed_time), 'Success!' if not failed else 'Failed!'))

	return 1 if failed else 0

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