ext/testlib/helper.py - public/gem5 - Git at Google

 # Copyright (c) 2020 ARM Limited
 # All rights reserved
 #
 # The license below extends only to copyright in the software and shall
 # not be construed as granting a license to any other intellectual
 # property including but not limited to intellectual property relating
 # to a hardware implementation of the functionality of the software
 # licensed hereunder.  You may use the software subject to the license
 # terms below provided that you ensure that this notice is replicated
 # unmodified and in its entirety in all distributions of the software,
 # modified or unmodified, in source code or in binary form.
 #
 # Copyright (c) 2017 Mark D. Hill and David A. Wood
 # All rights reserved.
 #
 # Redistribution and use in source and binary forms, with or without
 # modification, are permitted provided that the following conditions are
 # met: redistributions of source code must retain the above copyright
 # notice, this list of conditions and the following disclaimer;
 # redistributions in binary form must reproduce the above copyright
 # notice, this list of conditions and the following disclaimer in the
 # documentation and/or other materials provided with the distribution;
 # neither the name of the copyright holders nor the names of its
 # contributors may be used to endorse or promote products derived from
 # this software without specific prior written permission.
 #
 # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 #
 # Authors: Sean Wilson

 '''
 Helper classes for writing tests with this test library.
 '''
 from collections import namedtuple
 from collections.abc import MutableSet

 import difflib
 import errno
 import os
 import re
 import shutil
 import stat
 import subprocess
 import tempfile
 import threading
 import time

 class TimedWaitPID(object):
     """Utility to monkey-patch os.waitpid() with os.wait4().

     This allows process usage time to be obtained directly from the OS
     when used with APIs, such as `subprocess`, which use os.waitpid to
     join child processes.

     The resource usage data from os.wait4() is stored in a functor and
     can be obtained using the get_time_for_pid() method.

     To avoid unbounded memory usage, the time record is deleted after
     it is read.

     """
     TimeRecord = namedtuple( "_TimeRecord", "user_time system_time" )

     class Wrapper(object):
         def __init__(self):
             self._time_for_pid = {}
             self._access_lock = threading.Lock()

         def __call__(self, pid, options):
             pid, status, resource_usage = os.wait4(pid, options)
             with self._access_lock:
                 self._time_for_pid[pid] = (
                     TimedWaitPID.TimeRecord(
                         resource_usage.ru_utime,
                         resource_usage.ru_stime
                     )
                 )
             return (pid, status)

         def has_time_for_pid(self, pid):
             with self._access_lock:
                 return pid in self._time_for_pid

         def get_time_for_pid(self, pid):
             with self._access_lock:
                 if pid not in self._time_for_pid:
                     raise Exception("No resource usage for pid {}".format(pid))
                 time_for_pid = self._time_for_pid[pid]
                 del self._time_for_pid[pid]
                 return time_for_pid

     _wrapper = None
     _wrapper_lock = threading.Lock()
     _original_os_waitpid = None

     @staticmethod
     def install():
         with TimedWaitPID._wrapper_lock:
             if TimedWaitPID._wrapper is None:
                 TimedWaitPID._wrapper = TimedWaitPID.Wrapper()
             if TimedWaitPID._original_os_waitpid is None :
                 TimedWaitPID._original_os_waitpid = os.waitpid
                 os.waitpid = TimedWaitPID._wrapper

     @staticmethod
     def restore():
         with TimedWaitPID._wrapper_lock:
             if TimedWaitPID._original_os_waitpid is not None :
                 os.waitpid = TimedWaitPID._original_os_waitpid
                 TimedWaitPID._original_os_waitpid = None

     @staticmethod
     def has_time_for_pid(pid):
         with TimedWaitPID._wrapper_lock:
             return TimedWaitPID._wrapper.has_time_for_pid(pid)

     @staticmethod
     def get_time_for_pid(pid):
         with TimedWaitPID._wrapper_lock:
             return TimedWaitPID._wrapper.get_time_for_pid(pid)

 # Patch os.waitpid()
 TimedWaitPID.install()

 #TODO Tear out duplicate logic from the sandbox IOManager
 def log_call(logger, command, time, *popenargs, **kwargs):
     '''
     Calls the given process and automatically logs the command and output.

     If stdout or stderr are provided output will also be piped into those
     streams as well.

     :params stdout: Iterable of items to write to as we read from the
         subprocess.

     :params stderr: Iterable of items to write to as we read from the
         subprocess.
     '''
     if isinstance(command, str):
         cmdstr = command
     else:
         try:
             command = list(map(str, command))
             cmdstr = " ".join(command)
         except TypeError as e:
             logger.trace(
                 "Argument <command> must be an iterable of string-convertible types"
             )
             raise e

     logger_callback = logger.trace
     logger.trace('Logging call to command: %s' % cmdstr)

     stdout_redirect = kwargs.get('stdout', tuple())
     stderr_redirect = kwargs.get('stderr', tuple())

     if hasattr(stdout_redirect, 'write'):
         stdout_redirect = (stdout_redirect,)
     if hasattr(stderr_redirect, 'write'):
         stderr_redirect = (stderr_redirect,)

     kwargs['stdout'] = subprocess.PIPE
     kwargs['stderr'] = subprocess.PIPE
     p = subprocess.Popen(command, *popenargs, **kwargs)

     def log_output(log_callback, pipe, redirects=tuple()):
         # Read iteractively, don't allow input to fill the pipe.
         for line in iter(pipe.readline, b''):
             line = line.decode("utf-8")
             for r in redirects:
                 r.write(line)
             log_callback(line.rstrip())

     stdout_thread = threading.Thread(target=log_output,
                            args=(logger_callback, p.stdout, stdout_redirect))
     stdout_thread.setDaemon(True)
     stderr_thread = threading.Thread(target=log_output,
                            args=(logger_callback, p.stderr, stderr_redirect))
     stderr_thread.setDaemon(True)

     stdout_thread.start()
     stderr_thread.start()

     retval = p.wait()
     stdout_thread.join()
     stderr_thread.join()

     if time is not None and TimedWaitPID.has_time_for_pid(p.pid):
         resource_usage = TimedWaitPID.get_time_for_pid(p.pid)
         time['user_time'] = resource_usage.user_time
         time['system_time'] = resource_usage.system_time

     # Return the return exit code of the process.
     if retval != 0:
         raise subprocess.CalledProcessError(retval, cmdstr)

 # lru_cache stuff (Introduced in python 3.2+)
 # Renamed and modified to cacheresult
 class _HashedSeq(list):
     '''
     This class guarantees that hash() will be called no more than once per
     element. This is important because the cacheresult() will hash the key
     multiple times on a cache miss.

     .. note:: From cpython 3.7
     '''

     __slots__ = 'hashvalue'

     def __init__(self, tup, hash=hash):
         self[:] = tup
         self.hashvalue = hash(tup)

     def __hash__(self):
         return self.hashvalue

 def _make_key(args, kwds, typed,
              kwd_mark = (object(),),
              fasttypes = {int, str, frozenset, type(None)},
              tuple=tuple, type=type, len=len):
     '''
     Make a cache key from optionally typed positional and keyword arguments.
     The key is constructed in a way that is flat as possible rather than as
     a nested structure that would take more memory.  If there is only a single
     argument and its data type is known to cache its hash value, then that
     argument is returned without a wrapper. This saves space and improves
     lookup speed.

     .. note:: From cpython 3.7
     '''
     key = args
     if kwds:
         key += kwd_mark
         for item in kwds.items():
             key += item
     if typed:
         key += tuple(type(v) for v in args)
         if kwds:
             key += tuple(type(v) for v in kwds.values())
     elif len(key) == 1 and type(key[0]) in fasttypes:
         return key[0]
     return _HashedSeq(key)


 def cacheresult(function, typed=False):
     '''
     :param typed: If typed is True, arguments of different types will be
         cached separately. I.e. f(3.0) and f(3) will be treated as distinct
         calls with distinct results.

     .. note:: From cpython 3.7
     '''
     sentinel = object()          # unique object used to signal cache misses
     cache = {}
     def wrapper(*args, **kwds):
         # Simple caching without ordering or size limit
         key = _make_key(args, kwds, typed)
         result = cache.get(key, sentinel)
         if result is not sentinel:
             return result
         result = function(*args, **kwds)
         cache[key] = result
         return result
     return wrapper

 class OrderedSet(MutableSet):
     '''
     Maintain ordering of insertion in items to the set with quick iteration.

     http://code.activestate.com/recipes/576694/
     '''

     def __init__(self, iterable=None):
         self.end = end = []
         end += [None, end, end]         # sentinel node for doubly linked list
         self.map = {}                   # key --> [key, prev, next]
         if iterable is not None:
             self |= iterable

     def __len__(self):
         return len(self.map)

     def __contains__(self, key):
         return key in self.map

     def add(self, key):
         if key not in self.map:
             end = self.end
             curr = end[1]
             curr[2] = end[1] = self.map[key] = [key, curr, end]

     def update(self, keys):
         for key in keys:
             self.add(key)

     def discard(self, key):
         if key in self.map:
             key, prev, next = self.map.pop(key)
             prev[2] = next
             next[1] = prev

     def __iter__(self):
         end = self.end
         curr = end[2]
         while curr is not end:
             yield curr[0]
             curr = curr[2]

     def __reversed__(self):
         end = self.end
         curr = end[1]
         while curr is not end:
             yield curr[0]
             curr = curr[1]

     def pop(self, last=True):
         if not self:
             raise KeyError('set is empty')
         key = self.end[1][0] if last else self.end[2][0]
         self.discard(key)
         return key

     def __repr__(self):
         if not self:
             return '%s()' % (self.__class__.__name__,)
         return '%s(%r)' % (self.__class__.__name__, list(self))

     def __eq__(self, other):
         if isinstance(other, OrderedSet):
             return len(self) == len(other) and list(self) == list(other)
         return set(self) == set(other)

 def absdirpath(path):
     '''
     Return the directory component of the absolute path of the given path.
     '''
     return os.path.dirname(os.path.abspath(path))

 joinpath = os.path.join

 def mkdir_p(path):
     '''
     Same thing as mkdir -p

     https://stackoverflow.com/a/600612
     '''
     try:
         os.makedirs(path)
     except OSError as exc:  # Python >2.5
         if exc.errno == errno.EEXIST and os.path.isdir(path):
             pass
         else:
             raise


 class FrozenSetException(Exception):
     '''Signals one tried to set a value in a 'frozen' object.'''
     pass


 class AttrDict(object):
     '''Object which exposes its own internal dictionary through attributes.'''
     def __init__(self, dict_={}):
         self.update(dict_)

     def __getattr__(self, attr):
         dict_ = self.__dict__
         if attr in dict_:
             return dict_[attr]
         raise AttributeError('Could not find %s attribute' % attr)

     def __setattr__(self, attr, val):
         self.__dict__[attr] = val

     def __iter__(self):
         return iter(self.__dict__)

     def __getitem__(self, item):
         return self.__dict__[item]

     def update(self, items):
         self.__dict__.update(items)


 class FrozenAttrDict(AttrDict):
     '''An AttrDict whose attributes cannot be modified directly.'''
     __initialized = False
     def __init__(self, dict_={}):
         super(FrozenAttrDict, self).__init__(dict_)
         self.__initialized = True

     def __setattr__(self, attr, val):
         if self.__initialized:
             raise FrozenSetException(
                         'Cannot modify an attribute in a FozenAttrDict')
         else:
             super(FrozenAttrDict, self).__setattr__(attr, val)

     def update(self, items):
         if self.__initialized:
             raise FrozenSetException(
                         'Cannot modify an attribute in a FozenAttrDict')
         else:
             super(FrozenAttrDict, self).update(items)


 class InstanceCollector(object):
     '''
     A class used to simplify collecting of Classes.

     >> instance_list = collector.create()
     >> # Create a bunch of classes which call collector.collect(self)
     >> # instance_list contains all instances created since
     >> # collector.create was called
     >> collector.remove(instance_list)
     '''
     def __init__(self):
         self.collectors = []

     def create(self):
         collection = []
         self.collectors.append(collection)
         return collection

     def remove(self, collector):
         self.collectors.remove(collector)

     def collect(self, instance):
         for col in self.collectors:
             col.append(instance)


 def append_dictlist(dict_, key, value):
     '''
     Append the `value` to a list associated with `key` in `dict_`.
     If `key` doesn't exist, create a new list in the `dict_` with value in it.
     '''
     list_ = dict_.get(key, [])
     list_.append(value)
     dict_[key] = list_

 def _filter_file(fname, filters):
     with open(fname, "r") as file_:
         for line in file_:
             for regex in filters:
                 if re.match(regex, line):
                     break
             else:
                 yield line


 def _copy_file_keep_perms(source, target):
     '''Copy a file keeping the original permisions of the target.'''
     st = os.stat(target)
     shutil.copy2(source, target)
     os.chown(target, st[stat.ST_UID], st[stat.ST_GID])


 def _filter_file_inplace(fname, dir, filters):
     '''
     Filter the given file writing filtered lines out to a temporary file, then
     copy that tempfile back into the original file.
     '''
     (_, tfname) = tempfile.mkstemp(dir=dir, text=True)
     with open(tfname, 'w') as tempfile_:
         for line in _filter_file(fname, filters):
             tempfile_.write(line)

     # Now filtered output is into tempfile_
     _copy_file_keep_perms(tfname, fname)


 def diff_out_file(ref_file, out_file, logger, ignore_regexes=tuple()):
     '''Diff two files returning the diff as a string.'''

     if not os.path.exists(ref_file):
         raise OSError("%s doesn't exist in reference directory"\
                                      % ref_file)
     if not os.path.exists(out_file):
         raise OSError("%s doesn't exist in output directory" % out_file)

     _filter_file_inplace(out_file, os.path.dirname(out_file), ignore_regexes)
     _filter_file_inplace(ref_file, os.path.dirname(out_file), ignore_regexes)

     #try :
     (_, tfname) = tempfile.mkstemp(dir=os.path.dirname(out_file), text=True)
     with open(tfname, 'r+') as tempfile_:
         try:
             log_call(logger, ['diff', out_file, ref_file],
                 time=None, stdout=tempfile_)
         except OSError:
             # Likely signals that diff does not exist on this system. fallback
             # to difflib
             with open(out_file, 'r') as outf, open(ref_file, 'r') as reff:
                 diff = difflib.unified_diff(iter(reff.readline, ''),
                                             iter(outf.readline, ''),
                                             fromfile=ref_file,
                                             tofile=out_file)
                 return ''.join(diff)
         except subprocess.CalledProcessError:
             tempfile_.seek(0)
             return ''.join(tempfile_.readlines())
         else:
             return None

 class Timer():
     def __init__(self):
         self.restart()

     def restart(self):
         self._start = self.timestamp()
         self._stop = None

     def stop(self):
         self._stop = self.timestamp()
         return self._stop - self._start

     def runtime(self):
         return self._stop - self._start

     def active_time(self):
         return self.timestamp() - self._start

     @staticmethod
     def timestamp():
         return time.time()
	# Copyright (c) 2020 ARM Limited
	# All rights reserved
	#
	# The license below extends only to copyright in the software and shall
	# not be construed as granting a license to any other intellectual
	# property including but not limited to intellectual property relating
	# to a hardware implementation of the functionality of the software
	# licensed hereunder. You may use the software subject to the license
	# terms below provided that you ensure that this notice is replicated
	# unmodified and in its entirety in all distributions of the software,
	# modified or unmodified, in source code or in binary form.
	#
	# Copyright (c) 2017 Mark D. Hill and David A. Wood
	# All rights reserved.
	#
	# Redistribution and use in source and binary forms, with or without
	# modification, are permitted provided that the following conditions are
	# met: redistributions of source code must retain the above copyright
	# notice, this list of conditions and the following disclaimer;
	# redistributions in binary form must reproduce the above copyright
	# notice, this list of conditions and the following disclaimer in the
	# documentation and/or other materials provided with the distribution;
	# neither the name of the copyright holders nor the names of its
	# contributors may be used to endorse or promote products derived from
	# this software without specific prior written permission.
	#
	# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	#
	# Authors: Sean Wilson

	'''
	Helper classes for writing tests with this test library.
	'''
	from collections import namedtuple
	from collections.abc import MutableSet

	import difflib
	import errno
	import os
	import re
	import shutil
	import stat
	import subprocess
	import tempfile
	import threading
	import time

	class TimedWaitPID(object):
	"""Utility to monkey-patch os.waitpid() with os.wait4().

	This allows process usage time to be obtained directly from the OS
	when used with APIs, such as `subprocess`, which use os.waitpid to
	join child processes.

	The resource usage data from os.wait4() is stored in a functor and
	can be obtained using the get_time_for_pid() method.

	To avoid unbounded memory usage, the time record is deleted after
	it is read.

	"""
	TimeRecord = namedtuple( "_TimeRecord", "user_time system_time" )

	class Wrapper(object):
	def __init__(self):
	self._time_for_pid = {}
	self._access_lock = threading.Lock()

	def __call__(self, pid, options):
	pid, status, resource_usage = os.wait4(pid, options)
	with self._access_lock:
	self._time_for_pid[pid] = (
	TimedWaitPID.TimeRecord(
	resource_usage.ru_utime,
	resource_usage.ru_stime
	)
	)
	return (pid, status)

	def has_time_for_pid(self, pid):
	with self._access_lock:
	return pid in self._time_for_pid

	def get_time_for_pid(self, pid):
	with self._access_lock:
	if pid not in self._time_for_pid:
	raise Exception("No resource usage for pid {}".format(pid))
	time_for_pid = self._time_for_pid[pid]
	del self._time_for_pid[pid]
	return time_for_pid

	_wrapper = None
	_wrapper_lock = threading.Lock()
	_original_os_waitpid = None

	@staticmethod
	def install():
	with TimedWaitPID._wrapper_lock:
	if TimedWaitPID._wrapper is None:
	TimedWaitPID._wrapper = TimedWaitPID.Wrapper()
	if TimedWaitPID._original_os_waitpid is None :
	TimedWaitPID._original_os_waitpid = os.waitpid
	os.waitpid = TimedWaitPID._wrapper

	@staticmethod
	def restore():
	with TimedWaitPID._wrapper_lock:
	if TimedWaitPID._original_os_waitpid is not None :
	os.waitpid = TimedWaitPID._original_os_waitpid
	TimedWaitPID._original_os_waitpid = None

	@staticmethod
	def has_time_for_pid(pid):
	with TimedWaitPID._wrapper_lock:
	return TimedWaitPID._wrapper.has_time_for_pid(pid)

	@staticmethod
	def get_time_for_pid(pid):
	with TimedWaitPID._wrapper_lock:
	return TimedWaitPID._wrapper.get_time_for_pid(pid)

	# Patch os.waitpid()
	TimedWaitPID.install()

	#TODO Tear out duplicate logic from the sandbox IOManager
	def log_call(logger, command, time, popenargs, *kwargs):
	'''
	Calls the given process and automatically logs the command and output.

	If stdout or stderr are provided output will also be piped into those
	streams as well.

	:params stdout: Iterable of items to write to as we read from the
	subprocess.

	:params stderr: Iterable of items to write to as we read from the
	subprocess.
	'''
	if isinstance(command, str):
	cmdstr = command
	else:
	try:
	command = list(map(str, command))
	cmdstr = " ".join(command)
	except TypeError as e:
	logger.trace(
	"Argument <command> must be an iterable of string-convertible types"
	)
	raise e

	logger_callback = logger.trace
	logger.trace('Logging call to command: %s' % cmdstr)

	stdout_redirect = kwargs.get('stdout', tuple())
	stderr_redirect = kwargs.get('stderr', tuple())

	if hasattr(stdout_redirect, 'write'):
	stdout_redirect = (stdout_redirect,)
	if hasattr(stderr_redirect, 'write'):
	stderr_redirect = (stderr_redirect,)

	kwargs['stdout'] = subprocess.PIPE
	kwargs['stderr'] = subprocess.PIPE
	p = subprocess.Popen(command, popenargs, *kwargs)

	def log_output(log_callback, pipe, redirects=tuple()):
	# Read iteractively, don't allow input to fill the pipe.
	for line in iter(pipe.readline, b''):
	line = line.decode("utf-8")
	for r in redirects:
	r.write(line)
	log_callback(line.rstrip())

	stdout_thread = threading.Thread(target=log_output,
	args=(logger_callback, p.stdout, stdout_redirect))
	stdout_thread.setDaemon(True)
	stderr_thread = threading.Thread(target=log_output,
	args=(logger_callback, p.stderr, stderr_redirect))
	stderr_thread.setDaemon(True)

	stdout_thread.start()
	stderr_thread.start()

	retval = p.wait()
	stdout_thread.join()
	stderr_thread.join()

	if time is not None and TimedWaitPID.has_time_for_pid(p.pid):
	resource_usage = TimedWaitPID.get_time_for_pid(p.pid)
	time['user_time'] = resource_usage.user_time
	time['system_time'] = resource_usage.system_time

	# Return the return exit code of the process.
	if retval != 0:
	raise subprocess.CalledProcessError(retval, cmdstr)

	# lru_cache stuff (Introduced in python 3.2+)
	# Renamed and modified to cacheresult
	class _HashedSeq(list):
	'''
	This class guarantees that hash() will be called no more than once per
	element. This is important because the cacheresult() will hash the key
	multiple times on a cache miss.

	.. note:: From cpython 3.7
	'''

	__slots__ = 'hashvalue'

	def __init__(self, tup, hash=hash):
	self[:] = tup
	self.hashvalue = hash(tup)

	def __hash__(self):
	return self.hashvalue

	def _make_key(args, kwds, typed,
	kwd_mark = (object(),),
	fasttypes = {int, str, frozenset, type(None)},
	tuple=tuple, type=type, len=len):
	'''
	Make a cache key from optionally typed positional and keyword arguments.
	The key is constructed in a way that is flat as possible rather than as
	a nested structure that would take more memory. If there is only a single
	argument and its data type is known to cache its hash value, then that
	argument is returned without a wrapper. This saves space and improves
	lookup speed.

	.. note:: From cpython 3.7
	'''
	key = args
	if kwds:
	key += kwd_mark
	for item in kwds.items():
	key += item
	if typed:
	key += tuple(type(v) for v in args)
	if kwds:
	key += tuple(type(v) for v in kwds.values())
	elif len(key) == 1 and type(key[0]) in fasttypes:
	return key[0]
	return _HashedSeq(key)


	def cacheresult(function, typed=False):
	'''
	:param typed: If typed is True, arguments of different types will be
	cached separately. I.e. f(3.0) and f(3) will be treated as distinct
	calls with distinct results.

	.. note:: From cpython 3.7
	'''
	sentinel = object() # unique object used to signal cache misses
	cache = {}
	def wrapper(args, *kwds):
	# Simple caching without ordering or size limit
	key = _make_key(args, kwds, typed)
	result = cache.get(key, sentinel)
	if result is not sentinel:
	return result
	result = function(args, *kwds)
	cache[key] = result
	return result
	return wrapper

	class OrderedSet(MutableSet):
	'''
	Maintain ordering of insertion in items to the set with quick iteration.

	http://code.activestate.com/recipes/576694/
	'''

	def __init__(self, iterable=None):
	self.end = end = []
	end += [None, end, end] # sentinel node for doubly linked list
	self.map = {} # key --> [key, prev, next]
	if iterable is not None:
	self \|= iterable

	def __len__(self):
	return len(self.map)

	def __contains__(self, key):
	return key in self.map

	def add(self, key):
	if key not in self.map:
	end = self.end
	curr = end[1]
	curr[2] = end[1] = self.map[key] = [key, curr, end]

	def update(self, keys):
	for key in keys:
	self.add(key)

	def discard(self, key):
	if key in self.map:
	key, prev, next = self.map.pop(key)
	prev[2] = next
	next[1] = prev

	def __iter__(self):
	end = self.end
	curr = end[2]
	while curr is not end:
	yield curr[0]
	curr = curr[2]

	def __reversed__(self):
	end = self.end
	curr = end[1]
	while curr is not end:
	yield curr[0]
	curr = curr[1]

	def pop(self, last=True):
	if not self:
	raise KeyError('set is empty')
	key = self.end[1][0] if last else self.end[2][0]
	self.discard(key)
	return key

	def __repr__(self):
	if not self:
	return '%s()' % (self.__class__.__name__,)
	return '%s(%r)' % (self.__class__.__name__, list(self))

	def __eq__(self, other):
	if isinstance(other, OrderedSet):
	return len(self) == len(other) and list(self) == list(other)
	return set(self) == set(other)

	def absdirpath(path):
	'''
	Return the directory component of the absolute path of the given path.
	'''
	return os.path.dirname(os.path.abspath(path))

	joinpath = os.path.join

	def mkdir_p(path):
	'''
	Same thing as mkdir -p

	https://stackoverflow.com/a/600612
	'''
	try:
	os.makedirs(path)
	except OSError as exc: # Python >2.5
	if exc.errno == errno.EEXIST and os.path.isdir(path):
	pass
	else:
	raise


	class FrozenSetException(Exception):
	'''Signals one tried to set a value in a 'frozen' object.'''
	pass


	class AttrDict(object):
	'''Object which exposes its own internal dictionary through attributes.'''
	def __init__(self, dict_={}):
	self.update(dict_)

	def __getattr__(self, attr):
	dict_ = self.__dict__
	if attr in dict_:
	return dict_[attr]
	raise AttributeError('Could not find %s attribute' % attr)

	def __setattr__(self, attr, val):
	self.__dict__[attr] = val

	def __iter__(self):
	return iter(self.__dict__)

	def __getitem__(self, item):
	return self.__dict__[item]

	def update(self, items):
	self.__dict__.update(items)


	class FrozenAttrDict(AttrDict):
	'''An AttrDict whose attributes cannot be modified directly.'''
	__initialized = False
	def __init__(self, dict_={}):
	super(FrozenAttrDict, self).__init__(dict_)
	self.__initialized = True

	def __setattr__(self, attr, val):
	if self.__initialized:
	raise FrozenSetException(
	'Cannot modify an attribute in a FozenAttrDict')
	else:
	super(FrozenAttrDict, self).__setattr__(attr, val)

	def update(self, items):
	if self.__initialized:
	raise FrozenSetException(
	'Cannot modify an attribute in a FozenAttrDict')
	else:
	super(FrozenAttrDict, self).update(items)


	class InstanceCollector(object):
	'''
	A class used to simplify collecting of Classes.

	>> instance_list = collector.create()
	>> # Create a bunch of classes which call collector.collect(self)
	>> # instance_list contains all instances created since
	>> # collector.create was called
	>> collector.remove(instance_list)
	'''
	def __init__(self):
	self.collectors = []

	def create(self):
	collection = []
	self.collectors.append(collection)
	return collection

	def remove(self, collector):
	self.collectors.remove(collector)

	def collect(self, instance):
	for col in self.collectors:
	col.append(instance)


	def append_dictlist(dict_, key, value):
	'''
	Append the `value` to a list associated with `key` in `dict_`.
	If `key` doesn't exist, create a new list in the `dict_` with value in it.
	'''
	list_ = dict_.get(key, [])
	list_.append(value)
	dict_[key] = list_

	def _filter_file(fname, filters):
	with open(fname, "r") as file_:
	for line in file_:
	for regex in filters:
	if re.match(regex, line):
	break
	else:
	yield line


	def _copy_file_keep_perms(source, target):
	'''Copy a file keeping the original permisions of the target.'''
	st = os.stat(target)
	shutil.copy2(source, target)
	os.chown(target, st[stat.ST_UID], st[stat.ST_GID])


	def _filter_file_inplace(fname, dir, filters):
	'''
	Filter the given file writing filtered lines out to a temporary file, then
	copy that tempfile back into the original file.
	'''
	(_, tfname) = tempfile.mkstemp(dir=dir, text=True)
	with open(tfname, 'w') as tempfile_:
	for line in _filter_file(fname, filters):
	tempfile_.write(line)

	# Now filtered output is into tempfile_
	_copy_file_keep_perms(tfname, fname)


	def diff_out_file(ref_file, out_file, logger, ignore_regexes=tuple()):
	'''Diff two files returning the diff as a string.'''

	if not os.path.exists(ref_file):
	raise OSError("%s doesn't exist in reference directory"\
	% ref_file)
	if not os.path.exists(out_file):
	raise OSError("%s doesn't exist in output directory" % out_file)

	_filter_file_inplace(out_file, os.path.dirname(out_file), ignore_regexes)
	_filter_file_inplace(ref_file, os.path.dirname(out_file), ignore_regexes)

	#try :
	(_, tfname) = tempfile.mkstemp(dir=os.path.dirname(out_file), text=True)
	with open(tfname, 'r+') as tempfile_:
	try:
	log_call(logger, ['diff', out_file, ref_file],
	time=None, stdout=tempfile_)
	except OSError:
	# Likely signals that diff does not exist on this system. fallback
	# to difflib
	with open(out_file, 'r') as outf, open(ref_file, 'r') as reff:
	diff = difflib.unified_diff(iter(reff.readline, ''),
	iter(outf.readline, ''),
	fromfile=ref_file,
	tofile=out_file)
	return ''.join(diff)
	except subprocess.CalledProcessError:
	tempfile_.seek(0)
	return ''.join(tempfile_.readlines())
	else:
	return None

	class Timer():
	def __init__(self):
	self.restart()

	def restart(self):
	self._start = self.timestamp()
	self._stop = None

	def stop(self):
	self._stop = self.timestamp()
	return self._stop - self._start

	def runtime(self):
	return self._stop - self._start

	def active_time(self):
	return self.timestamp() - self._start

	@staticmethod
	def timestamp():
	return time.time()