""" python version compatibility code """ from __future__ import absolute_import, division, print_function import codecs import functools import inspect import re import sys import py import _pytest from _pytest.outcomes import TEST_OUTCOME try: import enum except ImportError: # pragma: no cover # Only available in Python 3.4+ or as a backport enum = None _PY3 = sys.version_info > (3, 0) _PY2 = not _PY3 if _PY3: from inspect import signature, Parameter as Parameter else: from funcsigs import signature, Parameter as Parameter NoneType = type(None) NOTSET = object() PY35 = sys.version_info[:2] >= (3, 5) PY36 = sys.version_info[:2] >= (3, 6) MODULE_NOT_FOUND_ERROR = 'ModuleNotFoundError' if PY36 else 'ImportError' if _PY3: from collections.abc import MutableMapping as MappingMixin # noqa from collections.abc import Sequence # noqa else: # those raise DeprecationWarnings in Python >=3.7 from collections import MutableMapping as MappingMixin # noqa from collections import Sequence # noqa def _format_args(func): return str(signature(func)) isfunction = inspect.isfunction isclass = inspect.isclass # used to work around a python2 exception info leak exc_clear = getattr(sys, 'exc_clear', lambda: None) # The type of re.compile objects is not exposed in Python. REGEX_TYPE = type(re.compile('')) def is_generator(func): genfunc = inspect.isgeneratorfunction(func) return genfunc and not iscoroutinefunction(func) def iscoroutinefunction(func): """Return True if func is a decorated coroutine function. Note: copied and modified from Python 3.5's builtin couroutines.py to avoid import asyncio directly, which in turns also initializes the "logging" module as side-effect (see issue #8). """ return (getattr(func, '_is_coroutine', False) or (hasattr(inspect, 'iscoroutinefunction') and inspect.iscoroutinefunction(func))) def getlocation(function, curdir): fn = py.path.local(inspect.getfile(function)) lineno = py.builtin._getcode(function).co_firstlineno if fn.relto(curdir): fn = fn.relto(curdir) return "%s:%d" % (fn, lineno + 1) def num_mock_patch_args(function): """ return number of arguments used up by mock arguments (if any) """ patchings = getattr(function, "patchings", None) if not patchings: return 0 mock_modules = [sys.modules.get("mock"), sys.modules.get("unittest.mock")] if any(mock_modules): sentinels = [m.DEFAULT for m in mock_modules if m is not None] return len([p for p in patchings if not p.attribute_name and p.new in sentinels]) return len(patchings) def getfuncargnames(function, is_method=False, cls=None): """Returns the names of a function's mandatory arguments. This should return the names of all function arguments that: * Aren't bound to an instance or type as in instance or class methods. * Don't have default values. * Aren't bound with functools.partial. * Aren't replaced with mocks. The is_method and cls arguments indicate that the function should be treated as a bound method even though it's not unless, only in the case of cls, the function is a static method. @RonnyPfannschmidt: This function should be refactored when we revisit fixtures. The fixture mechanism should ask the node for the fixture names, and not try to obtain directly from the function object well after collection has occurred. """ # The parameters attribute of a Signature object contains an # ordered mapping of parameter names to Parameter instances. This # creates a tuple of the names of the parameters that don't have # defaults. arg_names = tuple(p.name for p in signature(function).parameters.values() if (p.kind is Parameter.POSITIONAL_OR_KEYWORD or p.kind is Parameter.KEYWORD_ONLY) and p.default is Parameter.empty) # If this function should be treated as a bound method even though # it's passed as an unbound method or function, remove the first # parameter name. if (is_method or (cls and not isinstance(cls.__dict__.get(function.__name__, None), staticmethod))): arg_names = arg_names[1:] # Remove any names that will be replaced with mocks. if hasattr(function, "__wrapped__"): arg_names = arg_names[num_mock_patch_args(function):] return arg_names if _PY3: STRING_TYPES = bytes, str UNICODE_TYPES = str, if PY35: def _bytes_to_ascii(val): return val.decode('ascii', 'backslashreplace') else: def _bytes_to_ascii(val): if val: # source: http://goo.gl/bGsnwC encoded_bytes, _ = codecs.escape_encode(val) return encoded_bytes.decode('ascii') else: # empty bytes crashes codecs.escape_encode (#1087) return '' def ascii_escaped(val): """If val is pure ascii, returns it as a str(). Otherwise, escapes bytes objects into a sequence of escaped bytes: b'\xc3\xb4\xc5\xd6' -> u'\\xc3\\xb4\\xc5\\xd6' and escapes unicode objects into a sequence of escaped unicode ids, e.g.: '4\\nV\\U00043efa\\x0eMXWB\\x1e\\u3028\\u15fd\\xcd\\U0007d944' note: the obvious "v.decode('unicode-escape')" will return valid utf-8 unicode if it finds them in bytes, but we want to return escaped bytes for any byte, even if they match a utf-8 string. """ if isinstance(val, bytes): return _bytes_to_ascii(val) else: return val.encode('unicode_escape').decode('ascii') else: STRING_TYPES = bytes, str, unicode UNICODE_TYPES = unicode, def ascii_escaped(val): """In py2 bytes and str are the same type, so return if it's a bytes object, return it unchanged if it is a full ascii string, otherwise escape it into its binary form. If it's a unicode string, change the unicode characters into unicode escapes. """ if isinstance(val, bytes): try: return val.encode('ascii') except UnicodeDecodeError: return val.encode('string-escape') else: return val.encode('unicode-escape') def get_real_func(obj): """ gets the real function object of the (possibly) wrapped object by functools.wraps or functools.partial. """ start_obj = obj for i in range(100): new_obj = getattr(obj, '__wrapped__', None) if new_obj is None: break obj = new_obj else: raise ValueError( ("could not find real function of {start}" "\nstopped at {current}").format( start=py.io.saferepr(start_obj), current=py.io.saferepr(obj))) if isinstance(obj, functools.partial): obj = obj.func return obj def getfslineno(obj): # xxx let decorators etc specify a sane ordering obj = get_real_func(obj) if hasattr(obj, 'place_as'): obj = obj.place_as fslineno = _pytest._code.getfslineno(obj) assert isinstance(fslineno[1], int), obj return fslineno def getimfunc(func): try: return func.__func__ except AttributeError: return func def safe_getattr(object, name, default): """ Like getattr but return default upon any Exception or any OutcomeException. Attribute access can potentially fail for 'evil' Python objects. See issue #214. It catches OutcomeException because of #2490 (issue #580), new outcomes are derived from BaseException instead of Exception (for more details check #2707) """ try: return getattr(object, name, default) except TEST_OUTCOME: return default def _is_unittest_unexpected_success_a_failure(): """Return if the test suite should fail if a @expectedFailure unittest test PASSES. From https://docs.python.org/3/library/unittest.html?highlight=unittest#unittest.TestResult.wasSuccessful: Changed in version 3.4: Returns False if there were any unexpectedSuccesses from tests marked with the expectedFailure() decorator. """ return sys.version_info >= (3, 4) if _PY3: def safe_str(v): """returns v as string""" return str(v) else: def safe_str(v): """returns v as string, converting to ascii if necessary""" try: return str(v) except UnicodeError: if not isinstance(v, unicode): v = unicode(v) errors = 'replace' return v.encode('utf-8', errors) COLLECT_FAKEMODULE_ATTRIBUTES = ( 'Collector', 'Module', 'Generator', 'Function', 'Instance', 'Session', 'Item', 'Class', 'File', '_fillfuncargs', ) def _setup_collect_fakemodule(): from types import ModuleType import pytest pytest.collect = ModuleType('pytest.collect') pytest.collect.__all__ = [] # used for setns for attr in COLLECT_FAKEMODULE_ATTRIBUTES: setattr(pytest.collect, attr, getattr(pytest, attr)) if _PY2: # Without this the test_dupfile_on_textio will fail, otherwise CaptureIO could directly inherit from StringIO. from py.io import TextIO class CaptureIO(TextIO): @property def encoding(self): return getattr(self, '_encoding', 'UTF-8') else: import io class CaptureIO(io.TextIOWrapper): def __init__(self): super(CaptureIO, self).__init__( io.BytesIO(), encoding='UTF-8', newline='', write_through=True, ) def getvalue(self): return self.buffer.getvalue().decode('UTF-8') class FuncargnamesCompatAttr(object): """ helper class so that Metafunc, Function and FixtureRequest don't need to each define the "funcargnames" compatibility attribute. """ @property def funcargnames(self): """ alias attribute for ``fixturenames`` for pre-2.3 compatibility""" return self.fixturenames