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"""Python test discovery, setup and run of test functions.""" import dataclasses import enum import fnmatch import inspect import itertools import os import sys import types import warnings from collections import Counter from collections import defaultdict from functools import partial from pathlib import Path from typing import Any from typing import Callable from typing import Dict from typing import Generator from typing import Iterable from typing import Iterator from typing import List from typing import Mapping from typing import Optional from typing import Pattern from typing import Sequence from typing import Set from typing import Tuple from typing import TYPE_CHECKING from typing import Union import _pytest from _pytest import fixtures from _pytest import nodes from _pytest._code import filter_traceback from _pytest._code import getfslineno from _pytest._code.code import ExceptionInfo from _pytest._code.code import TerminalRepr from _pytest._code.code import Traceback from _pytest._io import TerminalWriter from _pytest._io.saferepr import saferepr from _pytest.compat import ascii_escaped from _pytest.compat import assert_never from _pytest.compat import final from _pytest.compat import get_default_arg_names from _pytest.compat import get_real_func from _pytest.compat import getimfunc from _pytest.compat import getlocation from _pytest.compat import is_async_function from _pytest.compat import is_generator from _pytest.compat import LEGACY_PATH from _pytest.compat import NOTSET from _pytest.compat import safe_getattr from _pytest.compat import safe_isclass from _pytest.compat import STRING_TYPES from _pytest.config import Config from _pytest.config import ExitCode from _pytest.config import hookimpl from _pytest.config.argparsing import Parser from _pytest.deprecated import check_ispytest from _pytest.deprecated import INSTANCE_COLLECTOR from _pytest.deprecated import NOSE_SUPPORT_METHOD from _pytest.fixtures import FuncFixtureInfo from _pytest.main import Session from _pytest.mark import MARK_GEN from _pytest.mark import ParameterSet from _pytest.mark.structures import get_unpacked_marks from _pytest.mark.structures import Mark from _pytest.mark.structures import MarkDecorator from _pytest.mark.structures import normalize_mark_list from _pytest.outcomes import fail from _pytest.outcomes import skip from _pytest.pathlib import bestrelpath from _pytest.pathlib import fnmatch_ex from _pytest.pathlib import import_path from _pytest.pathlib import ImportPathMismatchError from _pytest.pathlib import parts from _pytest.pathlib import visit from _pytest.scope import Scope from _pytest.warning_types import PytestCollectionWarning from _pytest.warning_types import PytestReturnNotNoneWarning from _pytest.warning_types import PytestUnhandledCoroutineWarning if TYPE_CHECKING: from typing_extensions import Literal from _pytest.scope import _ScopeName _PYTEST_DIR = Path(_pytest.__file__).parent def pytest_addoption(parser: Parser) -> None: group = parser.getgroup("general") group.addoption( "--fixtures", "--funcargs", action="store_true", dest="showfixtures", default=False, help="Show available fixtures, sorted by plugin appearance " "(fixtures with leading '_' are only shown with '-v')", ) group.addoption( "--fixtures-per-test", action="store_true", dest="show_fixtures_per_test", default=False, help="Show fixtures per test", ) parser.addini( "python_files", type="args", # NOTE: default is also used in AssertionRewritingHook. default=["test_*.py", "*_test.py"], help="Glob-style file patterns for Python test module discovery", ) parser.addini( "python_classes", type="args", default=["Test"], help="Prefixes or glob names for Python test class discovery", ) parser.addini( "python_functions", type="args", default=["test"], help="Prefixes or glob names for Python test function and method discovery", ) parser.addini( "disable_test_id_escaping_and_forfeit_all_rights_to_community_support", type="bool", default=False, help="Disable string escape non-ASCII characters, might cause unwanted " "side effects(use at your own risk)", ) def pytest_cmdline_main(config: Config) -> Optional[Union[int, ExitCode]]: if config.option.showfixtures: showfixtures(config) return 0 if config.option.show_fixtures_per_test: show_fixtures_per_test(config) return 0 return None def pytest_generate_tests(metafunc: "Metafunc") -> None: for marker in metafunc.definition.iter_markers(name="parametrize"): metafunc.parametrize(*marker.args, **marker.kwargs, _param_mark=marker) def pytest_configure(config: Config) -> None: config.addinivalue_line( "markers", "parametrize(argnames, argvalues): call a test function multiple " "times passing in different arguments in turn. argvalues generally " "needs to be a list of values if argnames specifies only one name " "or a list of tuples of values if argnames specifies multiple names. " "Example: @parametrize('arg1', [1,2]) would lead to two calls of the " "decorated test function, one with arg1=1 and another with arg1=2." "see https://docs.pytest.org/en/stable/how-to/parametrize.html for more info " "and examples.", ) config.addinivalue_line( "markers", "usefixtures(fixturename1, fixturename2, ...): mark tests as needing " "all of the specified fixtures. see " "https://docs.pytest.org/en/stable/explanation/fixtures.html#usefixtures ", ) def async_warn_and_skip(nodeid: str) -> None: msg = "async def functions are not natively supported and have been skipped.\n" msg += ( "You need to install a suitable plugin for your async framework, for example:\n" ) msg += " - anyio\n" msg += " - pytest-asyncio\n" msg += " - pytest-tornasync\n" msg += " - pytest-trio\n" msg += " - pytest-twisted" warnings.warn(PytestUnhandledCoroutineWarning(msg.format(nodeid))) skip(reason="async def function and no async plugin installed (see warnings)") @hookimpl(trylast=True) def pytest_pyfunc_call(pyfuncitem: "Function") -> Optional[object]: testfunction = pyfuncitem.obj if is_async_function(testfunction): async_warn_and_skip(pyfuncitem.nodeid) funcargs = pyfuncitem.funcargs testargs = {arg: funcargs[arg] for arg in pyfuncitem._fixtureinfo.argnames} result = testfunction(**testargs) if hasattr(result, "__await__") or hasattr(result, "__aiter__"): async_warn_and_skip(pyfuncitem.nodeid) elif result is not None: warnings.warn( PytestReturnNotNoneWarning( f"Expected None, but {pyfuncitem.nodeid} returned {result!r}, which will be an error in a " "future version of pytest. Did you mean to use `assert` instead of `return`?" ) ) return True def pytest_collect_file(file_path: Path, parent: nodes.Collector) -> Optional["Module"]: if file_path.suffix == ".py": if not parent.session.isinitpath(file_path): if not path_matches_patterns( file_path, parent.config.getini("python_files") + ["__init__.py"] ): return None ihook = parent.session.gethookproxy(file_path) module: Module = ihook.pytest_pycollect_makemodule( module_path=file_path, parent=parent ) return module return None def path_matches_patterns(path: Path, patterns: Iterable[str]) -> bool: """Return whether path matches any of the patterns in the list of globs given.""" return any(fnmatch_ex(pattern, path) for pattern in patterns) def pytest_pycollect_makemodule(module_path: Path, parent) -> "Module": if module_path.name == "__init__.py": pkg: Package = Package.from_parent(parent, path=module_path) return pkg mod: Module = Module.from_parent(parent, path=module_path) return mod @hookimpl(trylast=True) def pytest_pycollect_makeitem( collector: Union["Module", "Class"], name: str, obj: object ) -> Union[None, nodes.Item, nodes.Collector, List[Union[nodes.Item, nodes.Collector]]]: assert isinstance(collector, (Class, Module)), type(collector) # Nothing was collected elsewhere, let's do it here. if safe_isclass(obj): if collector.istestclass(obj, name): klass: Class = Class.from_parent(collector, name=name, obj=obj) return klass elif collector.istestfunction(obj, name): # mock seems to store unbound methods (issue473), normalize it. obj = getattr(obj, "__func__", obj) # We need to try and unwrap the function if it's a functools.partial # or a functools.wrapped. # We mustn't if it's been wrapped with mock.patch (python 2 only). if not (inspect.isfunction(obj) or inspect.isfunction(get_real_func(obj))): filename, lineno = getfslineno(obj) warnings.warn_explicit( message=PytestCollectionWarning( "cannot collect %r because it is not a function." % name ), category=None, filename=str(filename), lineno=lineno + 1, ) elif getattr(obj, "__test__", True): if is_generator(obj): res: Function = Function.from_parent(collector, name=name) reason = "yield tests were removed in pytest 4.0 - {name} will be ignored".format( name=name ) res.add_marker(MARK_GEN.xfail(run=False, reason=reason)) res.warn(PytestCollectionWarning(reason)) return res else: return list(collector._genfunctions(name, obj)) return None class PyobjMixin(nodes.Node): """this mix-in inherits from Node to carry over the typing information as its intended to always mix in before a node its position in the mro is unaffected""" _ALLOW_MARKERS = True @property def module(self): """Python module object this node was collected from (can be None).""" node = self.getparent(Module) return node.obj if node is not None else None @property def cls(self): """Python class object this node was collected from (can be None).""" node = self.getparent(Class) return node.obj if node is not None else None @property def instance(self): """Python instance object the function is bound to. Returns None if not a test method, e.g. for a standalone test function, a staticmethod, a class or a module. """ node = self.getparent(Function) return getattr(node.obj, "__self__", None) if node is not None else None @property def obj(self): """Underlying Python object.""" obj = getattr(self, "_obj", None) if obj is None: self._obj = obj = self._getobj() # XXX evil hack # used to avoid Function marker duplication if self._ALLOW_MARKERS: self.own_markers.extend(get_unpacked_marks(self.obj)) # This assumes that `obj` is called before there is a chance # to add custom keys to `self.keywords`, so no fear of overriding. self.keywords.update((mark.name, mark) for mark in self.own_markers) return obj @obj.setter def obj(self, value): self._obj = value def _getobj(self): """Get the underlying Python object. May be overwritten by subclasses.""" # TODO: Improve the type of `parent` such that assert/ignore aren't needed. assert self.parent is not None obj = self.parent.obj # type: ignore[attr-defined] return getattr(obj, self.name) def getmodpath(self, stopatmodule: bool = True, includemodule: bool = False) -> str: """Return Python path relative to the containing module.""" chain = self.listchain() chain.reverse() parts = [] for node in chain: name = node.name if isinstance(node, Module): name = os.path.splitext(name)[0] if stopatmodule: if includemodule: parts.append(name) break parts.append(name) parts.reverse() return ".".join(parts) def reportinfo(self) -> Tuple[Union["os.PathLike[str]", str], Optional[int], str]: # XXX caching? obj = self.obj compat_co_firstlineno = getattr(obj, "compat_co_firstlineno", None) if isinstance(compat_co_firstlineno, int): # nose compatibility file_path = sys.modules[obj.__module__].__file__ assert file_path is not None if file_path.endswith(".pyc"): file_path = file_path[:-1] path: Union["os.PathLike[str]", str] = file_path lineno = compat_co_firstlineno else: path, lineno = getfslineno(obj) modpath = self.getmodpath() assert isinstance(lineno, int) return path, lineno, modpath # As an optimization, these builtin attribute names are pre-ignored when # iterating over an object during collection -- the pytest_pycollect_makeitem # hook is not called for them. # fmt: off class _EmptyClass: pass # noqa: E701 IGNORED_ATTRIBUTES = frozenset.union( # noqa: E305 frozenset(), # Module. dir(types.ModuleType("empty_module")), # Some extra module attributes the above doesn't catch. {"__builtins__", "__file__", "__cached__"}, # Class. dir(_EmptyClass), # Instance. dir(_EmptyClass()), ) del _EmptyClass # fmt: on class PyCollector(PyobjMixin, nodes.Collector): def funcnamefilter(self, name: str) -> bool: return self._matches_prefix_or_glob_option("python_functions", name) def isnosetest(self, obj: object) -> bool: """Look for the __test__ attribute, which is applied by the @nose.tools.istest decorator. """ # We explicitly check for "is True" here to not mistakenly treat # classes with a custom __getattr__ returning something truthy (like a # function) as test classes. return safe_getattr(obj, "__test__", False) is True def classnamefilter(self, name: str) -> bool: return self._matches_prefix_or_glob_option("python_classes", name) def istestfunction(self, obj: object, name: str) -> bool: if self.funcnamefilter(name) or self.isnosetest(obj): if isinstance(obj, (staticmethod, classmethod)): # staticmethods and classmethods need to be unwrapped. obj = safe_getattr(obj, "__func__", False) return callable(obj) and fixtures.getfixturemarker(obj) is None else: return False def istestclass(self, obj: object, name: str) -> bool: return self.classnamefilter(name) or self.isnosetest(obj) def _matches_prefix_or_glob_option(self, option_name: str, name: str) -> bool: """Check if the given name matches the prefix or glob-pattern defined in ini configuration.""" for option in self.config.getini(option_name): if name.startswith(option): return True # Check that name looks like a glob-string before calling fnmatch # because this is called for every name in each collected module, # and fnmatch is somewhat expensive to call. elif ("*" in option or "?" in option or "[" in option) and fnmatch.fnmatch( name, option ): return True return False def collect(self) -> Iterable[Union[nodes.Item, nodes.Collector]]: if not getattr(self.obj, "__test__", True): return [] # Avoid random getattrs and peek in the __dict__ instead. dicts = [getattr(self.obj, "__dict__", {})] if isinstance(self.obj, type): for basecls in self.obj.__mro__: dicts.append(basecls.__dict__) # In each class, nodes should be definition ordered. # __dict__ is definition ordered. seen: Set[str] = set() dict_values: List[List[Union[nodes.Item, nodes.Collector]]] = [] ihook = self.ihook for dic in dicts: values: List[Union[nodes.Item, nodes.Collector]] = [] # Note: seems like the dict can change during iteration - # be careful not to remove the list() without consideration. for name, obj in list(dic.items()): if name in IGNORED_ATTRIBUTES: continue if name in seen: continue seen.add(name) res = ihook.pytest_pycollect_makeitem( collector=self, name=name, obj=obj ) if res is None: continue elif isinstance(res, list): values.extend(res) else: values.append(res) dict_values.append(values) # Between classes in the class hierarchy, reverse-MRO order -- nodes # inherited from base classes should come before subclasses. result = [] for values in reversed(dict_values): result.extend(values) return result def _genfunctions(self, name: str, funcobj) -> Iterator["Function"]: modulecol = self.getparent(Module) assert modulecol is not None module = modulecol.obj clscol = self.getparent(Class) cls = clscol and clscol.obj or None definition = FunctionDefinition.from_parent(self, name=name, callobj=funcobj) fixtureinfo = definition._fixtureinfo # pytest_generate_tests impls call metafunc.parametrize() which fills # metafunc._calls, the outcome of the hook. metafunc = Metafunc( definition=definition, fixtureinfo=fixtureinfo, config=self.config, cls=cls, module=module, _ispytest=True, ) methods = [] if hasattr(module, "pytest_generate_tests"): methods.append(module.pytest_generate_tests) if cls is not None and hasattr(cls, "pytest_generate_tests"): methods.append(cls().pytest_generate_tests) self.ihook.pytest_generate_tests.call_extra(methods, dict(metafunc=metafunc)) if not metafunc._calls: yield Function.from_parent(self, name=name, fixtureinfo=fixtureinfo) else: # Add funcargs() as fixturedefs to fixtureinfo.arg2fixturedefs. fm = self.session._fixturemanager fixtures.add_funcarg_pseudo_fixture_def(self, metafunc, fm) # Add_funcarg_pseudo_fixture_def may have shadowed some fixtures # with direct parametrization, so make sure we update what the # function really needs. fixtureinfo.prune_dependency_tree() for callspec in metafunc._calls: subname = f"{name}[{callspec.id}]" yield Function.from_parent( self, name=subname, callspec=callspec, fixtureinfo=fixtureinfo, keywords={callspec.id: True}, originalname=name, ) class Module(nodes.File, PyCollector): """Collector for test classes and functions.""" def _getobj(self): return self._importtestmodule() def collect(self) -> Iterable[Union[nodes.Item, nodes.Collector]]: self._inject_setup_module_fixture() self._inject_setup_function_fixture() self.session._fixturemanager.parsefactories(self) return super().collect() def _inject_setup_module_fixture(self) -> None: """Inject a hidden autouse, module scoped fixture into the collected module object that invokes setUpModule/tearDownModule if either or both are available. Using a fixture to invoke this methods ensures we play nicely and unsurprisingly with other fixtures (#517). """ has_nose = self.config.pluginmanager.has_plugin("nose") setup_module = _get_first_non_fixture_func( self.obj, ("setUpModule", "setup_module") ) if setup_module is None and has_nose: # The name "setup" is too common - only treat as fixture if callable. setup_module = _get_first_non_fixture_func(self.obj, ("setup",)) if not callable(setup_module): setup_module = None teardown_module = _get_first_non_fixture_func( self.obj, ("tearDownModule", "teardown_module") ) if teardown_module is None and has_nose: teardown_module = _get_first_non_fixture_func(self.obj, ("teardown",)) # Same as "setup" above - only treat as fixture if callable. if not callable(teardown_module): teardown_module = None if setup_module is None and teardown_module is None: return @fixtures.fixture( autouse=True, scope="module", # Use a unique name to speed up lookup. name=f"_xunit_setup_module_fixture_{self.obj.__name__}", ) def xunit_setup_module_fixture(request) -> Generator[None, None, None]: if setup_module is not None: _call_with_optional_argument(setup_module, request.module) yield if teardown_module is not None: _call_with_optional_argument(teardown_module, request.module) self.obj.__pytest_setup_module = xunit_setup_module_fixture def _inject_setup_function_fixture(self) -> None: """Inject a hidden autouse, function scoped fixture into the collected module object that invokes setup_function/teardown_function if either or both are available. Using a fixture to invoke this methods ensures we play nicely and unsurprisingly with other fixtures (#517). """ setup_function = _get_first_non_fixture_func(self.obj, ("setup_function",)) teardown_function = _get_first_non_fixture_func( self.obj, ("teardown_function",) ) if setup_function is None and teardown_function is None: return @fixtures.fixture( autouse=True, scope="function", # Use a unique name to speed up lookup. name=f"_xunit_setup_function_fixture_{self.obj.__name__}", ) def xunit_setup_function_fixture(request) -> Generator[None, None, None]: if request.instance is not None: # in this case we are bound to an instance, so we need to let # setup_method handle this yield return if setup_function is not None: _call_with_optional_argument(setup_function, request.function) yield if teardown_function is not None: _call_with_optional_argument(teardown_function, request.function) self.obj.__pytest_setup_function = xunit_setup_function_fixture def _importtestmodule(self): # We assume we are only called once per module. importmode = self.config.getoption("--import-mode") try: mod = import_path(self.path, mode=importmode, root=self.config.rootpath) except SyntaxError as e: raise self.CollectError( ExceptionInfo.from_current().getrepr(style="short") ) from e except ImportPathMismatchError as e: raise self.CollectError( "import file mismatch:\n" "imported module %r has this __file__ attribute:\n" " %s\n" "which is not the same as the test file we want to collect:\n" " %s\n" "HINT: remove __pycache__ / .pyc files and/or use a " "unique basename for your test file modules" % e.args ) from e except ImportError as e: exc_info = ExceptionInfo.from_current() if self.config.getoption("verbose") < 2: exc_info.traceback = exc_info.traceback.filter(filter_traceback) exc_repr = ( exc_info.getrepr(style="short") if exc_info.traceback else exc_info.exconly() ) formatted_tb = str(exc_repr) raise self.CollectError( "ImportError while importing test module '{path}'.\n" "Hint: make sure your test modules/packages have valid Python names.\n" "Traceback:\n" "{traceback}".format(path=self.path, traceback=formatted_tb) ) from e except skip.Exception as e: if e.allow_module_level: raise raise self.CollectError( "Using pytest.skip outside of a test will skip the entire module. " "If that's your intention, pass `allow_module_level=True`. " "If you want to skip a specific test or an entire class, " "use the @pytest.mark.skip or @pytest.mark.skipif decorators." ) from e self.config.pluginmanager.consider_module(mod) return mod class Package(Module): def __init__( self, fspath: Optional[LEGACY_PATH], parent: nodes.Collector, # NOTE: following args are unused: config=None, session=None, nodeid=None, path: Optional[Path] = None, ) -> None: # NOTE: Could be just the following, but kept as-is for compat. # nodes.FSCollector.__init__(self, fspath, parent=parent) session = parent.session nodes.FSCollector.__init__( self, fspath=fspath, path=path, parent=parent, config=config, session=session, nodeid=nodeid, ) self.name = self.path.parent.name def setup(self) -> None: # Not using fixtures to call setup_module here because autouse fixtures # from packages are not called automatically (#4085). setup_module = _get_first_non_fixture_func( self.obj, ("setUpModule", "setup_module") ) if setup_module is not None: _call_with_optional_argument(setup_module, self.obj) teardown_module = _get_first_non_fixture_func( self.obj, ("tearDownModule", "teardown_module") ) if teardown_module is not None: func = partial(_call_with_optional_argument, teardown_module, self.obj) self.addfinalizer(func) def _recurse(self, direntry: "os.DirEntry[str]") -> bool: if direntry.name == "__pycache__": return False fspath = Path(direntry.path) ihook = self.session.gethookproxy(fspath.parent) if ihook.pytest_ignore_collect(collection_path=fspath, config=self.config): return False return True def _collectfile( self, fspath: Path, handle_dupes: bool = True ) -> Sequence[nodes.Collector]: assert ( fspath.is_file() ), "{!r} is not a file (isdir={!r}, exists={!r}, islink={!r})".format( fspath, fspath.is_dir(), fspath.exists(), fspath.is_symlink() ) ihook = self.session.gethookproxy(fspath) if not self.session.isinitpath(fspath): if ihook.pytest_ignore_collect(collection_path=fspath, config=self.config): return () if handle_dupes: keepduplicates = self.config.getoption("keepduplicates") if not keepduplicates: duplicate_paths = self.config.pluginmanager._duplicatepaths if fspath in duplicate_paths: return () else: duplicate_paths.add(fspath) return ihook.pytest_collect_file(file_path=fspath, parent=self) # type: ignore[no-any-return] def collect(self) -> Iterable[Union[nodes.Item, nodes.Collector]]: this_path = self.path.parent # Always collect the __init__ first. if path_matches_patterns(self.path, self.config.getini("python_files")): yield Module.from_parent(self, path=self.path) pkg_prefixes: Set[Path] = set() for direntry in visit(str(this_path), recurse=self._recurse): path = Path(direntry.path) # We will visit our own __init__.py file, in which case we skip it. if direntry.is_file(): if direntry.name == "__init__.py" and path.parent == this_path: continue parts_ = parts(direntry.path) if any( str(pkg_prefix) in parts_ and pkg_prefix / "__init__.py" != path for pkg_prefix in pkg_prefixes ): continue if direntry.is_file(): yield from self._collectfile(path) elif not direntry.is_dir(): # Broken symlink or invalid/missing file. continue elif path.joinpath("__init__.py").is_file(): pkg_prefixes.add(path) def _call_with_optional_argument(func, arg) -> None: """Call the given function with the given argument if func accepts one argument, otherwise calls func without arguments.""" arg_count = func.__code__.co_argcount if inspect.ismethod(func): arg_count -= 1 if arg_count: func(arg) else: func() def _get_first_non_fixture_func(obj: object, names: Iterable[str]) -> Optional[object]: """Return the attribute from the given object to be used as a setup/teardown xunit-style function, but only if not marked as a fixture to avoid calling it twice. """ for name in names: meth: Optional[object] = getattr(obj, name, None) if meth is not None and fixtures.getfixturemarker(meth) is None: return meth return None class Class(PyCollector): """Collector for test methods.""" @classmethod def from_parent(cls, parent, *, name, obj=None, **kw): """The public constructor.""" return super().from_parent(name=name, parent=parent, **kw) def newinstance(self): return self.obj() def collect(self) -> Iterable[Union[nodes.Item, nodes.Collector]]: if not safe_getattr(self.obj, "__test__", True): return [] if hasinit(self.obj): assert self.parent is not None self.warn( PytestCollectionWarning( "cannot collect test class %r because it has a " "__init__ constructor (from: %s)" % (self.obj.__name__, self.parent.nodeid) ) ) return [] elif hasnew(self.obj): assert self.parent is not None self.warn( PytestCollectionWarning( "cannot collect test class %r because it has a " "__new__ constructor (from: %s)" % (self.obj.__name__, self.parent.nodeid) ) ) return [] self._inject_setup_class_fixture() self._inject_setup_method_fixture() self.session._fixturemanager.parsefactories(self.newinstance(), self.nodeid) return super().collect() def _inject_setup_class_fixture(self) -> None: """Inject a hidden autouse, class scoped fixture into the collected class object that invokes setup_class/teardown_class if either or both are available. Using a fixture to invoke this methods ensures we play nicely and unsurprisingly with other fixtures (#517). """ setup_class = _get_first_non_fixture_func(self.obj, ("setup_class",)) teardown_class = _get_first_non_fixture_func(self.obj, ("teardown_class",)) if setup_class is None and teardown_class is None: return @fixtures.fixture( autouse=True, scope="class", # Use a unique name to speed up lookup. name=f"_xunit_setup_class_fixture_{self.obj.__qualname__}", ) def xunit_setup_class_fixture(cls) -> Generator[None, None, None]: if setup_class is not None: func = getimfunc(setup_class) _call_with_optional_argument(func, self.obj) yield if teardown_class is not None: func = getimfunc(teardown_class) _call_with_optional_argument(func, self.obj) self.obj.__pytest_setup_class = xunit_setup_class_fixture def _inject_setup_method_fixture(self) -> None: """Inject a hidden autouse, function scoped fixture into the collected class object that invokes setup_method/teardown_method if either or both are available. Using a fixture to invoke these methods ensures we play nicely and unsurprisingly with other fixtures (#517). """ has_nose = self.config.pluginmanager.has_plugin("nose") setup_name = "setup_method" setup_method = _get_first_non_fixture_func(self.obj, (setup_name,)) emit_nose_setup_warning = False if setup_method is None and has_nose: setup_name = "setup" emit_nose_setup_warning = True setup_method = _get_first_non_fixture_func(self.obj, (setup_name,)) teardown_name = "teardown_method" teardown_method = _get_first_non_fixture_func(self.obj, (teardown_name,)) emit_nose_teardown_warning = False if teardown_method is None and has_nose: teardown_name = "teardown" emit_nose_teardown_warning = True teardown_method = _get_first_non_fixture_func(self.obj, (teardown_name,)) if setup_method is None and teardown_method is None: return @fixtures.fixture( autouse=True, scope="function", # Use a unique name to speed up lookup. name=f"_xunit_setup_method_fixture_{self.obj.__qualname__}", ) def xunit_setup_method_fixture(self, request) -> Generator[None, None, None]: method = request.function if setup_method is not None: func = getattr(self, setup_name) _call_with_optional_argument(func, method) if emit_nose_setup_warning: warnings.warn( NOSE_SUPPORT_METHOD.format( nodeid=request.node.nodeid, method="setup" ), stacklevel=2, ) yield if teardown_method is not None: func = getattr(self, teardown_name) _call_with_optional_argument(func, method) if emit_nose_teardown_warning: warnings.warn( NOSE_SUPPORT_METHOD.format( nodeid=request.node.nodeid, method="teardown" ), stacklevel=2, ) self.obj.__pytest_setup_method = xunit_setup_method_fixture class InstanceDummy: """Instance used to be a node type between Class and Function. It has been removed in pytest 7.0. Some plugins exist which reference `pytest.Instance` only to ignore it; this dummy class keeps them working. This will be removed in pytest 8.""" def __getattr__(name: str) -> object: if name == "Instance": warnings.warn(INSTANCE_COLLECTOR, 2) return InstanceDummy raise AttributeError(f"module {__name__} has no attribute {name}") def hasinit(obj: object) -> bool: init: object = getattr(obj, "__init__", None) if init: return init != object.__init__ return False def hasnew(obj: object) -> bool: new: object = getattr(obj, "__new__", None) if new: return new != object.__new__ return False @final @dataclasses.dataclass(frozen=True) class IdMaker: """Make IDs for a parametrization.""" __slots__ = ( "argnames", "parametersets", "idfn", "ids", "config", "nodeid", "func_name", ) # The argnames of the parametrization. argnames: Sequence[str] # The ParameterSets of the parametrization. parametersets: Sequence[ParameterSet] # Optionally, a user-provided callable to make IDs for parameters in a # ParameterSet. idfn: Optional[Callable[[Any], Optional[object]]] # Optionally, explicit IDs for ParameterSets by index. ids: Optional[Sequence[Optional[object]]] # Optionally, the pytest config. # Used for controlling ASCII escaping, and for calling the # :hook:`pytest_make_parametrize_id` hook. config: Optional[Config] # Optionally, the ID of the node being parametrized. # Used only for clearer error messages. nodeid: Optional[str] # Optionally, the ID of the function being parametrized. # Used only for clearer error messages. func_name: Optional[str] def make_unique_parameterset_ids(self) -> List[str]: """Make a unique identifier for each ParameterSet, that may be used to identify the parametrization in a node ID. Format is <prm_1_token>-...-<prm_n_token>[counter], where prm_x_token is - user-provided id, if given - else an id derived from the value, applicable for certain types - else <argname><parameterset index> The counter suffix is appended only in case a string wouldn't be unique otherwise. """ resolved_ids = list(self._resolve_ids()) # All IDs must be unique! if len(resolved_ids) != len(set(resolved_ids)): # Record the number of occurrences of each ID. id_counts = Counter(resolved_ids) # Map the ID to its next suffix. id_suffixes: Dict[str, int] = defaultdict(int) # Suffix non-unique IDs to make them unique. for index, id in enumerate(resolved_ids): if id_counts[id] > 1: resolved_ids[index] = f"{id}{id_suffixes[id]}" id_suffixes[id] += 1 return resolved_ids def _resolve_ids(self) -> Iterable[str]: """Resolve IDs for all ParameterSets (may contain duplicates).""" for idx, parameterset in enumerate(self.parametersets): if parameterset.id is not None: # ID provided directly - pytest.param(..., id="...") yield parameterset.id elif self.ids and idx < len(self.ids) and self.ids[idx] is not None: # ID provided in the IDs list - parametrize(..., ids=[...]). yield self._idval_from_value_required(self.ids[idx], idx) else: # ID not provided - generate it. yield "-".join( self._idval(val, argname, idx) for val, argname in zip(parameterset.values, self.argnames) ) def _idval(self, val: object, argname: str, idx: int) -> str: """Make an ID for a parameter in a ParameterSet.""" idval = self._idval_from_function(val, argname, idx) if idval is not None: return idval idval = self._idval_from_hook(val, argname) if idval is not None: return idval idval = self._idval_from_value(val) if idval is not None: return idval return self._idval_from_argname(argname, idx) def _idval_from_function( self, val: object, argname: str, idx: int ) -> Optional[str]: """Try to make an ID for a parameter in a ParameterSet using the user-provided id callable, if given.""" if self.idfn is None: return None try: id = self.idfn(val) except Exception as e: prefix = f"{self.nodeid}: " if self.nodeid is not None else "" msg = "error raised while trying to determine id of parameter '{}' at position {}" msg = prefix + msg.format(argname, idx) raise ValueError(msg) from e if id is None: return None return self._idval_from_value(id) def _idval_from_hook(self, val: object, argname: str) -> Optional[str]: """Try to make an ID for a parameter in a ParameterSet by calling the :hook:`pytest_make_parametrize_id` hook.""" if self.config: id: Optional[str] = self.config.hook.pytest_make_parametrize_id( config=self.config, val=val, argname=argname ) return id return None def _idval_from_value(self, val: object) -> Optional[str]: """Try to make an ID for a parameter in a ParameterSet from its value, if the value type is supported.""" if isinstance(val, STRING_TYPES): return _ascii_escaped_by_config(val, self.config) elif val is None or isinstance(val, (float, int, bool, complex)): return str(val) elif isinstance(val, Pattern): return ascii_escaped(val.pattern) elif val is NOTSET: # Fallback to default. Note that NOTSET is an enum.Enum. pass elif isinstance(val, enum.Enum): return str(val) elif isinstance(getattr(val, "__name__", None), str): # Name of a class, function, module, etc. name: str = getattr(val, "__name__") return name return None def _idval_from_value_required(self, val: object, idx: int) -> str: """Like _idval_from_value(), but fails if the type is not supported.""" id = self._idval_from_value(val) if id is not None: return id # Fail. if self.func_name is not None: prefix = f"In {self.func_name}: " elif self.nodeid is not None: prefix = f"In {self.nodeid}: " else: prefix = "" msg = ( f"{prefix}ids contains unsupported value {saferepr(val)} (type: {type(val)!r}) at index {idx}. " "Supported types are: str, bytes, int, float, complex, bool, enum, regex or anything with a __name__." ) fail(msg, pytrace=False) @staticmethod def _idval_from_argname(argname: str, idx: int) -> str: """Make an ID for a parameter in a ParameterSet from the argument name and the index of the ParameterSet.""" return str(argname) + str(idx) @final @dataclasses.dataclass(frozen=True) class CallSpec2: """A planned parameterized invocation of a test function. Calculated during collection for a given test function's Metafunc. Once collection is over, each callspec is turned into a single Item and stored in item.callspec. """ # arg name -> arg value which will be passed to the parametrized test # function (direct parameterization). funcargs: Dict[str, object] = dataclasses.field(default_factory=dict) # arg name -> arg value which will be passed to a fixture of the same name # (indirect parametrization). params: Dict[str, object] = dataclasses.field(default_factory=dict) # arg name -> arg index. indices: Dict[str, int] = dataclasses.field(default_factory=dict) # Used for sorting parametrized resources. _arg2scope: Dict[str, Scope] = dataclasses.field(default_factory=dict) # Parts which will be added to the item's name in `[..]` separated by "-". _idlist: List[str] = dataclasses.field(default_factory=list) # Marks which will be applied to the item. marks: List[Mark] = dataclasses.field(default_factory=list) def setmulti( self, *, valtypes: Mapping[str, "Literal['params', 'funcargs']"], argnames: Iterable[str], valset: Iterable[object], id: str, marks: Iterable[Union[Mark, MarkDecorator]], scope: Scope, param_index: int, ) -> "CallSpec2": funcargs = self.funcargs.copy() params = self.params.copy() indices = self.indices.copy() arg2scope = self._arg2scope.copy() for arg, val in zip(argnames, valset): if arg in params or arg in funcargs: raise ValueError(f"duplicate {arg!r}") valtype_for_arg = valtypes[arg] if valtype_for_arg == "params": params[arg] = val elif valtype_for_arg == "funcargs": funcargs[arg] = val else: assert_never(valtype_for_arg) indices[arg] = param_index arg2scope[arg] = scope return CallSpec2( funcargs=funcargs, params=params, indices=indices, _arg2scope=arg2scope, _idlist=[*self._idlist, id], marks=[*self.marks, *normalize_mark_list(marks)], ) def getparam(self, name: str) -> object: try: return self.params[name] except KeyError as e: raise ValueError(name) from e @property def id(self) -> str: return "-".join(self._idlist) @final class Metafunc: """Objects passed to the :hook:`pytest_generate_tests` hook. They help to inspect a test function and to generate tests according to test configuration or values specified in the class or module where a test function is defined. """ def __init__( self, definition: "FunctionDefinition", fixtureinfo: fixtures.FuncFixtureInfo, config: Config, cls=None, module=None, *, _ispytest: bool = False, ) -> None: check_ispytest(_ispytest) #: Access to the underlying :class:`_pytest.python.FunctionDefinition`. self.definition = definition #: Access to the :class:`pytest.Config` object for the test session. self.config = config #: The module object where the test function is defined in. self.module = module #: Underlying Python test function. self.function = definition.obj #: Set of fixture names required by the test function. self.fixturenames = fixtureinfo.names_closure #: Class object where the test function is defined in or ``None``. self.cls = cls self._arg2fixturedefs = fixtureinfo.name2fixturedefs # Result of parametrize(). self._calls: List[CallSpec2] = [] def parametrize( self, argnames: Union[str, Sequence[str]], argvalues: Iterable[Union[ParameterSet, Sequence[object], object]], indirect: Union[bool, Sequence[str]] = False, ids: Optional[ Union[Iterable[Optional[object]], Callable[[Any], Optional[object]]] ] = None, scope: "Optional[_ScopeName]" = None, *, _param_mark: Optional[Mark] = None, ) -> None: """Add new invocations to the underlying test function using the list of argvalues for the given argnames. Parametrization is performed during the collection phase. If you need to setup expensive resources see about setting indirect to do it rather than at test setup time. Can be called multiple times, in which case each call parametrizes all previous parametrizations, e.g. :: unparametrized: t parametrize ["x", "y"]: t[x], t[y] parametrize [1, 2]: t[x-1], t[x-2], t[y-1], t[y-2] :param argnames: A comma-separated string denoting one or more argument names, or a list/tuple of argument strings. :param argvalues: The list of argvalues determines how often a test is invoked with different argument values. If only one argname was specified argvalues is a list of values. If N argnames were specified, argvalues must be a list of N-tuples, where each tuple-element specifies a value for its respective argname. :param indirect: A list of arguments' names (subset of argnames) or a boolean. If True the list contains all names from the argnames. Each argvalue corresponding to an argname in this list will be passed as request.param to its respective argname fixture function so that it can perform more expensive setups during the setup phase of a test rather than at collection time. :param ids: Sequence of (or generator for) ids for ``argvalues``, or a callable to return part of the id for each argvalue. With sequences (and generators like ``itertools.count()``) the returned ids should be of type ``string``, ``int``, ``float``, ``bool``, or ``None``. They are mapped to the corresponding index in ``argvalues``. ``None`` means to use the auto-generated id. If it is a callable it will be called for each entry in ``argvalues``, and the return value is used as part of the auto-generated id for the whole set (where parts are joined with dashes ("-")). This is useful to provide more specific ids for certain items, e.g. dates. Returning ``None`` will use an auto-generated id. If no ids are provided they will be generated automatically from the argvalues. :param scope: If specified it denotes the scope of the parameters. The scope is used for grouping tests by parameter instances. It will also override any fixture-function defined scope, allowing to set a dynamic scope using test context or configuration. """ argnames, parametersets = ParameterSet._for_parametrize( argnames, argvalues, self.function, self.config, nodeid=self.definition.nodeid, ) del argvalues if "request" in argnames: fail( "'request' is a reserved name and cannot be used in @pytest.mark.parametrize", pytrace=False, ) if scope is not None: scope_ = Scope.from_user( scope, descr=f"parametrize() call in {self.function.__name__}" ) else: scope_ = _find_parametrized_scope(argnames, self._arg2fixturedefs, indirect) self._validate_if_using_arg_names(argnames, indirect) arg_values_types = self._resolve_arg_value_types(argnames, indirect) # Use any already (possibly) generated ids with parametrize Marks. if _param_mark and _param_mark._param_ids_from: generated_ids = _param_mark._param_ids_from._param_ids_generated if generated_ids is not None: ids = generated_ids ids = self._resolve_parameter_set_ids( argnames, ids, parametersets, nodeid=self.definition.nodeid ) # Store used (possibly generated) ids with parametrize Marks. if _param_mark and _param_mark._param_ids_from and generated_ids is None: object.__setattr__(_param_mark._param_ids_from, "_param_ids_generated", ids) # Create the new calls: if we are parametrize() multiple times (by applying the decorator # more than once) then we accumulate those calls generating the cartesian product # of all calls. newcalls = [] for callspec in self._calls or [CallSpec2()]: for param_index, (param_id, param_set) in enumerate( zip(ids, parametersets) ): newcallspec = callspec.setmulti( valtypes=arg_values_types, argnames=argnames, valset=param_set.values, id=param_id, marks=param_set.marks, scope=scope_, param_index=param_index, ) newcalls.append(newcallspec) self._calls = newcalls def _resolve_parameter_set_ids( self, argnames: Sequence[str], ids: Optional[ Union[Iterable[Optional[object]], Callable[[Any], Optional[object]]] ], parametersets: Sequence[ParameterSet], nodeid: str, ) -> List[str]: """Resolve the actual ids for the given parameter sets. :param argnames: Argument names passed to ``parametrize()``. :param ids: The `ids` parameter of the ``parametrize()`` call (see docs). :param parametersets: The parameter sets, each containing a set of values corresponding to ``argnames``. :param nodeid str: The nodeid of the definition item that generated this parametrization. :returns: List with ids for each parameter set given. """ if ids is None: idfn = None ids_ = None elif callable(ids): idfn = ids ids_ = None else: idfn = None ids_ = self._validate_ids(ids, parametersets, self.function.__name__) id_maker = IdMaker( argnames, parametersets, idfn, ids_, self.config, nodeid=nodeid, func_name=self.function.__name__, ) return id_maker.make_unique_parameterset_ids() def _validate_ids( self, ids: Iterable[Optional[object]], parametersets: Sequence[ParameterSet], func_name: str, ) -> List[Optional[object]]: try: num_ids = len(ids) # type: ignore[arg-type] except TypeError: try: iter(ids) except TypeError as e: raise TypeError("ids must be a callable or an iterable") from e num_ids = len(parametersets) # num_ids == 0 is a special case: https://github.com/pytest-dev/pytest/issues/1849 if num_ids != len(parametersets) and num_ids != 0: msg = "In {}: {} parameter sets specified, with different number of ids: {}" fail(msg.format(func_name, len(parametersets), num_ids), pytrace=False) return list(itertools.islice(ids, num_ids)) def _resolve_arg_value_types( self, argnames: Sequence[str], indirect: Union[bool, Sequence[str]], ) -> Dict[str, "Literal['params', 'funcargs']"]: """Resolve if each parametrized argument must be considered a parameter to a fixture or a "funcarg" to the function, based on the ``indirect`` parameter of the parametrized() call. :param List[str] argnames: List of argument names passed to ``parametrize()``. :param indirect: Same as the ``indirect`` parameter of ``parametrize()``. :rtype: Dict[str, str] A dict mapping each arg name to either: * "params" if the argname should be the parameter of a fixture of the same name. * "funcargs" if the argname should be a parameter to the parametrized test function. """ if isinstance(indirect, bool): valtypes: Dict[str, Literal["params", "funcargs"]] = dict.fromkeys( argnames, "params" if indirect else "funcargs" ) elif isinstance(indirect, Sequence): valtypes = dict.fromkeys(argnames, "funcargs") for arg in indirect: if arg not in argnames: fail( "In {}: indirect fixture '{}' doesn't exist".format( self.function.__name__, arg ), pytrace=False, ) valtypes[arg] = "params" else: fail( "In {func}: expected Sequence or boolean for indirect, got {type}".format( type=type(indirect).__name__, func=self.function.__name__ ), pytrace=False, ) return valtypes def _validate_if_using_arg_names( self, argnames: Sequence[str], indirect: Union[bool, Sequence[str]], ) -> None: """Check if all argnames are being used, by default values, or directly/indirectly. :param List[str] argnames: List of argument names passed to ``parametrize()``. :param indirect: Same as the ``indirect`` parameter of ``parametrize()``. :raises ValueError: If validation fails. """ default_arg_names = set(get_default_arg_names(self.function)) func_name = self.function.__name__ for arg in argnames: if arg not in self.fixturenames: if arg in default_arg_names: fail( "In {}: function already takes an argument '{}' with a default value".format( func_name, arg ), pytrace=False, ) else: if isinstance(indirect, Sequence): name = "fixture" if arg in indirect else "argument" else: name = "fixture" if indirect else "argument" fail( f"In {func_name}: function uses no {name} '{arg}'", pytrace=False, ) def _find_parametrized_scope( argnames: Sequence[str], arg2fixturedefs: Mapping[str, Sequence[fixtures.FixtureDef[object]]], indirect: Union[bool, Sequence[str]], ) -> Scope: """Find the most appropriate scope for a parametrized call based on its arguments. When there's at least one direct argument, always use "function" scope. When a test function is parametrized and all its arguments are indirect (e.g. fixtures), return the most narrow scope based on the fixtures used. Related to issue #1832, based on code posted by @Kingdread. """ if isinstance(indirect, Sequence): all_arguments_are_fixtures = len(indirect) == len(argnames) else: all_arguments_are_fixtures = bool(indirect) if all_arguments_are_fixtures: fixturedefs = arg2fixturedefs or {} used_scopes = [ fixturedef[0]._scope for name, fixturedef in fixturedefs.items() if name in argnames ] # Takes the most narrow scope from used fixtures. return min(used_scopes, default=Scope.Function) return Scope.Function def _ascii_escaped_by_config(val: Union[str, bytes], config: Optional[Config]) -> str: if config is None: escape_option = False else: escape_option = config.getini( "disable_test_id_escaping_and_forfeit_all_rights_to_community_support" ) # TODO: If escaping is turned off and the user passes bytes, # will return a bytes. For now we ignore this but the # code *probably* doesn't handle this case. return val if escape_option else ascii_escaped(val) # type: ignore def _pretty_fixture_path(func) -> str: cwd = Path.cwd() loc = Path(getlocation(func, str(cwd))) prefix = Path("...", "_pytest") try: return str(prefix / loc.relative_to(_PYTEST_DIR)) except ValueError: return bestrelpath(cwd, loc) def show_fixtures_per_test(config): from _pytest.main import wrap_session return wrap_session(config, _show_fixtures_per_test) def _show_fixtures_per_test(config: Config, session: Session) -> None: import _pytest.config session.perform_collect() curdir = Path.cwd() tw = _pytest.config.create_terminal_writer(config) verbose = config.getvalue("verbose") def get_best_relpath(func) -> str: loc = getlocation(func, str(curdir)) return bestrelpath(curdir, Path(loc)) def write_fixture(fixture_def: fixtures.FixtureDef[object]) -> None: argname = fixture_def.argname if verbose <= 0 and argname.startswith("_"): return prettypath = _pretty_fixture_path(fixture_def.func) tw.write(f"{argname}", green=True) tw.write(f" -- {prettypath}", yellow=True) tw.write("\n") fixture_doc = inspect.getdoc(fixture_def.func) if fixture_doc: write_docstring( tw, fixture_doc.split("\n\n")[0] if verbose <= 0 else fixture_doc ) else: tw.line(" no docstring available", red=True) def write_item(item: nodes.Item) -> None: # Not all items have _fixtureinfo attribute. info: Optional[FuncFixtureInfo] = getattr(item, "_fixtureinfo", None) if info is None or not info.name2fixturedefs: # This test item does not use any fixtures. return tw.line() tw.sep("-", f"fixtures used by {item.name}") # TODO: Fix this type ignore. tw.sep("-", f"({get_best_relpath(item.function)})") # type: ignore[attr-defined] # dict key not used in loop but needed for sorting. for _, fixturedefs in sorted(info.name2fixturedefs.items()): assert fixturedefs is not None if not fixturedefs: continue # Last item is expected to be the one used by the test item. write_fixture(fixturedefs[-1]) for session_item in session.items: write_item(session_item) def showfixtures(config: Config) -> Union[int, ExitCode]: from _pytest.main import wrap_session return wrap_session(config, _showfixtures_main) def _showfixtures_main(config: Config, session: Session) -> None: import _pytest.config session.perform_collect() curdir = Path.cwd() tw = _pytest.config.create_terminal_writer(config) verbose = config.getvalue("verbose") fm = session._fixturemanager available = [] seen: Set[Tuple[str, str]] = set() for argname, fixturedefs in fm._arg2fixturedefs.items(): assert fixturedefs is not None if not fixturedefs: continue for fixturedef in fixturedefs: loc = getlocation(fixturedef.func, str(curdir)) if (fixturedef.argname, loc) in seen: continue seen.add((fixturedef.argname, loc)) available.append( ( len(fixturedef.baseid), fixturedef.func.__module__, _pretty_fixture_path(fixturedef.func), fixturedef.argname, fixturedef, ) ) available.sort() currentmodule = None for baseid, module, prettypath, argname, fixturedef in available: if currentmodule != module: if not module.startswith("_pytest."): tw.line() tw.sep("-", f"fixtures defined from {module}") currentmodule = module if verbose <= 0 and argname.startswith("_"): continue tw.write(f"{argname}", green=True) if fixturedef.scope != "function": tw.write(" [%s scope]" % fixturedef.scope, cyan=True) tw.write(f" -- {prettypath}", yellow=True) tw.write("\n") doc = inspect.getdoc(fixturedef.func) if doc: write_docstring(tw, doc.split("\n\n")[0] if verbose <= 0 else doc) else: tw.line(" no docstring available", red=True) tw.line() def write_docstring(tw: TerminalWriter, doc: str, indent: str = " ") -> None: for line in doc.split("\n"): tw.line(indent + line) class Function(PyobjMixin, nodes.Item): """An Item responsible for setting up and executing a Python test function. :param name: The full function name, including any decorations like those added by parametrization (``my_func[my_param]``). :param parent: The parent Node. :param config: The pytest Config object. :param callspec: If given, this is function has been parametrized and the callspec contains meta information about the parametrization. :param callobj: If given, the object which will be called when the Function is invoked, otherwise the callobj will be obtained from ``parent`` using ``originalname``. :param keywords: Keywords bound to the function object for "-k" matching. :param session: The pytest Session object. :param fixtureinfo: Fixture information already resolved at this fixture node.. :param originalname: The attribute name to use for accessing the underlying function object. Defaults to ``name``. Set this if name is different from the original name, for example when it contains decorations like those added by parametrization (``my_func[my_param]``). """ # Disable since functions handle it themselves. _ALLOW_MARKERS = False def __init__( self, name: str, parent, config: Optional[Config] = None, callspec: Optional[CallSpec2] = None, callobj=NOTSET, keywords: Optional[Mapping[str, Any]] = None, session: Optional[Session] = None, fixtureinfo: Optional[FuncFixtureInfo] = None, originalname: Optional[str] = None, ) -> None: super().__init__(name, parent, config=config, session=session) if callobj is not NOTSET: self.obj = callobj #: Original function name, without any decorations (for example #: parametrization adds a ``"[...]"`` suffix to function names), used to access #: the underlying function object from ``parent`` (in case ``callobj`` is not given #: explicitly). #: #: .. versionadded:: 3.0 self.originalname = originalname or name # Note: when FunctionDefinition is introduced, we should change ``originalname`` # to a readonly property that returns FunctionDefinition.name. self.own_markers.extend(get_unpacked_marks(self.obj)) if callspec: self.callspec = callspec self.own_markers.extend(callspec.marks) # todo: this is a hell of a hack # https://github.com/pytest-dev/pytest/issues/4569 # Note: the order of the updates is important here; indicates what # takes priority (ctor argument over function attributes over markers). # Take own_markers only; NodeKeywords handles parent traversal on its own. self.keywords.update((mark.name, mark) for mark in self.own_markers) self.keywords.update(self.obj.__dict__) if keywords: self.keywords.update(keywords) if fixtureinfo is None: fixtureinfo = self.session._fixturemanager.getfixtureinfo( self, self.obj, self.cls, funcargs=True ) self._fixtureinfo: FuncFixtureInfo = fixtureinfo self.fixturenames = fixtureinfo.names_closure self._initrequest() @classmethod def from_parent(cls, parent, **kw): # todo: determine sound type limitations """The public constructor.""" return super().from_parent(parent=parent, **kw) def _initrequest(self) -> None: self.funcargs: Dict[str, object] = {} self._request = fixtures.FixtureRequest(self, _ispytest=True) @property def function(self): """Underlying python 'function' object.""" return getimfunc(self.obj) def _getobj(self): assert self.parent is not None if isinstance(self.parent, Class): # Each Function gets a fresh class instance. parent_obj = self.parent.newinstance() else: parent_obj = self.parent.obj # type: ignore[attr-defined] return getattr(parent_obj, self.originalname) @property def _pyfuncitem(self): """(compatonly) for code expecting pytest-2.2 style request objects.""" return self def runtest(self) -> None: """Execute the underlying test function.""" self.ihook.pytest_pyfunc_call(pyfuncitem=self) def setup(self) -> None: self._request._fillfixtures() def _traceback_filter(self, excinfo: ExceptionInfo[BaseException]) -> Traceback: if hasattr(self, "_obj") and not self.config.getoption("fulltrace", False): code = _pytest._code.Code.from_function(get_real_func(self.obj)) path, firstlineno = code.path, code.firstlineno traceback = excinfo.traceback ntraceback = traceback.cut(path=path, firstlineno=firstlineno) if ntraceback == traceback: ntraceback = ntraceback.cut(path=path) if ntraceback == traceback: ntraceback = ntraceback.filter(filter_traceback) if not ntraceback: ntraceback = traceback ntraceback = ntraceback.filter(excinfo) # issue364: mark all but first and last frames to # only show a single-line message for each frame. if self.config.getoption("tbstyle", "auto") == "auto": if len(ntraceback) > 2: ntraceback = Traceback( entry if i == 0 or i == len(ntraceback) - 1 else entry.with_repr_style("short") for i, entry in enumerate(ntraceback) ) return ntraceback return excinfo.traceback # TODO: Type ignored -- breaks Liskov Substitution. def repr_failure( # type: ignore[override] self, excinfo: ExceptionInfo[BaseException], ) -> Union[str, TerminalRepr]: style = self.config.getoption("tbstyle", "auto") if style == "auto": style = "long" return self._repr_failure_py(excinfo, style=style) class FunctionDefinition(Function): """ This class is a step gap solution until we evolve to have actual function definition nodes and manage to get rid of ``metafunc``. """ def runtest(self) -> None: raise RuntimeError("function definitions are not supposed to be run as tests") setup = runtest