""" Python test discovery, setup and run of test functions. """ import py import inspect import sys import pytest from _pytest.main import getfslineno from _pytest.monkeypatch import monkeypatch from py._code.code import TerminalRepr import _pytest cutdir = py.path.local(_pytest.__file__).dirpath() callable = py.builtin.callable def getimfunc(func): try: return func.__func__ except AttributeError: try: return func.im_func except AttributeError: return func class FixtureFunctionMarker: def __init__(self, scope, params, autouse=False): self.scope = scope self.params = params self.autouse = autouse def __call__(self, function): if inspect.isclass(function): raise ValueError("class fixtures not supported (may be in the future)") function._pytestfixturefunction = self return function def fixture(scope="function", params=None, autouse=False): """ (return a) decorator to mark a fixture factory function. This decorator can be used (with or or without parameters) to define a fixture function. The name of the fixture function can later be referenced to cause its invocation ahead of running tests: test modules or classes can use the pytest.mark.usefixtures(fixturename) marker. Test functions can directly use fixture names as input arguments in which case the fixture instance returned from the fixture function will be injected. :arg scope: the scope for which this fixture is shared, one of "function" (default), "class", "module", "session". :arg params: an optional list of parameters which will cause multiple invocations of the fixture function and all of the tests using it. :arg autouse: if True, the fixture func is activated for all tests that can see it. If False (the default) then an explicit reference is needed to activate the fixture. """ if callable(scope) and params is None and autouse == False: # direct decoration return FixtureFunctionMarker("function", params, autouse)(scope) else: return FixtureFunctionMarker(scope, params, autouse=autouse) defaultfuncargprefixmarker = fixture() def pyobj_property(name): def get(self): node = self.getparent(getattr(pytest, name)) if node is not None: return node.obj doc = "python %s object this node was collected from (can be None)." % ( name.lower(),) return property(get, None, None, doc) def pytest_addoption(parser): group = parser.getgroup("general") group.addoption('--fixtures', '--funcargs', action="store_true", dest="showfixtures", default=False, help="show available fixtures, sorted by plugin appearance") parser.addini("usefixtures", type="args", default=[], help="list of default fixtures to be used with this project") parser.addini("python_files", type="args", 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 for Python test class discovery") parser.addini("python_functions", type="args", default=("test",), help="prefixes for Python test function and method discovery") def pytest_cmdline_main(config): if config.option.showfixtures: showfixtures(config) return 0 def pytest_generate_tests(metafunc): try: markers = metafunc.function.parametrize except AttributeError: return for marker in markers: metafunc.parametrize(*marker.args, **marker.kwargs) def pytest_configure(config): config.addinivalue_line("markers", "parametrize(argnames, argvalues): call a test function multiple " "times passing in multiple different argument value sets. 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 http://pytest.org/latest/parametrize.html for more info and " "examples." ) config.addinivalue_line("markers", "usefixtures(fixturename1, fixturename2, ...): mark tests as needing " "all of the specified fixtures. see http://pytest.org/latest/fixture.html#usefixtures " ) def pytest_sessionstart(session): session._fixturemanager = FixtureManager(session) @pytest.mark.trylast def pytest_namespace(): raises.Exception = pytest.fail.Exception return { 'fixture': fixture, 'raises' : raises, 'collect': { 'Module': Module, 'Class': Class, 'Instance': Instance, 'Function': Function, 'Generator': Generator, '_fillfuncargs': fillfixtures} } @fixture() def pytestconfig(request): """ the pytest config object with access to command line opts.""" return request.config def pytest_pyfunc_call(__multicall__, pyfuncitem): if not __multicall__.execute(): testfunction = pyfuncitem.obj if pyfuncitem._isyieldedfunction(): testfunction(*pyfuncitem._args) else: funcargs = pyfuncitem.funcargs testargs = {} for arg in pyfuncitem._fixtureinfo.argnames: testargs[arg] = funcargs[arg] testfunction(**testargs) def pytest_collect_file(path, parent): ext = path.ext pb = path.purebasename if ext == ".py": if not parent.session.isinitpath(path): for pat in parent.config.getini('python_files'): if path.fnmatch(pat): break else: return ihook = parent.session.gethookproxy(path) return ihook.pytest_pycollect_makemodule(path=path, parent=parent) def pytest_pycollect_makemodule(path, parent): return Module(path, parent) def pytest_pycollect_makeitem(__multicall__, collector, name, obj): res = __multicall__.execute() if res is not None: return res if inspect.isclass(obj): #if hasattr(collector.obj, 'unittest'): # return # we assume it's a mixin class for a TestCase derived one if collector.classnamefilter(name): if not hasinit(obj): Class = collector._getcustomclass("Class") return Class(name, parent=collector) elif collector.funcnamefilter(name) and hasattr(obj, '__call__'): if is_generator(obj): return Generator(name, parent=collector) else: return list(collector._genfunctions(name, obj)) def is_generator(func): try: return py.code.getrawcode(func).co_flags & 32 # generator function except AttributeError: # builtin functions have no bytecode # assume them to not be generators return False class PyobjContext(object): module = pyobj_property("Module") cls = pyobj_property("Class") instance = pyobj_property("Instance") class PyobjMixin(PyobjContext): def obj(): def fget(self): try: return self._obj except AttributeError: self._obj = obj = self._getobj() return obj def fset(self, value): self._obj = value return property(fget, fset, None, "underlying python object") obj = obj() def _getobj(self): return getattr(self.parent.obj, self.name) def getmodpath(self, stopatmodule=True, includemodule=False): """ return python path relative to the containing module. """ chain = self.listchain() chain.reverse() parts = [] for node in chain: if isinstance(node, Instance): continue name = node.name if isinstance(node, Module): assert name.endswith(".py") name = name[:-3] if stopatmodule: if includemodule: parts.append(name) break parts.append(name) parts.reverse() s = ".".join(parts) return s.replace(".[", "[") def _getfslineno(self): return getfslineno(self.obj) def reportinfo(self): # XXX caching? obj = self.obj if hasattr(obj, 'compat_co_firstlineno'): # nose compatibility fspath = sys.modules[obj.__module__].__file__ if fspath.endswith(".pyc"): fspath = fspath[:-1] lineno = obj.compat_co_firstlineno modpath = obj.__module__ else: fspath, lineno = getfslineno(obj) modpath = self.getmodpath() assert isinstance(lineno, int) return fspath, lineno, modpath class PyCollector(PyobjMixin, pytest.Collector): def funcnamefilter(self, name): for prefix in self.config.getini("python_functions"): if name.startswith(prefix): return True def classnamefilter(self, name): for prefix in self.config.getini("python_classes"): if name.startswith(prefix): return True def collect(self): # NB. we avoid random getattrs and peek in the __dict__ instead # (XXX originally introduced from a PyPy need, still true?) dicts = [getattr(self.obj, '__dict__', {})] for basecls in inspect.getmro(self.obj.__class__): dicts.append(basecls.__dict__) seen = {} l = [] for dic in dicts: for name, obj in dic.items(): if name in seen: continue seen[name] = True if name[0] != "_": res = self.makeitem(name, obj) if res is None: continue if not isinstance(res, list): res = [res] l.extend(res) l.sort(key=lambda item: item.reportinfo()[:2]) return l def makeitem(self, name, obj): #assert self.ihook.fspath == self.fspath, self return self.ihook.pytest_pycollect_makeitem( collector=self, name=name, obj=obj) def _genfunctions(self, name, funcobj): module = self.getparent(Module).obj clscol = self.getparent(Class) cls = clscol and clscol.obj or None transfer_markers(funcobj, cls, module) fm = self.session._fixturemanager fixtureinfo = fm.getfixtureinfo(self, funcobj, cls) metafunc = Metafunc(funcobj, fixtureinfo, self.config, cls=cls, module=module) gentesthook = self.config.hook.pytest_generate_tests extra = [module] if cls is not None: extra.append(cls()) plugins = self.getplugins() + extra gentesthook.pcall(plugins, metafunc=metafunc) Function = self._getcustomclass("Function") if not metafunc._calls: yield Function(name, parent=self) else: for callspec in metafunc._calls: subname = "%s[%s]" %(name, callspec.id) yield Function(name=subname, parent=self, callspec=callspec, callobj=funcobj, keywords={callspec.id:True}) class FuncFixtureInfo: def __init__(self, argnames, names_closure, name2fixturedefs): self.argnames = argnames self.names_closure = names_closure self.name2fixturedefs = name2fixturedefs def transfer_markers(funcobj, cls, mod): # XXX this should rather be code in the mark plugin or the mark # plugin should merge with the python plugin. for holder in (cls, mod): try: pytestmark = holder.pytestmark except AttributeError: continue if isinstance(pytestmark, list): for mark in pytestmark: mark(funcobj) else: pytestmark(funcobj) class Module(pytest.File, PyCollector): """ Collector for test classes and functions. """ def _getobj(self): return self._memoizedcall('_obj', self._importtestmodule) def collect(self): self.session._fixturemanager.parsefactories(self) return super(Module, self).collect() def _importtestmodule(self): # we assume we are only called once per module try: mod = self.fspath.pyimport(ensuresyspath=True) except SyntaxError: excinfo = py.code.ExceptionInfo() raise self.CollectError(excinfo.getrepr(style="short")) except self.fspath.ImportMismatchError: e = sys.exc_info()[1] 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 ) #print "imported test module", mod self.config.pluginmanager.consider_module(mod) return mod def setup(self): setup_module = xunitsetup(self.obj, "setup_module") if setup_module is not None: #XXX: nose compat hack, move to nose plugin # if it takes a positional arg, its probably a pytest style one # so we pass the current module object if inspect.getargspec(setup_module)[0]: setup_module(self.obj) else: setup_module() def teardown(self): teardown_module = xunitsetup(self.obj, 'teardown_module') if teardown_module is not None: #XXX: nose compat hack, move to nose plugin # if it takes a positional arg, its probably a py.test style one # so we pass the current module object if inspect.getargspec(teardown_module)[0]: teardown_module(self.obj) else: teardown_module() class Class(PyCollector): """ Collector for test methods. """ def collect(self): return [self._getcustomclass("Instance")(name="()", parent=self)] def setup(self): setup_class = xunitsetup(self.obj, 'setup_class') if setup_class is not None: setup_class = getattr(setup_class, 'im_func', setup_class) setup_class = getattr(setup_class, '__func__', setup_class) setup_class(self.obj) def teardown(self): teardown_class = xunitsetup(self.obj, 'teardown_class') if teardown_class is not None: teardown_class = getattr(teardown_class, 'im_func', teardown_class) teardown_class = getattr(teardown_class, '__func__', teardown_class) teardown_class(self.obj) class Instance(PyCollector): def _getobj(self): obj = self.parent.obj() return obj def collect(self): self.session._fixturemanager.parsefactories(self) return super(Instance, self).collect() def newinstance(self): self.obj = self._getobj() return self.obj class FunctionMixin(PyobjMixin): """ mixin for the code common to Function and Generator. """ def setup(self): """ perform setup for this test function. """ if hasattr(self, '_preservedparent'): obj = self._preservedparent elif isinstance(self.parent, Instance): obj = self.parent.newinstance() self.obj = self._getobj() else: obj = self.parent.obj if inspect.ismethod(self.obj): name = 'setup_method' else: name = 'setup_function' setup_func_or_method = xunitsetup(obj, name) if setup_func_or_method is not None: setup_func_or_method(self.obj) def teardown(self): """ perform teardown for this test function. """ if inspect.ismethod(self.obj): name = 'teardown_method' else: name = 'teardown_function' obj = self.parent.obj teardown_func_or_meth = xunitsetup(obj, name) if teardown_func_or_meth is not None: teardown_func_or_meth(self.obj) def _prunetraceback(self, excinfo): if hasattr(self, '_obj') and not self.config.option.fulltrace: code = py.code.Code(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.cut(excludepath=cutdir) excinfo.traceback = ntraceback.filter() def _repr_failure_py(self, excinfo, style="long"): if excinfo.errisinstance(pytest.fail.Exception): if not excinfo.value.pytrace: return str(excinfo.value) return super(FunctionMixin, self)._repr_failure_py(excinfo, style=style) def repr_failure(self, excinfo, outerr=None): assert outerr is None, "XXX outerr usage is deprecated" return self._repr_failure_py(excinfo, style=self.config.option.tbstyle) class Generator(FunctionMixin, PyCollector): def collect(self): # test generators are seen as collectors but they also # invoke setup/teardown on popular request # (induced by the common "test_*" naming shared with normal tests) self.session._setupstate.prepare(self) # see FunctionMixin.setup and test_setupstate_is_preserved_134 self._preservedparent = self.parent.obj l = [] seen = {} for i, x in enumerate(self.obj()): name, call, args = self.getcallargs(x) if not callable(call): raise TypeError("%r yielded non callable test %r" %(self.obj, call,)) if name is None: name = "[%d]" % i else: name = "['%s']" % name if name in seen: raise ValueError("%r generated tests with non-unique name %r" %(self, name)) seen[name] = True l.append(self.Function(name, self, args=args, callobj=call)) return l def getcallargs(self, obj): if not isinstance(obj, (tuple, list)): obj = (obj,) # explict naming if isinstance(obj[0], py.builtin._basestring): name = obj[0] obj = obj[1:] else: name = None call, args = obj[0], obj[1:] return name, call, args def hasinit(obj): init = getattr(obj, '__init__', None) if init: if init != object.__init__: return True def fillfixtures(function): """ fill missing funcargs for a test function. """ if getattr(function, "_args", None) is None: # not a yielded function try: request = function._request except AttributeError: # XXX this special code path is only expected to execute # with the oejskit plugin. It uses classes with funcargs # and we thus have to work a bit to allow this. fm = function.session._fixturemanager fi = fm.getfixtureinfo(function.parent, function.obj, None) function._fixtureinfo = fi request = function._request = FixtureRequest(function) request._fillfixtures() # prune out funcargs for jstests newfuncargs = {} for name in fi.argnames: newfuncargs[name] = function.funcargs[name] function.funcargs = newfuncargs else: request._fillfixtures() _notexists = object() class CallSpec2(object): def __init__(self, metafunc): self.metafunc = metafunc self.funcargs = {} self._idlist = [] self.params = {} self._globalid = _notexists self._globalid_args = set() self._globalparam = _notexists self._arg2scopenum = {} # used for sorting parametrized resources def copy(self, metafunc): cs = CallSpec2(self.metafunc) cs.funcargs.update(self.funcargs) cs.params.update(self.params) cs._arg2scopenum.update(self._arg2scopenum) cs._idlist = list(self._idlist) cs._globalid = self._globalid cs._globalid_args = self._globalid_args cs._globalparam = self._globalparam return cs def _checkargnotcontained(self, arg): if arg in self.params or arg in self.funcargs: raise ValueError("duplicate %r" %(arg,)) def getparam(self, name): try: return self.params[name] except KeyError: if self._globalparam is _notexists: raise ValueError(name) return self._globalparam @property def id(self): return "-".join(map(str, filter(None, self._idlist))) def setmulti(self, valtype, argnames, valset, id, scopenum=0): for arg,val in zip(argnames, valset): self._checkargnotcontained(arg) getattr(self, valtype)[arg] = val # we want self.params to be always set because of # parametrize_sorted() which groups tests by params/scope if valtype == "funcargs": self.params[arg] = id self._arg2scopenum[arg] = scopenum if val is _notexists: self._emptyparamspecified = True self._idlist.append(id) def setall(self, funcargs, id, param): for x in funcargs: self._checkargnotcontained(x) self.funcargs.update(funcargs) if id is not _notexists: self._idlist.append(id) if param is not _notexists: assert self._globalparam is _notexists self._globalparam = param class FuncargnamesCompatAttr: """ 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 class Metafunc(FuncargnamesCompatAttr): def __init__(self, function, fixtureinfo, config, cls=None, module=None): self.config = config self.module = module self.function = function self.fixturenames = fixtureinfo.names_closure self._arg2fixturedefs = fixtureinfo.name2fixturedefs self.cls = cls self.module = module self._calls = [] self._ids = py.builtin.set() def parametrize(self, argnames, argvalues, indirect=False, ids=None, scope=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=True to do it rather at test setup time. :arg argnames: an argument name or a list of argument names :arg argvalues: a list of values for the argname or a list of tuples of values for the list of argument names. :arg indirect: if True each argvalue corresponding to an argname 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. :arg ids: list of string ids each corresponding to the argvalues so that they are part of the test id. If no ids are provided they will be generated automatically from the argvalues. :arg 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. """ if not isinstance(argnames, (tuple, list)): argnames = (argnames,) argvalues = [(val,) for val in argvalues] if not argvalues: argvalues = [(_notexists,) * len(argnames)] if scope is None: scope = "subfunction" scopenum = scopes.index(scope) if not indirect: #XXX should we also check for the opposite case? for arg in argnames: if arg not in self.fixturenames: raise ValueError("%r uses no fixture %r" %( self.function, arg)) valtype = indirect and "params" or "funcargs" if not ids: ids = idmaker(argnames, argvalues) newcalls = [] for callspec in self._calls or [CallSpec2(self)]: for i, valset in enumerate(argvalues): assert len(valset) == len(argnames) newcallspec = callspec.copy(self) newcallspec.setmulti(valtype, argnames, valset, ids[i], scopenum) newcalls.append(newcallspec) self._calls = newcalls def addcall(self, funcargs=None, id=_notexists, param=_notexists): """ (deprecated, use parametrize) Add a new call to the underlying test function during the collection phase of a test run. Note that request.addcall() is called during the test collection phase prior and independently to actual test execution. You should only use addcall() if you need to specify multiple arguments of a test function. :arg funcargs: argument keyword dictionary used when invoking the test function. :arg id: used for reporting and identification purposes. If you don't supply an `id` an automatic unique id will be generated. :arg param: a parameter which will be exposed to a later fixture function invocation through the ``request.param`` attribute. """ assert funcargs is None or isinstance(funcargs, dict) if funcargs is not None: for name in funcargs: if name not in self.fixturenames: pytest.fail("funcarg %r not used in this function." % name) else: funcargs = {} if id is None: raise ValueError("id=None not allowed") if id is _notexists: id = len(self._calls) id = str(id) if id in self._ids: raise ValueError("duplicate id %r" % id) self._ids.add(id) cs = CallSpec2(self) cs.setall(funcargs, id, param) self._calls.append(cs) def idmaker(argnames, argvalues): idlist = [] for valindex, valset in enumerate(argvalues): this_id = [] for nameindex, val in enumerate(valset): if not isinstance(val, (float, int, str)): this_id.append(argnames[nameindex]+str(valindex)) else: this_id.append(str(val)) idlist.append("-".join(this_id)) return idlist def showfixtures(config): from _pytest.main import wrap_session return wrap_session(config, _showfixtures_main) def _showfixtures_main(config, session): session.perform_collect() curdir = py.path.local() if session.items: nodeid = session.items[0].nodeid else: part = session._initialparts[0] nodeid = "::".join(map(str, [curdir.bestrelpath(part[0])] + part[1:])) nodeid.replace(session.fspath.sep, "/") tw = py.io.TerminalWriter() verbose = config.getvalue("verbose") fm = session._fixturemanager available = [] for argname in fm._arg2fixturedefs: fixturedefs = fm.getfixturedefs(argname, nodeid) assert fixturedefs is not None if not fixturedefs: continue fixturedef = fixturedefs[-1] loc = getlocation(fixturedef.func, curdir) available.append((len(fixturedef.baseid), fixturedef.func.__module__, curdir.bestrelpath(loc), fixturedef.argname, fixturedef)) available.sort() currentmodule = None for baseid, module, bestrel, argname, fixturedef in available: if currentmodule != module: if not module.startswith("_pytest."): tw.line() tw.sep("-", "fixtures defined from %s" %(module,)) currentmodule = module if verbose <= 0 and argname[0] == "_": continue if verbose > 0: funcargspec = "%s -- %s" %(argname, bestrel,) else: funcargspec = argname tw.line(funcargspec, green=True) loc = getlocation(fixturedef.func, curdir) doc = fixturedef.func.__doc__ or "" if doc: for line in doc.split("\n"): tw.line(" " + line.strip()) else: tw.line(" %s: no docstring available" %(loc,), red=True) def getlocation(function, curdir): import inspect 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) # builtin pytest.raises helper def raises(ExpectedException, *args, **kwargs): """ assert that a code block/function call raises @ExpectedException and raise a failure exception otherwise. If using Python 2.5 or above, you may use this function as a context manager:: >>> with raises(ZeroDivisionError): ... 1/0 Or you can specify a callable by passing a to-be-called lambda:: >>> raises(ZeroDivisionError, lambda: 1/0) or you can specify an arbitrary callable with arguments:: >>> def f(x): return 1/x ... >>> raises(ZeroDivisionError, f, 0) >>> raises(ZeroDivisionError, f, x=0) A third possibility is to use a string to be executed:: >>> raises(ZeroDivisionError, "f(0)") """ __tracebackhide__ = True if ExpectedException is AssertionError: # we want to catch a AssertionError # replace our subclass with the builtin one # see https://bitbucket.org/hpk42/pytest/issue/176/pytestraises from _pytest.assertion.util import BuiltinAssertionError as ExpectedException if not args: return RaisesContext(ExpectedException) elif isinstance(args[0], str): code, = args assert isinstance(code, str) frame = sys._getframe(1) loc = frame.f_locals.copy() loc.update(kwargs) #print "raises frame scope: %r" % frame.f_locals try: code = py.code.Source(code).compile() py.builtin.exec_(code, frame.f_globals, loc) # XXX didn'T mean f_globals == f_locals something special? # this is destroyed here ... except ExpectedException: return py.code.ExceptionInfo() else: func = args[0] try: func(*args[1:], **kwargs) except ExpectedException: return py.code.ExceptionInfo() k = ", ".join(["%s=%r" % x for x in kwargs.items()]) if k: k = ', ' + k expr = '%s(%r%s)' %(getattr(func, '__name__', func), args, k) pytest.fail("DID NOT RAISE") class RaisesContext(object): def __init__(self, ExpectedException): self.ExpectedException = ExpectedException self.excinfo = None def __enter__(self): self.excinfo = object.__new__(py.code.ExceptionInfo) return self.excinfo def __exit__(self, *tp): __tracebackhide__ = True if tp[0] is None: pytest.fail("DID NOT RAISE") self.excinfo.__init__(tp) return issubclass(self.excinfo.type, self.ExpectedException) # # the basic py.test Function item # _dummy = object() class Function(FunctionMixin, pytest.Item, FuncargnamesCompatAttr): """ a Function Item is responsible for setting up and executing a Python test function. """ _genid = None def __init__(self, name, parent, args=None, config=None, callspec=None, callobj=_dummy, keywords=None, session=None): super(Function, self).__init__(name, parent, config=config, session=session) self._args = args if callobj is not _dummy: self.obj = callobj for name, val in (py.builtin._getfuncdict(self.obj) or {}).items(): self.keywords[name] = val if keywords: for name, val in keywords.items(): self.keywords[name] = val fm = self.session._fixturemanager self._fixtureinfo = fi = fm.getfixtureinfo(self.parent, self.obj, self.cls) self.fixturenames = fi.names_closure if self._isyieldedfunction(): assert not callspec, ( "yielded functions (deprecated) cannot have funcargs") else: if callspec is not None: self.callspec = callspec self.funcargs = callspec.funcargs or {} self._genid = callspec.id if hasattr(callspec, "param"): self.param = callspec.param else: self.funcargs = {} self._request = req = FixtureRequest(self) #req._discoverfactories() @property def function(self): "underlying python 'function' object" return getattr(self.obj, 'im_func', self.obj) def _getobj(self): name = self.name i = name.find("[") # parametrization if i != -1: name = name[:i] return getattr(self.parent.obj, name) @property def _pyfuncitem(self): "(compatonly) for code expecting pytest-2.2 style request objects" return self def _isyieldedfunction(self): return getattr(self, "_args", None) is not None def runtest(self): """ execute the underlying test function. """ self.ihook.pytest_pyfunc_call(pyfuncitem=self) def setup(self): # check if parametrization happend with an empty list try: empty = self.callspec._emptyparamspecified except AttributeError: pass else: fs, lineno = self._getfslineno() pytest.skip("got empty parameter set, function %s at %s:%d" %( self.function.__name__, fs, lineno)) super(Function, self).setup() fillfixtures(self) def __eq__(self, other): try: return (self.name == other.name and self._args == other._args and self.parent == other.parent and self.obj == other.obj and getattr(self, '_genid', None) == getattr(other, '_genid', None) ) except AttributeError: pass return False def __ne__(self, other): return not self == other def __hash__(self): return hash((self.parent, self.name)) scope2props = dict(session=()) scope2props["module"] = ("fspath", "module") scope2props["class"] = scope2props["module"] + ("cls",) scope2props["instance"] = scope2props["class"] + ("instance", ) scope2props["function"] = scope2props["instance"] + ("function", "keywords") def scopeproperty(name=None, doc=None): def decoratescope(func): scopename = name or func.__name__ def provide(self): if func.__name__ in scope2props[self.scope]: return func(self) raise AttributeError("%s not available in %s-scoped context" % ( scopename, self.scope)) return property(provide, None, None, func.__doc__) return decoratescope class FixtureRequest(FuncargnamesCompatAttr): """ A request for a fixture from a test or fixture function. A request object gives access to the requesting test context and has an optional ``param`` attribute in case the fixture is parametrized indirectly. """ def __init__(self, pyfuncitem): self._pyfuncitem = pyfuncitem if hasattr(pyfuncitem, '_requestparam'): self.param = pyfuncitem._requestparam #: fixture for which this request is being performed self.fixturename = None #: Scope string, one of "function", "cls", "module", "session" self.scope = "function" self.getparent = pyfuncitem.getparent self._funcargs = self._pyfuncitem.funcargs.copy() self._fixtureinfo = fi = pyfuncitem._fixtureinfo self._arg2fixturedefs = fi.name2fixturedefs self._arg2index = {} self.fixturenames = self._fixtureinfo.names_closure self._fixturemanager = pyfuncitem.session._fixturemanager self._parentid = pyfuncitem.parent.nodeid self._fixturestack = [] @property def node(self): """ underlying collection node (depends on current request scope)""" return self._getscopeitem(self.scope) def _getnextfixturedef(self, argname): fixturedefs = self._arg2fixturedefs.get(argname, None) if fixturedefs is None: # we arrive here because of a getfuncargvalue(argname) usage which # was naturally not knowable at parsing/collection time fixturedefs = self._fixturemanager.getfixturedefs( argname, self._parentid) self._arg2fixturedefs[argname] = fixturedefs # fixturedefs is immutable so we maintain a decreasing index index = self._arg2index.get(argname, 0) - 1 if fixturedefs is None or (-index > len(fixturedefs)): raise FixtureLookupError(argname, self) self._arg2index[argname] = index return fixturedefs[index] @property def config(self): """ the pytest config object associated with this request. """ return self._pyfuncitem.config @scopeproperty() def function(self): """ test function object if the request has a per-function scope. """ return self._pyfuncitem.obj @scopeproperty("class") def cls(self): """ class (can be None) where the test function was collected. """ clscol = self._pyfuncitem.getparent(pytest.Class) if clscol: return clscol.obj @property def instance(self): """ instance (can be None) on which test function was collected. """ # unittest support hack, see _pytest.unittest.TestCaseFunction try: return self._pyfuncitem._testcase except AttributeError: return py.builtin._getimself(self.function) @scopeproperty() def module(self): """ python module object where the test function was collected. """ return self._pyfuncitem.getparent(pytest.Module).obj @scopeproperty() def fspath(self): """ the file system path of the test module which collected this test. """ return self._pyfuncitem.fspath @property def keywords(self): """ keywords/markers dictionary for the underlying node. """ return self.node.keywords @property def session(self): """ pytest session object. """ return self._pyfuncitem.session def addfinalizer(self, finalizer): """add finalizer/teardown function to be called after the last test within the requesting test context finished execution. """ # XXX usually this method is shadowed by fixturedef specific ones self._addfinalizer(finalizer, scope=self.scope) def _addfinalizer(self, finalizer, scope): if scope != "function" and hasattr(self, "param"): # parametrized resources are sorted by param # so we rather store finalizers per (argname, param) colitem = (self.fixturename, self.param) else: colitem = self._getscopeitem(scope) self._pyfuncitem.session._setupstate.addfinalizer( finalizer=finalizer, colitem=colitem) def applymarker(self, marker): """ Apply a marker to a single test function invocation. This method is useful if you don't want to have a keyword/marker on all function invocations. :arg marker: a :py:class:`_pytest.mark.MarkDecorator` object created by a call to ``py.test.mark.NAME(...)``. """ try: self.node.keywords[marker.markname] = marker except AttributeError: raise ValueError(marker) def raiseerror(self, msg): """ raise a FixtureLookupError with the given message. """ raise self._fixturemanager.FixtureLookupError(None, self, msg) def _fillfixtures(self): item = self._pyfuncitem fixturenames = getattr(item, "fixturenames", self.fixturenames) for argname in fixturenames: if argname not in item.funcargs: item.funcargs[argname] = self.getfuncargvalue(argname) def cached_setup(self, setup, teardown=None, scope="module", extrakey=None): """ (deprecated) Return a testing resource managed by ``setup`` & ``teardown`` calls. ``scope`` and ``extrakey`` determine when the ``teardown`` function will be called so that subsequent calls to ``setup`` would recreate the resource. With pytest-2.3 you often do not need ``cached_setup()`` as you can directly declare a scope on a fixture function and register a finalizer through ``request.addfinalizer()``. :arg teardown: function receiving a previously setup resource. :arg setup: a no-argument function creating a resource. :arg scope: a string value out of ``function``, ``class``, ``module`` or ``session`` indicating the caching lifecycle of the resource. :arg extrakey: added to internal caching key of (funcargname, scope). """ if not hasattr(self.config, '_setupcache'): self.config._setupcache = {} # XXX weakref? cachekey = (self.fixturename, self._getscopeitem(scope), extrakey) cache = self.config._setupcache try: val = cache[cachekey] except KeyError: __tracebackhide__ = True if scopemismatch(self.scope, scope): raise ScopeMismatchError("You tried to access a %r scoped " "resource with a %r scoped request object" %( (scope, self.scope))) __tracebackhide__ = False val = setup() cache[cachekey] = val if teardown is not None: def finalizer(): del cache[cachekey] teardown(val) self._addfinalizer(finalizer, scope=scope) return val def getfuncargvalue(self, argname): """ Dynamically retrieve a named fixture function argument. As of pytest-2.3, it is easier and usually better to access other fixture values by stating it as an input argument in the fixture function. If you only can decide about using another fixture at test setup time, you may use this function to retrieve it inside a fixture function body. """ try: return self._funcargs[argname] except KeyError: pass try: fixturedef = self._getnextfixturedef(argname) except FixtureLookupError: if argname == "request": return self raise self._fixturestack.append(fixturedef) try: result = self._getfuncargvalue(fixturedef) self._funcargs[argname] = result return result finally: self._fixturestack.pop() def _getfuncargvalue(self, fixturedef): if fixturedef.active: return fixturedef.cached_result # prepare request fixturename and param attributes before # calling into fixture function argname = fixturedef.argname node = self._pyfuncitem mp = monkeypatch() mp.setattr(self, 'fixturename', argname) try: param = node.callspec.getparam(argname) except (AttributeError, ValueError): pass else: mp.setattr(self, 'param', param, raising=False) # if a parametrize invocation set a scope it will override # the static scope defined with the fixture function scope = fixturedef.scope try: paramscopenum = node.callspec._arg2scopenum[argname] except (KeyError, AttributeError): pass else: if paramscopenum != scopenum_subfunction: scope = scopes[paramscopenum] if scope is not None: __tracebackhide__ = True if scopemismatch(self.scope, scope): # try to report something helpful lines = self._factorytraceback() raise ScopeMismatchError("You tried to access the %r scoped " "funcarg %r with a %r scoped request object, " "involved factories\n%s" %( (scope, argname, self.scope, "\n".join(lines)))) __tracebackhide__ = False mp.setattr(self, "scope", scope) # prepare finalization according to scope # (XXX analyse exact finalizing mechanics / cleanup) self.session._setupstate.addfinalizer(fixturedef.finish, self.node) self._fixturemanager.addargfinalizer(fixturedef.finish, argname) for subargname in fixturedef.argnames: # XXX all deps? self._fixturemanager.addargfinalizer(fixturedef.finish, subargname) mp.setattr(self, "addfinalizer", fixturedef.addfinalizer) # finally perform the fixture call val = fixturedef.execute(request=self) mp.undo() return val def _factorytraceback(self): lines = [] for fixturedef in self._fixturestack: factory = fixturedef.func fs, lineno = getfslineno(factory) p = self._pyfuncitem.session.fspath.bestrelpath(fs) args = inspect.formatargspec(*inspect.getargspec(factory)) lines.append("%s:%d: def %s%s" %( p, lineno, factory.__name__, args)) return lines def _getscopeitem(self, scope): if scope == "function": return self._pyfuncitem elif scope == "session": return self.session elif scope == "class": x = self._pyfuncitem.getparent(pytest.Class) if x is not None: return x scope = "module" if scope == "module": return self._pyfuncitem.getparent(pytest.Module) raise ValueError("unknown finalization scope %r" %(scope,)) def __repr__(self): return "" %(self.node) class ScopeMismatchError(Exception): """ A fixture function tries to use a different fixture function which which has a lower scope (e.g. a Session one calls a function one) """ scopes = "session module class function subfunction".split() scopenum_subfunction = scopes.index("subfunction") def scopemismatch(currentscope, newscope): return scopes.index(newscope) > scopes.index(currentscope) class FixtureLookupError(LookupError): """ could not return a requested Fixture (missing or invalid). """ def __init__(self, argname, request, msg=None): self.argname = argname self.request = request self.fixturestack = list(request._fixturestack) self.msg = msg def formatrepr(self): tblines = [] addline = tblines.append stack = [self.request._pyfuncitem.obj] stack.extend(map(lambda x: x.func, self.fixturestack)) msg = self.msg if msg is not None: stack = stack[:-1] # the last fixture raise an error, let's present # it at the requesting side for function in stack: fspath, lineno = getfslineno(function) lines, _ = inspect.getsourcelines(function) addline("file %s, line %s" % (fspath, lineno+1)) for i, line in enumerate(lines): line = line.rstrip() addline(" " + line) if line.lstrip().startswith('def'): break if msg is None: fm = self.request._fixturemanager nodeid = self.request._parentid available = [] for name, fixturedef in fm._arg2fixturedefs.items(): faclist = list(fm._matchfactories(fixturedef, self.request._parentid)) if faclist: available.append(name) msg = "fixture %r not found" % (self.argname,) msg += "\n available fixtures: %s" %(", ".join(available),) msg += "\n use 'py.test --fixtures [testpath]' for help on them." return FixtureLookupErrorRepr(fspath, lineno, tblines, msg, self.argname) class FixtureLookupErrorRepr(TerminalRepr): def __init__(self, filename, firstlineno, tblines, errorstring, argname): self.tblines = tblines self.errorstring = errorstring self.filename = filename self.firstlineno = firstlineno self.argname = argname def toterminal(self, tw): #tw.line("FixtureLookupError: %s" %(self.argname), red=True) for tbline in self.tblines: tw.line(tbline.rstrip()) for line in self.errorstring.split("\n"): tw.line(" " + line.strip(), red=True) tw.line() tw.line("%s:%d" % (self.filename, self.firstlineno+1)) class FixtureManager: """ pytest fixtures definitions and information is stored and managed from this class. During collection fm.parsefactories() is called multiple times to parse fixture function definitions into FixtureDef objects and internal data structures. During collection of test functions, metafunc-mechanics instantiate a FuncFixtureInfo object which is cached per node/func-name. This FuncFixtureInfo object is later retrieved by Function nodes which themselves offer a fixturenames attribute. The FuncFixtureInfo object holds information about fixtures and FixtureDefs relevant for a particular function. An initial list of fixtures is assembled like this: - ini-defined usefixtures - autouse-marked fixtures along the collection chain up from the function - usefixtures markers at module/class/function level - test function funcargs Subsequently the funcfixtureinfo.fixturenames attribute is computed as the closure of the fixtures needed to setup the initial fixtures, i. e. fixtures needed by fixture functions themselves are appended to the fixturenames list. Upon the test-setup phases all fixturenames are instantiated, retrieved by a lookup of their FuncFixtureInfo. """ _argprefix = "pytest_funcarg__" FixtureLookupError = FixtureLookupError FixtureLookupErrorRepr = FixtureLookupErrorRepr def __init__(self, session): self.session = session self.config = session.config self._arg2fixturedefs = {} self._seenplugins = set() self._holderobjseen = set() self._arg2finish = {} self._nodeid_and_autousenames = [("", self.config.getini("usefixtures"))] session.config.pluginmanager.register(self, "funcmanage") self._nodename2fixtureinfo = {} def getfixtureinfo(self, node, func, cls): key = (node, func.__name__) try: return self._nodename2fixtureinfo[key] except KeyError: pass if not hasattr(node, "nofuncargs"): if cls is not None: startindex = 1 else: startindex = None argnames = getfuncargnames(func, startindex) else: argnames = () usefixtures = getattr(func, "usefixtures", None) initialnames = argnames if usefixtures is not None: initialnames = usefixtures.args + initialnames fm = node.session._fixturemanager names_closure, arg2fixturedefs = fm.getfixtureclosure(initialnames, node) fixtureinfo = FuncFixtureInfo(argnames, names_closure, arg2fixturedefs) self._nodename2fixtureinfo[key] = fixtureinfo return fixtureinfo ### XXX this hook should be called for historic events like pytest_configure ### so that we don't have to do the below pytest_configure hook def pytest_plugin_registered(self, plugin): if plugin in self._seenplugins: return #print "plugin_registered", plugin nodeid = "" try: p = py.path.local(plugin.__file__) except AttributeError: pass else: if p.basename.startswith("conftest.py"): nodeid = p.dirpath().relto(self.session.fspath) if p.sep != "/": nodeid = nodeid.replace(p.sep, "/") self.parsefactories(plugin, nodeid) self._seenplugins.add(plugin) @pytest.mark.tryfirst def pytest_configure(self, config): plugins = config.pluginmanager.getplugins() for plugin in plugins: self.pytest_plugin_registered(plugin) def _getautousenames(self, nodeid): """ return a tuple of fixture names to be used. """ autousenames = [] for baseid, basenames in self._nodeid_and_autousenames: if nodeid.startswith(baseid): if baseid: i = len(baseid) + 1 nextchar = nodeid[i:i+1] if nextchar and nextchar not in ":/": continue autousenames.extend(basenames) # make sure autousenames are sorted by scope, scopenum 0 is session autousenames.sort( key=lambda x: self._arg2fixturedefs[x][-1].scopenum) return autousenames def getfixtureclosure(self, fixturenames, parentnode): # collect the closure of all fixtures , starting with the given # fixturenames as the initial set. As we have to visit all # factory definitions anyway, we also return a arg2fixturedefs # mapping so that the caller can reuse it and does not have # to re-discover fixturedefs again for each fixturename # (discovering matching fixtures for a given name/node is expensive) parentid = parentnode.nodeid fixturenames_closure = self._getautousenames(parentid) def merge(otherlist): for arg in otherlist: if arg not in fixturenames_closure: fixturenames_closure.append(arg) merge(fixturenames) arg2fixturedefs = {} lastlen = -1 while lastlen != len(fixturenames_closure): lastlen = len(fixturenames_closure) for argname in fixturenames_closure: if argname in arg2fixturedefs: continue fixturedefs = self.getfixturedefs(argname, parentid) arg2fixturedefs[argname] = fixturedefs if fixturedefs is not None: for fixturedef in fixturedefs: merge(fixturedef.argnames) return fixturenames_closure, arg2fixturedefs def pytest_generate_tests(self, metafunc): for argname in metafunc.fixturenames: faclist = metafunc._arg2fixturedefs[argname] if faclist is None: continue # will raise FixtureLookupError at setup time for fixturedef in faclist: if fixturedef.params is not None: metafunc.parametrize(argname, fixturedef.params, indirect=True, scope=fixturedef.scope) def pytest_collection_modifyitems(self, items): # separate parametrized setups items[:] = parametrize_sorted(items, set(), {}, 0) def pytest_runtest_teardown(self, item, nextitem): try: cs1 = item.callspec except AttributeError: return # determine which fixtures are not needed anymore for the next test keylist = [] for name in cs1.params: try: if name in nextitem.callspec.params and \ cs1.params[name] == nextitem.callspec.params[name]: continue except AttributeError: pass key = (-cs1._arg2scopenum[name], name, cs1.params[name]) keylist.append(key) # sort by scope (function scope first, then higher ones) keylist.sort() for (scopenum, name, param) in keylist: item.session._setupstate._callfinalizers((name, param)) l = self._arg2finish.get(name) if l is not None: for fin in reversed(l): fin() def parsefactories(self, node_or_obj, nodeid=None, unittest=False): if nodeid is not None: holderobj = node_or_obj else: holderobj = node_or_obj.obj nodeid = node_or_obj.nodeid if holderobj in self._holderobjseen: return self._holderobjseen.add(holderobj) autousenames = [] for name in dir(holderobj): obj = getattr(holderobj, name, None) if not callable(obj): continue # fixture functions have a pytest_funcarg__ prefix (pre-2.3 style) # or are "@pytest.fixture" marked try: marker = obj._pytestfixturefunction except KeyboardInterrupt: raise except Exception: # some objects raise errors like request (from flask import request) # we don't expect them to be fixture functions marker = None if marker is None: if not name.startswith(self._argprefix): continue marker = defaultfuncargprefixmarker name = name[len(self._argprefix):] elif not isinstance(marker, FixtureFunctionMarker): # magic globals with __getattr__ might have got us a wrong # fixture attribute continue else: assert not name.startswith(self._argprefix) fixturedef = FixtureDef(self, nodeid, name, obj, marker.scope, marker.params, unittest=unittest) faclist = self._arg2fixturedefs.setdefault(name, []) faclist.append(fixturedef) if marker.autouse: autousenames.append(name) if autousenames: self._nodeid_and_autousenames.append((nodeid, autousenames)) def getfixturedefs(self, argname, nodeid): try: fixturedefs = self._arg2fixturedefs[argname] except KeyError: return None else: return tuple(self._matchfactories(fixturedefs, nodeid)) def _matchfactories(self, fixturedefs, nodeid): for fixturedef in fixturedefs: if nodeid.startswith(fixturedef.baseid): yield fixturedef def addargfinalizer(self, finalizer, argname): l = self._arg2finish.setdefault(argname, []) l.append(finalizer) def removefinalizer(self, finalizer): for l in self._arg2finish.values(): try: l.remove(finalizer) except ValueError: pass class FixtureDef: """ A container for a factory definition. """ def __init__(self, fixturemanager, baseid, argname, func, scope, params, unittest=False): self._fixturemanager = fixturemanager self.baseid = baseid self.func = func self.argname = argname self.scope = scope self.scopenum = scopes.index(scope or "function") self.params = params startindex = unittest and 1 or None self.argnames = getfuncargnames(func, startindex=startindex) self.unittest = unittest self.active = False self._finalizer = [] def addfinalizer(self, finalizer): self._finalizer.append(finalizer) def finish(self): while self._finalizer: func = self._finalizer.pop() func() # check neccesity of next commented call self._fixturemanager.removefinalizer(self.finish) self.active = False #print "finished", self #del self.cached_result def execute(self, request): kwargs = {} for newname in self.argnames: kwargs[newname] = request.getfuncargvalue(newname) if self.unittest: result = self.func(request.instance, **kwargs) else: fixturefunc = self.func # the fixture function needs to be bound to the actual # request.instance so that code working with "self" behaves # as expected. XXX request.instance should maybe return None # instead of raising AttributeError try: if request.instance is not None: fixturefunc = getimfunc(self.func) if fixturefunc != self.func: fixturefunc = fixturefunc.__get__(request.instance) except AttributeError: pass result = fixturefunc(**kwargs) self.active = True self.cached_result = result return result def __repr__(self): return "" % (self.argname, self.scope) def getfuncargnames(function, startindex=None): # XXX merge with main.py's varnames #assert not inspect.isclass(function) realfunction = function while hasattr(realfunction, "__wrapped__"): realfunction = realfunction.__wrapped__ if startindex is None: startindex = inspect.ismethod(function) and 1 or 0 if realfunction != function: startindex += len(getattr(function, "patchings", [])) function = realfunction argnames = inspect.getargs(py.code.getrawcode(function))[0] defaults = getattr(function, 'func_defaults', getattr(function, '__defaults__', None)) or () numdefaults = len(defaults) if numdefaults: return tuple(argnames[startindex:-numdefaults]) return tuple(argnames[startindex:]) # algorithm for sorting on a per-parametrized resource setup basis def parametrize_sorted(items, ignore, cache, scopenum): if scopenum >= 3: return items newitems = [] olditems = [] slicing_argparam = None for item in items: argparamlist = getfuncargparams(item, ignore, scopenum, cache) if slicing_argparam is None and argparamlist: slicing_argparam = argparamlist[0] slicing_index = len(olditems) if slicing_argparam in argparamlist: newitems.append(item) else: olditems.append(item) if newitems: newignore = ignore.copy() newignore.add(slicing_argparam) newitems = parametrize_sorted(newitems + olditems[slicing_index:], newignore, cache, scopenum) old1 = parametrize_sorted(olditems[:slicing_index], newignore, cache, scopenum+1) return old1 + newitems else: olditems = parametrize_sorted(olditems, ignore, cache, scopenum+1) return olditems + newitems def getfuncargparams(item, ignore, scopenum, cache): """ return list of (arg,param) tuple, sorted by broader scope first. """ assert scopenum < 3 # function try: cs = item.callspec except AttributeError: return [] if scopenum == 0: argparams = [x for x in cs.params.items() if x not in ignore and cs._arg2scopenum[x[0]] == scopenum] elif scopenum == 1: # module argparams = [] for argname, param in cs.params.items(): if cs._arg2scopenum[argname] == scopenum: key = (argname, param, item.fspath) if key in ignore: continue argparams.append(key) elif scopenum == 2: # class argparams = [] for argname, param in cs.params.items(): if cs._arg2scopenum[argname] == scopenum: l = cache.setdefault(item.fspath, []) try: i = l.index(item.cls) except ValueError: i = len(l) l.append(item.cls) key = (argname, param, item.fspath, i) if key in ignore: continue argparams.append(key) #elif scopenum == 3: # argparams = [] # for argname, param in cs.params.items(): # if cs._arg2scopenum[argname] == scopenum: # key = (argname, param, getfslineno(item.obj)) # if key in ignore: # continue # argparams.append(key) return argparams def xunitsetup(obj, name): meth = getattr(obj, name, None) if meth is not None: if not hasattr(meth, "_pytestfixturefunction"): return meth