Source code for _pytest.pytester

""" (disabled by default) support for testing pytest and pytest plugins. """
import codecs
import gc
import os
import platform
import re
import subprocess
import sys
import time
import traceback
from fnmatch import fnmatch

from py.builtin import print_

from _pytest._code import Source
import py
import pytest
from _pytest.main import Session, EXIT_OK

def pytest_addoption(parser):
    # group = parser.getgroup("pytester", "pytester (self-tests) options")
           action="store_true", dest="lsof", default=False,
           help=("run FD checks if lsof is available"))

    parser.addoption('--runpytest', default="inprocess", dest="runpytest",
           choices=("inprocess", "subprocess", ),
           help=("run pytest sub runs in tests using an 'inprocess' "
                 "or 'subprocess' (python -m main) method"))

def pytest_configure(config):
    # This might be called multiple times. Only take the first.
    global _pytest_fullpath
    except NameError:
        _pytest_fullpath = os.path.abspath(pytest.__file__.rstrip("oc"))
        _pytest_fullpath = _pytest_fullpath.replace("$py.class", ".py")

    if config.getvalue("lsof"):
        checker = LsofFdLeakChecker()
        if checker.matching_platform():

class LsofFdLeakChecker(object):
    def get_open_files(self):
        out = self._exec_lsof()
        open_files = self._parse_lsof_output(out)
        return open_files

    def _exec_lsof(self):
        pid = os.getpid()
        return py.process.cmdexec("lsof -Ffn0 -p %d" % pid)

    def _parse_lsof_output(self, out):
        def isopen(line):
            return line.startswith('f') and ("deleted" not in line and
                'mem' not in line and "txt" not in line and 'cwd' not in line)

        open_files = []

        for line in out.split("\n"):
            if isopen(line):
                fields = line.split('\0')
                fd = fields[0][1:]
                filename = fields[1][1:]
                if filename.startswith('/'):
                    open_files.append((fd, filename))

        return open_files

    def matching_platform(self):
            py.process.cmdexec("lsof -v")
        except (py.process.cmdexec.Error, UnicodeDecodeError):
            # cmdexec may raise UnicodeDecodeError on Windows systems
            # with locale other than english:
            return False
            return True

    @pytest.hookimpl(hookwrapper=True, tryfirst=True)
    def pytest_runtest_item(self, item):
        lines1 = self.get_open_files()
        if hasattr(sys, "pypy_version_info"):
        lines2 = self.get_open_files()

        new_fds = set([t[0] for t in lines2]) - set([t[0] for t in lines1])
        leaked_files = [t for t in lines2 if t[0] in new_fds]
        if leaked_files:
            error = []
            error.append("***** %s FD leakage detected" % len(leaked_files))
            error.extend([str(f) for f in leaked_files])
            error.append("*** Before:")
            error.extend([str(f) for f in lines1])
            error.append("*** After:")
            error.extend([str(f) for f in lines2])
            error.append("*** function %s:%s: %s " % item.location)
  "\n".join(error), pytrace=False)

# XXX copied from execnet's - needs to be merged
winpymap = {
    'python2.7': r'C:\Python27\python.exe',
    'python2.6': r'C:\Python26\python.exe',
    'python3.1': r'C:\Python31\python.exe',
    'python3.2': r'C:\Python32\python.exe',
    'python3.3': r'C:\Python33\python.exe',
    'python3.4': r'C:\Python34\python.exe',
    'python3.5': r'C:\Python35\python.exe',

def getexecutable(name, cache={}):
        return cache[name]
    except KeyError:
        executable = py.path.local.sysfind(name)
        if executable:
            if name == "jython":
                import subprocess
                popen = subprocess.Popen([str(executable), "--version"],
                    universal_newlines=True, stderr=subprocess.PIPE)
                out, err = popen.communicate()
                if not err or "2.5" not in err:
                    executable = None
                if "2.5.2" in err:
                    executable = None #
        cache[name] = executable
        return executable

@pytest.fixture(params=['python2.6', 'python2.7', 'python3.3', "python3.4",
                        'pypy', 'pypy3'])
def anypython(request):
    name = request.param
    executable = getexecutable(name)
    if executable is None:
        if sys.platform == "win32":
            executable = winpymap.get(name, None)
            if executable:
                executable = py.path.local(executable)
                if executable.check():
                    return executable
        pytest.skip("no suitable %s found" % (name,))
    return executable

# used at least by pytest-xdist plugin
def _pytest(request):
    """ Return a helper which offers a gethookrecorder(hook)
    method which returns a HookRecorder instance which helps
    to make assertions about called hooks.
    return PytestArg(request)

class PytestArg:
    def __init__(self, request):
        self.request = request

    def gethookrecorder(self, hook):
        hookrecorder = HookRecorder(hook._pm)
        return hookrecorder

def get_public_names(l):
    """Only return names from iterator l without a leading underscore."""
    return [x for x in l if x[0] != "_"]

class ParsedCall:
    def __init__(self, name, kwargs):
        self._name = name

    def __repr__(self):
        d = self.__dict__.copy()
        del d['_name']
        return "<ParsedCall %r(**%r)>" %(self._name, d)

class HookRecorder:
    """Record all hooks called in a plugin manager.

    This wraps all the hook calls in the plugin manager, recording
    each call before propagating the normal calls.


    def __init__(self, pluginmanager):
        self._pluginmanager = pluginmanager
        self.calls = []

        def before(hook_name, hook_impls, kwargs):
            self.calls.append(ParsedCall(hook_name, kwargs))

        def after(outcome, hook_name, hook_impls, kwargs):

        self._undo_wrapping = pluginmanager.add_hookcall_monitoring(before, after)

    def finish_recording(self):

    def getcalls(self, names):
        if isinstance(names, str):
            names = names.split()
        return [call for call in self.calls if call._name in names]

    def assert_contains(self, entries):
        __tracebackhide__ = True
        i = 0
        entries = list(entries)
        backlocals = sys._getframe(1).f_locals
        while entries:
            name, check = entries.pop(0)
            for ind, call in enumerate(self.calls[i:]):
                if call._name == name:
                    print_("NAMEMATCH", name, call)
                    if eval(check, backlocals, call.__dict__):
                        print_("CHECKERMATCH", repr(check), "->", call)
                        print_("NOCHECKERMATCH", repr(check), "-", call)
                    i += ind + 1
                print_("NONAMEMATCH", name, "with", call)
      "could not find %r check %r" % (name, check))

    def popcall(self, name):
        __tracebackhide__ = True
        for i, call in enumerate(self.calls):
            if call._name == name:
                del self.calls[i]
                return call
        lines = ["could not find call %r, in:" % (name,)]
        lines.extend(["  %s" % str(x) for x in self.calls])"\n".join(lines))

    def getcall(self, name):
        l = self.getcalls(name)
        assert len(l) == 1, (name, l)
        return l[0]

    # functionality for test reports

    def getreports(self,
                   names="pytest_runtest_logreport pytest_collectreport"):
        return [ for x in self.getcalls(names)]

    def matchreport(self, inamepart="",
        names="pytest_runtest_logreport pytest_collectreport", when=None):
        """ return a testreport whose dotted import path matches """
        l = []
        for rep in self.getreports(names=names):
                if not when and rep.when != "call" and rep.passed:
                    # setup/teardown passing reports - let's ignore those
            except AttributeError:
            if when and getattr(rep, 'when', None) != when:
            if not inamepart or inamepart in rep.nodeid.split("::"):
        if not l:
            raise ValueError("could not find test report matching %r: "
                             "no test reports at all!" % (inamepart,))
        if len(l) > 1:
            raise ValueError(
                "found 2 or more testreports matching %r: %s" %(inamepart, l))
        return l[0]

    def getfailures(self,
                    names='pytest_runtest_logreport pytest_collectreport'):
        return [rep for rep in self.getreports(names) if rep.failed]

    def getfailedcollections(self):
        return self.getfailures('pytest_collectreport')

    def listoutcomes(self):
        passed = []
        skipped = []
        failed = []
        for rep in self.getreports(
            "pytest_collectreport pytest_runtest_logreport"):
            if rep.passed:
                if getattr(rep, "when", None) == "call":
            elif rep.skipped:
            elif rep.failed:
        return passed, skipped, failed

    def countoutcomes(self):
        return [len(x) for x in self.listoutcomes()]

    def assertoutcome(self, passed=0, skipped=0, failed=0):
        realpassed, realskipped, realfailed = self.listoutcomes()
        assert passed == len(realpassed)
        assert skipped == len(realskipped)
        assert failed == len(realfailed)

    def clear(self):
        self.calls[:] = []

def linecomp(request):
    return LineComp()

def pytest_funcarg__LineMatcher(request):
    return LineMatcher

def testdir(request, tmpdir_factory):
    return Testdir(request, tmpdir_factory)

rex_outcome = re.compile("(\d+) ([\w-]+)")
[docs]class RunResult: """The result of running a command. Attributes: :ret: The return value. :outlines: List of lines captured from stdout. :errlines: List of lines captures from stderr. :stdout: :py:class:`LineMatcher` of stdout, use ``stdout.str()`` to reconstruct stdout or the commonly used ``stdout.fnmatch_lines()`` method. :stderrr: :py:class:`LineMatcher` of stderr. :duration: Duration in seconds. """ def __init__(self, ret, outlines, errlines, duration): self.ret = ret self.outlines = outlines self.errlines = errlines self.stdout = LineMatcher(outlines) self.stderr = LineMatcher(errlines) self.duration = duration
[docs] def parseoutcomes(self): """ Return a dictionary of outcomestring->num from parsing the terminal output that the test process produced.""" for line in reversed(self.outlines): if 'seconds' in line: outcomes = rex_outcome.findall(line) if outcomes: d = {} for num, cat in outcomes: d[cat] = int(num) return d
[docs] def assert_outcomes(self, passed=0, skipped=0, failed=0): """ assert that the specified outcomes appear with the respective numbers (0 means it didn't occur) in the text output from a test run.""" d = self.parseoutcomes() assert passed == d.get("passed", 0) assert skipped == d.get("skipped", 0) assert failed == d.get("failed", 0)
[docs]class Testdir: """Temporary test directory with tools to test/run py.test itself. This is based on the ``tmpdir`` fixture but provides a number of methods which aid with testing py.test itself. Unless :py:meth:`chdir` is used all methods will use :py:attr:`tmpdir` as current working directory. Attributes: :tmpdir: The :py:class:`py.path.local` instance of the temporary directory. :plugins: A list of plugins to use with :py:meth:`parseconfig` and :py:meth:`runpytest`. Initially this is an empty list but plugins can be added to the list. The type of items to add to the list depend on the method which uses them so refer to them for details. """ def __init__(self, request, tmpdir_factory): self.request = request # XXX remove duplication with tmpdir plugin basetmp = tmpdir_factory.ensuretemp("testdir") name = request.function.__name__ for i in range(100): try: tmpdir = basetmp.mkdir(name + str(i)) except py.error.EEXIST: continue break self.tmpdir = tmpdir self.plugins = [] self._savesyspath = (list(sys.path), list(sys.meta_path)) self._savemodulekeys = set(sys.modules) self.chdir() # always chdir self.request.addfinalizer(self.finalize) method = self.request.config.getoption("--runpytest") if method == "inprocess": self._runpytest_method = self.runpytest_inprocess elif method == "subprocess": self._runpytest_method = self.runpytest_subprocess def __repr__(self): return "<Testdir %r>" % (self.tmpdir,) def finalize(self): """Clean up global state artifacts. Some methods modify the global interpreter state and this tries to clean this up. It does not remove the temporary directory however so it can be looked at after the test run has finished. """ sys.path[:], sys.meta_path[:] = self._savesyspath if hasattr(self, '_olddir'): self._olddir.chdir() self.delete_loaded_modules() def delete_loaded_modules(self): """Delete modules that have been loaded during a test. This allows the interpreter to catch module changes in case the module is re-imported. """ for name in set(sys.modules).difference(self._savemodulekeys): # it seems zope.interfaces is keeping some state # (used by twisted related tests) if name != "zope.interface": del sys.modules[name] def make_hook_recorder(self, pluginmanager): """Create a new :py:class:`HookRecorder` for a PluginManager.""" assert not hasattr(pluginmanager, "reprec") pluginmanager.reprec = reprec = HookRecorder(pluginmanager) self.request.addfinalizer(reprec.finish_recording) return reprec def chdir(self): """Cd into the temporary directory. This is done automatically upon instantiation. """ old = self.tmpdir.chdir() if not hasattr(self, '_olddir'): self._olddir = old def _makefile(self, ext, args, kwargs): items = list(kwargs.items()) if args: source = py.builtin._totext("\n").join( map(py.builtin._totext, args)) + py.builtin._totext("\n") basename = self.request.function.__name__ items.insert(0, (basename, source)) ret = None for name, value in items: p = self.tmpdir.join(name).new(ext=ext) source = Source(value) def my_totext(s, encoding="utf-8"): if py.builtin._isbytes(s): s = py.builtin._totext(s, encoding=encoding) return s source_unicode = "\n".join([my_totext(line) for line in source.lines]) source = py.builtin._totext(source_unicode) content = source.strip().encode("utf-8") # + "\n" #content = content.rstrip() + "\n" p.write(content, "wb") if ret is None: ret = p return ret def makefile(self, ext, *args, **kwargs): """Create a new file in the testdir. ext: The extension the file should use, including the dot. E.g. ".py". args: All args will be treated as strings and joined using newlines. The result will be written as contents to the file. The name of the file will be based on the test function requesting this fixture. E.g. "testdir.makefile('.txt', 'line1', 'line2')" kwargs: Each keyword is the name of a file, while the value of it will be written as contents of the file. E.g. "testdir.makefile('.ini', pytest='[pytest]\naddopts=-rs\n')" """ return self._makefile(ext, args, kwargs)
[docs] def makeconftest(self, source): """Write a file with 'source' as contents.""" return self.makepyfile(conftest=source)
def makeini(self, source): """Write a tox.ini file with 'source' as contents.""" return self.makefile('.ini', tox=source) def getinicfg(self, source): """Return the pytest section from the tox.ini config file.""" p = self.makeini(source) return py.iniconfig.IniConfig(p)['pytest']
[docs] def makepyfile(self, *args, **kwargs): """Shortcut for .makefile() with a .py extension.""" return self._makefile('.py', args, kwargs)
def maketxtfile(self, *args, **kwargs): """Shortcut for .makefile() with a .txt extension.""" return self._makefile('.txt', args, kwargs) def syspathinsert(self, path=None): """Prepend a directory to sys.path, defaults to :py:attr:`tmpdir`. This is undone automatically after the test. """ if path is None: path = self.tmpdir sys.path.insert(0, str(path)) # a call to syspathinsert() usually means that the caller # wants to import some dynamically created files. # with python3 we thus invalidate import caches. self._possibly_invalidate_import_caches() def _possibly_invalidate_import_caches(self): # invalidate caches if we can (py33 and above) try: import importlib except ImportError: pass else: if hasattr(importlib, "invalidate_caches"): importlib.invalidate_caches() def mkdir(self, name): """Create a new (sub)directory.""" return self.tmpdir.mkdir(name) def mkpydir(self, name): """Create a new python package. This creates a (sub)direcotry with an empty ```` file so that is recognised as a python package. """ p = self.mkdir(name) p.ensure("") return p Session = Session def getnode(self, config, arg): """Return the collection node of a file. :param config: :py:class:`_pytest.config.Config` instance, see :py:meth:`parseconfig` and :py:meth:`parseconfigure` to create the configuration. :param arg: A :py:class:`py.path.local` instance of the file. """ session = Session(config) assert '::' not in str(arg) p = py.path.local(arg) config.hook.pytest_sessionstart(session=session) res = session.perform_collect([str(p)], genitems=False)[0] config.hook.pytest_sessionfinish(session=session, exitstatus=EXIT_OK) return res def getpathnode(self, path): """Return the collection node of a file. This is like :py:meth:`getnode` but uses :py:meth:`parseconfigure` to create the (configured) py.test Config instance. :param path: A :py:class:`py.path.local` instance of the file. """ config = self.parseconfigure(path) session = Session(config) x = session.fspath.bestrelpath(path) config.hook.pytest_sessionstart(session=session) res = session.perform_collect([x], genitems=False)[0] config.hook.pytest_sessionfinish(session=session, exitstatus=EXIT_OK) return res def genitems(self, colitems): """Generate all test items from a collection node. This recurses into the collection node and returns a list of all the test items contained within. """ session = colitems[0].session result = [] for colitem in colitems: result.extend(session.genitems(colitem)) return result def runitem(self, source): """Run the "test_func" Item. The calling test instance (the class which contains the test method) must provide a ``.getrunner()`` method which should return a runner which can run the test protocol for a single item, like e.g. :py:func:`_pytest.runner.runtestprotocol`. """ # used from runner functional tests item = self.getitem(source) # the test class where we are called from wants to provide the runner testclassinstance = self.request.instance runner = testclassinstance.getrunner() return runner(item) def inline_runsource(self, source, *cmdlineargs): """Run a test module in process using ``pytest.main()``. This run writes "source" into a temporary file and runs ``pytest.main()`` on it, returning a :py:class:`HookRecorder` instance for the result. :param source: The source code of the test module. :param cmdlineargs: Any extra command line arguments to use. :return: :py:class:`HookRecorder` instance of the result. """ p = self.makepyfile(source) l = list(cmdlineargs) + [p] return self.inline_run(*l) def inline_genitems(self, *args): """Run ``pytest.main(['--collectonly'])`` in-process. Retuns a tuple of the collected items and a :py:class:`HookRecorder` instance. This runs the :py:func:`pytest.main` function to run all of py.test inside the test process itself like :py:meth:`inline_run`. However the return value is a tuple of the collection items and a :py:class:`HookRecorder` instance. """ rec = self.inline_run("--collect-only", *args) items = [x.item for x in rec.getcalls("pytest_itemcollected")] return items, rec def inline_run(self, *args, **kwargs): """Run ``pytest.main()`` in-process, returning a HookRecorder. This runs the :py:func:`pytest.main` function to run all of py.test inside the test process itself. This means it can return a :py:class:`HookRecorder` instance which gives more detailed results from then run then can be done by matching stdout/stderr from :py:meth:`runpytest`. :param args: Any command line arguments to pass to :py:func:`pytest.main`. :param plugin: (keyword-only) Extra plugin instances the ``pytest.main()`` instance should use. :return: A :py:class:`HookRecorder` instance. """ rec = [] class Collect: def pytest_configure(x, config): rec.append(self.make_hook_recorder(config.pluginmanager)) plugins = kwargs.get("plugins") or [] plugins.append(Collect()) ret = pytest.main(list(args), plugins=plugins) self.delete_loaded_modules() if len(rec) == 1: reprec = rec.pop() else: class reprec: pass reprec.ret = ret # typically we reraise keyboard interrupts from the child run # because it's our user requesting interruption of the testing if ret == 2 and not kwargs.get("no_reraise_ctrlc"): calls = reprec.getcalls("pytest_keyboard_interrupt") if calls and calls[-1].excinfo.type == KeyboardInterrupt: raise KeyboardInterrupt() return reprec
[docs] def runpytest_inprocess(self, *args, **kwargs): """ Return result of running pytest in-process, providing a similar interface to what self.runpytest() provides. """ if kwargs.get("syspathinsert"): self.syspathinsert() now = time.time() capture = try: try: reprec = self.inline_run(*args, **kwargs) except SystemExit as e: class reprec: ret = e.args[0] except Exception: traceback.print_exc() class reprec: ret = 3 finally: out, err = capture.reset() sys.stdout.write(out) sys.stderr.write(err) res = RunResult(reprec.ret, out.split("\n"), err.split("\n"), time.time()-now) res.reprec = reprec return res
[docs] def runpytest(self, *args, **kwargs): """ Run pytest inline or in a subprocess, depending on the command line option "--runpytest" and return a :py:class:`RunResult`. """ args = self._ensure_basetemp(args) return self._runpytest_method(*args, **kwargs)
def _ensure_basetemp(self, args): args = [str(x) for x in args] for x in args: if str(x).startswith('--basetemp'): #print ("basedtemp exists: %s" %(args,)) break else: args.append("--basetemp=%s" % self.tmpdir.dirpath('basetemp')) #print ("added basetemp: %s" %(args,)) return args def parseconfig(self, *args): """Return a new py.test Config instance from given commandline args. This invokes the py.test bootstrapping code in _pytest.config to create a new :py:class:`_pytest.core.PluginManager` and call the pytest_cmdline_parse hook to create new :py:class:`_pytest.config.Config` instance. If :py:attr:`plugins` has been populated they should be plugin modules which will be registered with the PluginManager. """ args = self._ensure_basetemp(args) import _pytest.config config = _pytest.config._prepareconfig(args, self.plugins) # we don't know what the test will do with this half-setup config # object and thus we make sure it gets unconfigured properly in any # case (otherwise capturing could still be active, for example) self.request.addfinalizer(config._ensure_unconfigure) return config def parseconfigure(self, *args): """Return a new py.test configured Config instance. This returns a new :py:class:`_pytest.config.Config` instance like :py:meth:`parseconfig`, but also calls the pytest_configure hook. """ config = self.parseconfig(*args) config._do_configure() self.request.addfinalizer(config._ensure_unconfigure) return config def getitem(self, source, funcname="test_func"): """Return the test item for a test function. This writes the source to a python file and runs py.test's collection on the resulting module, returning the test item for the requested function name. :param source: The module source. :param funcname: The name of the test function for which the Item must be returned. """ items = self.getitems(source) for item in items: if == funcname: return item assert 0, "%r item not found in module:\n%s\nitems: %s" %( funcname, source, items) def getitems(self, source): """Return all test items collected from the module. This writes the source to a python file and runs py.test's collection on the resulting module, returning all test items contained within. """ modcol = self.getmodulecol(source) return self.genitems([modcol]) def getmodulecol(self, source, configargs=(), withinit=False): """Return the module collection node for ``source``. This writes ``source`` to a file using :py:meth:`makepyfile` and then runs the py.test collection on it, returning the collection node for the test module. :param source: The source code of the module to collect. :param configargs: Any extra arguments to pass to :py:meth:`parseconfigure`. :param withinit: Whether to also write a ```` file to the temporarly directory to ensure it is a package. """ kw = {self.request.function.__name__: Source(source).strip()} path = self.makepyfile(**kw) if withinit: self.makepyfile(__init__ = "#") self.config = config = self.parseconfigure(path, *configargs) node = self.getnode(config, path) return node def collect_by_name(self, modcol, name): """Return the collection node for name from the module collection. This will search a module collection node for a collection node matching the given name. :param modcol: A module collection node, see :py:meth:`getmodulecol`. :param name: The name of the node to return. """ for colitem in modcol._memocollect(): if == name: return colitem def popen(self, cmdargs, stdout, stderr, **kw): """Invoke subprocess.Popen. This calls subprocess.Popen making sure the current working directory is the PYTHONPATH. You probably want to use :py:meth:`run` instead. """ env = os.environ.copy() env['PYTHONPATH'] = os.pathsep.join(filter(None, [ str(os.getcwd()), env.get('PYTHONPATH', '')])) kw['env'] = env return subprocess.Popen(cmdargs, stdout=stdout, stderr=stderr, **kw) def run(self, *cmdargs): """Run a command with arguments. Run a process using subprocess.Popen saving the stdout and stderr. Returns a :py:class:`RunResult`. """ return self._run(*cmdargs) def _run(self, *cmdargs): cmdargs = [str(x) for x in cmdargs] p1 = self.tmpdir.join("stdout") p2 = self.tmpdir.join("stderr") print_("running:", ' '.join(cmdargs)) print_(" in:", str(py.path.local())) f1 =, "w", encoding="utf8") f2 =, "w", encoding="utf8") try: now = time.time() popen = self.popen(cmdargs, stdout=f1, stderr=f2, close_fds=(sys.platform != "win32")) ret = popen.wait() finally: f1.close() f2.close() f1 =, "r", encoding="utf8") f2 =, "r", encoding="utf8") try: out = err = finally: f1.close() f2.close() self._dump_lines(out, sys.stdout) self._dump_lines(err, sys.stderr) return RunResult(ret, out, err, time.time()-now) def _dump_lines(self, lines, fp): try: for line in lines: py.builtin.print_(line, file=fp) except UnicodeEncodeError: print("couldn't print to %s because of encoding" % (fp,)) def _getpytestargs(self): # we cannot use "(sys.executable,script)" # because on windows the script is e.g. a py.test.exe return (sys.executable, _pytest_fullpath,) # noqa def runpython(self, script): """Run a python script using sys.executable as interpreter. Returns a :py:class:`RunResult`. """ return, script) def runpython_c(self, command): """Run python -c "command", return a :py:class:`RunResult`.""" return, "-c", command)
[docs] def runpytest_subprocess(self, *args, **kwargs): """Run py.test as a subprocess with given arguments. Any plugins added to the :py:attr:`plugins` list will added using the ``-p`` command line option. Addtionally ``--basetemp`` is used put any temporary files and directories in a numbered directory prefixed with "runpytest-" so they do not conflict with the normal numberd pytest location for temporary files and directories. Returns a :py:class:`RunResult`. """ p = py.path.local.make_numbered_dir(prefix="runpytest-", keep=None, rootdir=self.tmpdir) args = ('--basetemp=%s' % p, ) + args #for x in args: # if '--confcutdir' in str(x): # break #else: # pass # args = ('--confcutdir=.',) + args plugins = [x for x in self.plugins if isinstance(x, str)] if plugins: args = ('-p', plugins[0]) + args args = self._getpytestargs() + args return*args)
def spawn_pytest(self, string, expect_timeout=10.0): """Run py.test using pexpect. This makes sure to use the right py.test and sets up the temporary directory locations. The pexpect child is returned. """ basetemp = self.tmpdir.mkdir("pexpect") invoke = " ".join(map(str, self._getpytestargs())) cmd = "%s --basetemp=%s %s" % (invoke, basetemp, string) return self.spawn(cmd, expect_timeout=expect_timeout) def spawn(self, cmd, expect_timeout=10.0): """Run a command using pexpect. The pexpect child is returned. """ pexpect = pytest.importorskip("pexpect", "3.0") if hasattr(sys, 'pypy_version_info') and '64' in platform.machine(): pytest.skip("pypy-64 bit not supported") if sys.platform == "darwin": pytest.xfail("pexpect does not work reliably on darwin?!") if sys.platform.startswith("freebsd"): pytest.xfail("pexpect does not work reliably on freebsd") logfile = self.tmpdir.join("spawn.out").open("wb") child = pexpect.spawn(cmd, logfile=logfile) self.request.addfinalizer(logfile.close) child.timeout = expect_timeout return child
def getdecoded(out): try: return out.decode("utf-8") except UnicodeDecodeError: return "INTERNAL not-utf8-decodeable, truncated string:\n%s" % (,) class LineComp: def __init__(self): self.stringio = def assert_contains_lines(self, lines2): """ assert that lines2 are contained (linearly) in lines1. return a list of extralines found. """ __tracebackhide__ = True val = self.stringio.getvalue() self.stringio.truncate(0) lines1 = val.split("\n") return LineMatcher(lines1).fnmatch_lines(lines2)
[docs]class LineMatcher: """Flexible matching of text. This is a convenience class to test large texts like the output of commands. The constructor takes a list of lines without their trailing newlines, i.e. ``text.splitlines()``. """ def __init__(self, lines): self.lines = lines
[docs] def str(self): """Return the entire original text.""" return "\n".join(self.lines)
def _getlines(self, lines2): if isinstance(lines2, str): lines2 = Source(lines2) if isinstance(lines2, Source): lines2 = lines2.strip().lines return lines2
[docs] def fnmatch_lines_random(self, lines2): """Check lines exist in the output. The argument is a list of lines which have to occur in the output, in any order. Each line can contain glob whildcards. """ lines2 = self._getlines(lines2) for line in lines2: for x in self.lines: if line == x or fnmatch(x, line): print_("matched: ", repr(line)) break else: raise ValueError("line %r not found in output" % line)
[docs] def get_lines_after(self, fnline): """Return all lines following the given line in the text. The given line can contain glob wildcards. """ for i, line in enumerate(self.lines): if fnline == line or fnmatch(line, fnline): return self.lines[i+1:] raise ValueError("line %r not found in output" % fnline)
[docs] def fnmatch_lines(self, lines2): """Search the text for matching lines. The argument is a list of lines which have to match and can use glob wildcards. If they do not match an is called. The matches and non-matches are also printed on stdout. """ def show(arg1, arg2): py.builtin.print_(arg1, arg2, file=sys.stderr) lines2 = self._getlines(lines2) lines1 = self.lines[:] nextline = None extralines = [] __tracebackhide__ = True for line in lines2: nomatchprinted = False while lines1: nextline = lines1.pop(0) if line == nextline: show("exact match:", repr(line)) break elif fnmatch(nextline, line): show("fnmatch:", repr(line)) show(" with:", repr(nextline)) break else: if not nomatchprinted: show("nomatch:", repr(line)) nomatchprinted = True show(" and:", repr(nextline)) extralines.append(nextline) else:"remains unmatched: %r, see stderr" % (line,))