test_ok2/_pytest/core.py

"""
pytest PluginManager, basic initialization and tracing.
"""
import os
import sys
import inspect
import py
# don't import pytest to avoid circular imports

assert py.__version__.split(".")[:2] >= ['1', '4'], ("installation problem: "
    "%s is too old, remove or upgrade 'py'" % (py.__version__))

py3 = sys.version_info > (3,0)

class TagTracer:
    def __init__(self):
        self._tag2proc = {}
        self.writer = None
        self.indent = 0

    def get(self, name):
        return TagTracerSub(self, (name,))

    def format_message(self, tags, args):
        if isinstance(args[-1], dict):
            extra = args[-1]
            args = args[:-1]
        else:
            extra = {}

        content = " ".join(map(str, args))
        indent = "  " * self.indent

        lines = [
            "%s%s [%s]\n" %(indent, content, ":".join(tags))
        ]

        for name, value in extra.items():
            lines.append("%s    %s: %s\n" % (indent, name, value))
        return lines

    def processmessage(self, tags, args):
        if self.writer is not None and args:
            lines = self.format_message(tags, args)
            self.writer(''.join(lines))
        try:
            self._tag2proc[tags](tags, args)
        except KeyError:
            pass

    def setwriter(self, writer):
        self.writer = writer

    def setprocessor(self, tags, processor):
        if isinstance(tags, str):
            tags = tuple(tags.split(":"))
        else:
            assert isinstance(tags, tuple)
        self._tag2proc[tags] = processor

class TagTracerSub:
    def __init__(self, root, tags):
        self.root = root
        self.tags = tags
    def __call__(self, *args):
        self.root.processmessage(self.tags, args)
    def setmyprocessor(self, processor):
        self.root.setprocessor(self.tags, processor)
    def get(self, name):
        return self.__class__(self.root, self.tags + (name,))


def add_method_wrapper(cls, wrapper_func):
    """ Substitute the function named "wrapperfunc.__name__" at class
    "cls" with a function that wraps the call to the original function.
    Return an undo function which can be called to reset the class to use
    the old method again.

    wrapper_func is called with the same arguments as the method
    it wraps and its result is used as a wrap_controller for
    calling the original function.
    """
    name = wrapper_func.__name__
    oldcall = getattr(cls, name)
    def wrap_exec(*args, **kwargs):
        gen = wrapper_func(*args, **kwargs)
        return wrapped_call(gen, lambda: oldcall(*args, **kwargs))

    setattr(cls, name, wrap_exec)
    return lambda: setattr(cls, name, oldcall)

def raise_wrapfail(wrap_controller, msg):
    co = wrap_controller.gi_code
    raise RuntimeError("wrap_controller at %r %s:%d %s" %
                   (co.co_name, co.co_filename, co.co_firstlineno, msg))

def wrapped_call(wrap_controller, func):
    """ Wrap calling to a function with a generator which needs to yield
    exactly once.  The yield point will trigger calling the wrapped function
    and return its CallOutcome to the yield point.  The generator then needs
    to finish (raise StopIteration) in order for the wrapped call to complete.
    """
    try:
        next(wrap_controller)   # first yield
    except StopIteration:
        raise_wrapfail(wrap_controller, "did not yield")
    call_outcome = CallOutcome(func)
    try:
        wrap_controller.send(call_outcome)
        raise_wrapfail(wrap_controller, "has second yield")
    except StopIteration:
        pass
    return call_outcome.get_result()


class CallOutcome:
    """ Outcome of a function call, either an exception or a proper result.
    Calling the ``get_result`` method will return the result or reraise
    the exception raised when the function was called. """
    excinfo = None
    def __init__(self, func):
        try:
            self.result = func()
        except BaseException:
            self.excinfo = sys.exc_info()

    def force_result(self, result):
        self.result = result
        self.excinfo = None

    def get_result(self):
        if self.excinfo is None:
            return self.result
        else:
            ex = self.excinfo
            if py3:
                raise ex[1].with_traceback(ex[2])
            py.builtin._reraise(*ex)


class PluginManager(object):
    def __init__(self, hookspecs=None, prefix="pytest_"):
        self._name2plugin = {}
        self._plugins = []
        self._conftestplugins = []
        self._plugin2hookcallers = {}
        self._warnings = []
        self.trace = TagTracer().get("pluginmanage")
        self._plugin_distinfo = []
        self._shutdown = []
        self.hook = HookRelay(hookspecs or [], pm=self, prefix=prefix)

    def set_tracing(self, writer):
        self.trace.root.setwriter(writer)
        # reconfigure HookCalling to perform tracing
        assert not hasattr(self, "_wrapping")
        self._wrapping = True

        def _docall(self, methods, kwargs):
            trace = self.hookrelay.trace
            trace.root.indent += 1
            trace(self.name, kwargs)
            box = yield
            if box.excinfo is None:
                trace("finish", self.name, "-->", box.result)
            trace.root.indent -= 1

        undo = add_method_wrapper(HookCaller, _docall)
        self.add_shutdown(undo)

    def do_configure(self, config):
        # backward compatibility
        config.do_configure()

    def set_register_callback(self, callback):
        assert not hasattr(self, "_registercallback")
        self._registercallback = callback

    def register(self, plugin, name=None, prepend=False, conftest=False):
        if self._name2plugin.get(name, None) == -1:
            return
        name = name or getattr(plugin, '__name__', str(id(plugin)))
        if self.isregistered(plugin, name):
            raise ValueError("Plugin already registered: %s=%s\n%s" %(
                              name, plugin, self._name2plugin))
        #self.trace("registering", name, plugin)
        reg = getattr(self, "_registercallback", None)
        if reg is not None:
            reg(plugin, name)  # may call addhooks
        hookcallers = list(self.hook._scan_plugin(plugin))
        self._plugin2hookcallers[plugin] = hookcallers
        self._name2plugin[name] = plugin
        if conftest:
            self._conftestplugins.append(plugin)
        else:
            if not prepend:
                self._plugins.append(plugin)
            else:
                self._plugins.insert(0, plugin)
        # finally make sure that the methods of the new plugin take part
        for hookcaller in hookcallers:
            hookcaller.scan_methods()
        return True

    def unregister(self, plugin):
        try:
            self._plugins.remove(plugin)
        except KeyError:
            self._conftestplugins.remove(plugin)
        for name, value in list(self._name2plugin.items()):
            if value == plugin:
                del self._name2plugin[name]
        hookcallers = self._plugin2hookcallers.pop(plugin)
        for hookcaller in hookcallers:
            hookcaller.scan_methods()

    def add_shutdown(self, func):
        self._shutdown.append(func)

    def ensure_shutdown(self):
        while self._shutdown:
            func = self._shutdown.pop()
            func()
        self._plugins = self._conftestplugins = []
        self._name2plugin.clear()

    def isregistered(self, plugin, name=None):
        if self.getplugin(name) is not None:
            return True
        return plugin in self._plugins or plugin in self._conftestplugins

    def addhooks(self, spec, prefix="pytest_"):
        self.hook._addhooks(spec, prefix=prefix)

    def getplugins(self):
        return self._plugins + self._conftestplugins

    def skipifmissing(self, name):
        if not self.hasplugin(name):
            import pytest
            pytest.skip("plugin %r is missing" % name)

    def hasplugin(self, name):
        return bool(self.getplugin(name))

    def getplugin(self, name):
        if name is None:
            return None
        try:
            return self._name2plugin[name]
        except KeyError:
            return self._name2plugin.get("_pytest." + name, None)

    # API for bootstrapping
    #
    def _envlist(self, varname):
        val = os.environ.get(varname, None)
        if val is not None:
            return val.split(',')
        return ()

    def consider_env(self):
        for spec in self._envlist("PYTEST_PLUGINS"):
            self.import_plugin(spec)

    def consider_setuptools_entrypoints(self):
        try:
            from pkg_resources import iter_entry_points, DistributionNotFound
        except ImportError:
            return # XXX issue a warning
        for ep in iter_entry_points('pytest11'):
            name = ep.name
            if name.startswith("pytest_"):
                name = name[7:]
            if ep.name in self._name2plugin or name in self._name2plugin:
                continue
            try:
                plugin = ep.load()
            except DistributionNotFound:
                continue
            self._plugin_distinfo.append((ep.dist, plugin))
            self.register(plugin, name=name)

    def consider_preparse(self, args):
        for opt1,opt2 in zip(args, args[1:]):
            if opt1 == "-p":
                self.consider_pluginarg(opt2)

    def consider_pluginarg(self, arg):
        if arg.startswith("no:"):
            name = arg[3:]
            plugin = self.getplugin(name)
            if plugin is not None:
                self.unregister(plugin)
            self._name2plugin[name] = -1
        else:
            if self.getplugin(arg) is None:
                self.import_plugin(arg)

    def consider_conftest(self, conftestmodule):
        if self.register(conftestmodule, name=conftestmodule.__file__,
                         conftest=True):
            self.consider_module(conftestmodule)

    def consider_module(self, mod):
        attr = getattr(mod, "pytest_plugins", ())
        if attr:
            if not isinstance(attr, (list, tuple)):
                attr = (attr,)
            for spec in attr:
                self.import_plugin(spec)

    def import_plugin(self, modname):
        assert isinstance(modname, str)
        if self.getplugin(modname) is not None:
            return
        try:
            mod = importplugin(modname)
        except KeyboardInterrupt:
            raise
        except ImportError:
            if modname.startswith("pytest_"):
                return self.import_plugin(modname[7:])
            raise
        except:
            e = sys.exc_info()[1]
            import pytest
            if not hasattr(pytest, 'skip') or not isinstance(e, pytest.skip.Exception):
                raise
            self._warnings.append("skipped plugin %r: %s" %((modname, e.msg)))
        else:
            self.register(mod, modname)
            self.consider_module(mod)

    def listattr(self, attrname, plugins=None):
        if plugins is None:
            plugins = self._plugins + self._conftestplugins
        l = []
        last = []
        wrappers = []
        for plugin in plugins:
            try:
                meth = getattr(plugin, attrname)
            except AttributeError:
                continue
            if hasattr(meth, 'hookwrapper'):
                wrappers.append(meth)
            elif hasattr(meth, 'tryfirst'):
                last.append(meth)
            elif hasattr(meth, 'trylast'):
                l.insert(0, meth)
            else:
                l.append(meth)
        l.extend(last)
        l.extend(wrappers)
        return l

    def call_plugin(self, plugin, methname, kwargs):
        return MultiCall(methods=self.listattr(methname, plugins=[plugin]),
                kwargs=kwargs, firstresult=True).execute()


def importplugin(importspec):
    name = importspec
    try:
        mod = "_pytest." + name
        __import__(mod)
        return sys.modules[mod]
    except ImportError:
        __import__(importspec)
        return sys.modules[importspec]

class MultiCall:
    """ execute a call into multiple python functions/methods. """

    def __init__(self, methods, kwargs, firstresult=False):
        self.methods = list(methods)
        self.kwargs = kwargs
        self.kwargs["__multicall__"] = self
        self.results = []
        self.firstresult = firstresult

    def __repr__(self):
        status = "%d results, %d meths" % (len(self.results), len(self.methods))
        return "<MultiCall %s, kwargs=%r>" %(status, self.kwargs)

    def execute(self):
        all_kwargs = self.kwargs
        while self.methods:
            method = self.methods.pop()
            args = [all_kwargs[argname] for argname in varnames(method)]
            if hasattr(method, "hookwrapper"):
                return wrapped_call(method(*args), self.execute)
            res = method(*args)
            if res is not None:
                self.results.append(res)
                if self.firstresult:
                    return res
        if not self.firstresult:
            return self.results


def varnames(func, startindex=None):
    """ return argument name tuple for a function, method, class or callable.

    In case of a class, its "__init__" method is considered.
    For methods the "self" parameter is not included unless you are passing
    an unbound method with Python3 (which has no supports for unbound methods)
    """
    cache = getattr(func, "__dict__", {})
    try:
        return cache["_varnames"]
    except KeyError:
        pass
    if inspect.isclass(func):
        try:
            func = func.__init__
        except AttributeError:
            return ()
        startindex = 1
    else:
        if not inspect.isfunction(func) and not inspect.ismethod(func):
            func = getattr(func, '__call__', func)
        if startindex is None:
            startindex = int(inspect.ismethod(func))

    rawcode = py.code.getrawcode(func)
    try:
        x = rawcode.co_varnames[startindex:rawcode.co_argcount]
    except AttributeError:
        x = ()
    else:
        defaults = func.__defaults__
        if defaults:
            x = x[:-len(defaults)]
    try:
        cache["_varnames"] = x
    except TypeError:
        pass
    return x


class HookRelay:
    def __init__(self, hookspecs, pm, prefix="pytest_"):
        if not isinstance(hookspecs, list):
            hookspecs = [hookspecs]
        self._pm = pm
        self.trace = pm.trace.root.get("hook")
        self.prefix = prefix
        for hookspec in hookspecs:
            self._addhooks(hookspec, prefix)

    def _addhooks(self, hookspec, prefix):
        added = False
        isclass = int(inspect.isclass(hookspec))
        for name, method in vars(hookspec).items():
            if name.startswith(prefix):
                firstresult = getattr(method, 'firstresult', False)
                hc = HookCaller(self, name, firstresult=firstresult,
                                argnames=varnames(method, startindex=isclass))
                setattr(self, name, hc)
                added = True
                #print ("setting new hook", name)
        if not added:
            raise ValueError("did not find new %r hooks in %r" %(
                prefix, hookspec,))

    def _getcaller(self, name, plugins):
        caller = getattr(self, name)
        methods = self._pm.listattr(name, plugins=plugins)
        if methods:
            return caller.new_cached_caller(methods)
        return caller

    def _scan_plugin(self, plugin):
        def fail(msg, *args):
            name = getattr(plugin, '__name__', plugin)
            raise PluginValidationError("plugin %r\n%s" %(name, msg % args))

        for name in dir(plugin):
            if not name.startswith(self.prefix):
                continue
            hook = getattr(self, name, None)
            method = getattr(plugin, name)
            if hook is None:
                is_optional = getattr(method, 'optionalhook', False)
                if not isgenerichook(name) and not is_optional:
                    fail("found unknown hook: %r", name)
                continue
            for arg in varnames(method):
                if arg not in hook.argnames:
                    fail("argument %r not available\n"
                         "actual definition: %s\n"
                         "available hookargs: %s",
                         arg, formatdef(method),
                           ", ".join(hook.argnames))
            yield hook


class HookCaller:
    def __init__(self, hookrelay, name, firstresult, argnames, methods=()):
        self.hookrelay = hookrelay
        self.name = name
        self.firstresult = firstresult
        self.argnames = ["__multicall__"]
        self.argnames.extend(argnames)
        assert "self" not in argnames  # sanity check
        self.methods = methods

    def new_cached_caller(self, methods):
        return HookCaller(self.hookrelay, self.name, self.firstresult,
                          argnames=self.argnames, methods=methods)

    def __repr__(self):
        return "<HookCaller %r>" %(self.name,)

    def scan_methods(self):
        self.methods = self.hookrelay._pm.listattr(self.name)

    def __call__(self, **kwargs):
        return self._docall(self.methods, kwargs)

    def callextra(self, methods, **kwargs):
        return self._docall(self.methods + methods, kwargs)

    def _docall(self, methods, kwargs):
        return MultiCall(methods, kwargs,
                         firstresult=self.firstresult).execute()


class PluginValidationError(Exception):
    """ plugin failed validation. """

def isgenerichook(name):
    return name == "pytest_plugins" or \
           name.startswith("pytest_funcarg__")

def formatdef(func):
    return "%s%s" % (
        func.__name__,
        inspect.formatargspec(*inspect.getargspec(func))
    )