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diff -rU3 greenlet-2.0.2-orig/src/greenlet/tests/leakcheck.py greenlet-2.0.2/src/greenlet/tests/leakcheck.py
--- greenlet-2.0.2-orig/src/greenlet/tests/leakcheck.py	2023-01-28 15:19:12.000000000 +0100
+++ greenlet-2.0.2/src/greenlet/tests/leakcheck.py	2023-06-14 17:49:32.395412453 +0200
@@ -30,39 +30,7 @@
 from functools import wraps
 import unittest
 
-
-import objgraph
-
-# graphviz 0.18 (Nov 7 2021), available only on Python 3.6 and newer,
-# has added type hints (sigh). It wants to use ``typing.Literal`` for
-# some stuff, but that's only available on Python 3.9+. If that's not
-# found, it creates a ``unittest.mock.MagicMock`` object and annotates
-# with that. These are GC'able objects, and doing almost *anything*
-# with them results in an explosion of objects. For example, trying to
-# compare them for equality creates new objects. This causes our
-# leakchecks to fail, with reports like:
-#
-# greenlet.tests.leakcheck.LeakCheckError: refcount increased by [337, 1333, 343, 430, 530, 643, 769]
-# _Call          1820      +546
-# dict           4094       +76
-# MagicProxy      585       +73
-# tuple          2693       +66
-# _CallList        24        +3
-# weakref        1441        +1
-# function       5996        +1
-# type            736        +1
-# cell            592        +1
-# MagicMock         8        +1
-#
-# To avoid this, we *could* filter this type of object out early. In
-# principle it could leak, but we don't use mocks in greenlet, so it
-# doesn't leak from us. However, a further issue is that ``MagicMock``
-# objects have subobjects that are also GC'able, like ``_Call``, and
-# those create new mocks of their own too. So we'd have to filter them
-# as well, and they're not public. That's OK, we can workaround the
-# problem by being very careful to never compare by equality or other
-# user-defined operators, only using object identity or other builtin
-# functions.
+# Edited for Fedora to avoid missing dependency
 
 RUNNING_ON_GITHUB_ACTIONS = os.environ.get('GITHUB_ACTIONS')
 RUNNING_ON_TRAVIS = os.environ.get('TRAVIS') or RUNNING_ON_GITHUB_ACTIONS
@@ -74,53 +42,15 @@
 ONLY_FAILING_LEAKCHECKS = os.environ.get('GREENLET_ONLY_FAILING_LEAKCHECKS')
 
 def ignores_leakcheck(func):
-    """
-    Ignore the given object during leakchecks.
-
-    Can be applied to a method, in which case the method will run, but
-    will not be subject to leak checks.
-
-    If applied to a class, the entire class will be skipped during leakchecks. This
-    is intended to be used for classes that are very slow and cause problems such as
-    test timeouts; typically it will be used for classes that are subclasses of a base
-    class and specify variants of behaviour (such as pool sizes).
-    """
-    func.ignore_leakcheck = True
     return func
 
 def fails_leakcheck(func):
-    """
-    Mark that the function is known to leak.
-    """
-    func.fails_leakcheck = True
-    if SKIP_FAILING_LEAKCHECKS:
-        func = unittest.skip("Skipping known failures")(func)
     return func
 
 class LeakCheckError(AssertionError):
     pass
 
-if hasattr(sys, 'getobjects'):
-    # In a Python build with ``--with-trace-refs``, make objgraph
-    # trace *all* the objects, not just those that are tracked by the
-    # GC
-    class _MockGC(object):
-        def get_objects(self):
-            return sys.getobjects(0) # pylint:disable=no-member
-        def __getattr__(self, name):
-            return getattr(gc, name)
-    objgraph.gc = _MockGC()
-    fails_strict_leakcheck = fails_leakcheck
-else:
-    def fails_strict_leakcheck(func):
-        """
-        Decorator for a function that is known to fail when running
-        strict (``sys.getobjects()``) leakchecks.
-
-        This type of leakcheck finds all objects, even those, such as
-        strings, which are not tracked by the garbage collector.
-        """
-        return func
+fails_strict_leakcheck = fails_leakcheck
 
 class ignores_types_in_strict_leakcheck(object):
     def __init__(self, types):
@@ -129,190 +59,5 @@
         func.leakcheck_ignore_types = self.types
         return func
 
-class _RefCountChecker(object):
-
-    # Some builtin things that we ignore
-    # XXX: Those things were ignored by gevent, but they're important here,
-    # presumably.
-    IGNORED_TYPES = () #(tuple, dict, types.FrameType, types.TracebackType)
-
-    def __init__(self, testcase, function):
-        self.testcase = testcase
-        self.function = function
-        self.deltas = []
-        self.peak_stats = {}
-        self.ignored_types = ()
-
-        # The very first time we are called, we have already been
-        # self.setUp() by the test runner, so we don't need to do it again.
-        self.needs_setUp = False
-
-    def _include_object_p(self, obj):
-        # pylint:disable=too-many-return-statements
-        #
-        # See the comment block at the top. We must be careful to
-        # avoid invoking user-defined operations.
-        if obj is self:
-            return False
-        kind = type(obj)
-        # ``self._include_object_p == obj`` returns NotImplemented
-        # for non-function objects, which causes the interpreter
-        # to try to reverse the order of arguments...which leads
-        # to the explosion of mock objects. We don't want that, so we implement
-        # the check manually.
-        if kind == type(self._include_object_p):
-            try:
-                # pylint:disable=not-callable
-                exact_method_equals = self._include_object_p.__eq__(obj)
-            except AttributeError:
-                # Python 2.7 methods may only have __cmp__, and that raises a
-                # TypeError for non-method arguments
-                # pylint:disable=no-member
-                exact_method_equals = self._include_object_p.__cmp__(obj) == 0
-
-            if exact_method_equals is not NotImplemented and exact_method_equals:
-                return False
-
-        # Similarly, we need to check identity in our __dict__ to avoid mock explosions.
-        for x in self.__dict__.values():
-            if obj is x:
-                return False
-
-
-        if kind in self.ignored_types or kind in self.IGNORED_TYPES:
-            return False
-
-        return True
-
-    def _growth(self):
-        return objgraph.growth(limit=None, peak_stats=self.peak_stats,
-                               filter=self._include_object_p)
-
-    def _report_diff(self, growth):
-        if not growth:
-            return "<Unable to calculate growth>"
-
-        lines = []
-        width = max(len(name) for name, _, _ in growth)
-        for name, count, delta in growth:
-            lines.append('%-*s%9d %+9d' % (width, name, count, delta))
-
-        diff = '\n'.join(lines)
-        return diff
-
-
-    def _run_test(self, args, kwargs):
-        gc_enabled = gc.isenabled()
-        gc.disable()
-
-        if self.needs_setUp:
-            self.testcase.setUp()
-            self.testcase.skipTearDown = False
-        try:
-            self.function(self.testcase, *args, **kwargs)
-        finally:
-            self.testcase.tearDown()
-            self.testcase.doCleanups()
-            self.testcase.skipTearDown = True
-            self.needs_setUp = True
-            if gc_enabled:
-                gc.enable()
-
-    def _growth_after(self):
-        # Grab post snapshot
-        if 'urlparse' in sys.modules:
-            sys.modules['urlparse'].clear_cache()
-        if 'urllib.parse' in sys.modules:
-            sys.modules['urllib.parse'].clear_cache()
-
-        return self._growth()
-
-    def _check_deltas(self, growth):
-        # Return false when we have decided there is no leak,
-        # true if we should keep looping, raises an assertion
-        # if we have decided there is a leak.
-
-        deltas = self.deltas
-        if not deltas:
-            # We haven't run yet, no data, keep looping
-            return True
-
-        if gc.garbage:
-            raise LeakCheckError("Generated uncollectable garbage %r" % (gc.garbage,))
-
-
-        # the following configurations are classified as "no leak"
-        # [0, 0]
-        # [x, 0, 0]
-        # [... a, b, c, d]  where a+b+c+d = 0
-        #
-        # the following configurations are classified as "leak"
-        # [... z, z, z]  where z > 0
-
-        if deltas[-2:] == [0, 0] and len(deltas) in (2, 3):
-            return False
-
-        if deltas[-3:] == [0, 0, 0]:
-            return False
-
-        if len(deltas) >= 4 and sum(deltas[-4:]) == 0:
-            return False
-
-        if len(deltas) >= 3 and deltas[-1] > 0 and deltas[-1] == deltas[-2] and deltas[-2] == deltas[-3]:
-            diff = self._report_diff(growth)
-            raise LeakCheckError('refcount increased by %r\n%s' % (deltas, diff))
-
-        # OK, we don't know for sure yet. Let's search for more
-        if sum(deltas[-3:]) <= 0 or sum(deltas[-4:]) <= 0 or deltas[-4:].count(0) >= 2:
-            # this is suspicious, so give a few more runs
-            limit = 11
-        else:
-            limit = 7
-        if len(deltas) >= limit:
-            raise LeakCheckError('refcount increased by %r\n%s'
-                                 % (deltas,
-                                    self._report_diff(growth)))
-
-        # We couldn't decide yet, keep going
-        return True
-
-    def __call__(self, args, kwargs):
-        for _ in range(3):
-            gc.collect()
-
-        expect_failure = getattr(self.function, 'fails_leakcheck', False)
-        if expect_failure:
-            self.testcase.expect_greenlet_leak = True
-        self.ignored_types = getattr(self.function, "leakcheck_ignore_types", ())
-
-        # Capture state before; the incremental will be
-        # updated by each call to _growth_after
-        growth = self._growth()
-
-        try:
-            while self._check_deltas(growth):
-                self._run_test(args, kwargs)
-
-                growth = self._growth_after()
-
-                self.deltas.append(sum((stat[2] for stat in growth)))
-        except LeakCheckError:
-            if not expect_failure:
-                raise
-        else:
-            if expect_failure:
-                raise LeakCheckError("Expected %s to leak but it did not." % (self.function,))
-
 def wrap_refcount(method):
-    if getattr(method, 'ignore_leakcheck', False) or SKIP_LEAKCHECKS:
-        return method
-
-    @wraps(method)
-    def wrapper(self, *args, **kwargs): # pylint:disable=too-many-branches
-        if getattr(self, 'ignore_leakcheck', False):
-            raise unittest.SkipTest("This class ignored during leakchecks")
-        if ONLY_FAILING_LEAKCHECKS and not getattr(method, 'fails_leakcheck', False):
-            raise unittest.SkipTest("Only running tests that fail leakchecks.")
-        return _RefCountChecker(self, method)(args, kwargs)
-
-    return wrapper
+    return method