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220 lines
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220 lines
11 KiB
Plaintext
Intro
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=====
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The basic rule for dealing with weakref callbacks (and __del__ methods too,
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for that matter) during cyclic gc:
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Once gc has computed the set of unreachable objects, no Python-level
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code can be allowed to access an unreachable object.
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If that can happen, then the Python code can resurrect unreachable objects
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too, and gc can't detect that without starting over. Since gc eventually
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runs tp_clear on all unreachable objects, if an unreachable object is
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resurrected then tp_clear will eventually be called on it (or may already
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have been called before resurrection). At best (and this has been an
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historically common bug), tp_clear empties an instance's __dict__, and
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"impossible" AttributeErrors result. At worst, tp_clear leaves behind an
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insane object at the C level, and segfaults result (historically, most
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often by setting a class's mro pointer to NULL, after which attribute
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lookups performed by the class can segfault).
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OTOH, it's OK to run Python-level code that can't access unreachable
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objects, and sometimes that's necessary. The chief example is the callback
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attached to a reachable weakref W to an unreachable object O. Since O is
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going away, and W is still alive, the callback must be invoked. Because W
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is still alive, everything reachable from its callback is also reachable,
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so it's also safe to invoke the callback (although that's trickier than it
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sounds, since other reachable weakrefs to other unreachable objects may
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still exist, and be accessible to the callback -- there are lots of painful
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details like this covered in the rest of this file).
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Python 2.4/2.3.5
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================
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The "Before 2.3.3" section below turned out to be wrong in some ways, but
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I'm leaving it as-is because it's more right than wrong, and serves as a
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wonderful example of how painful analysis can miss not only the forest for
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the trees, but also miss the trees for the aphids sucking the trees
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dry <wink>.
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The primary thing it missed is that when a weakref to a piece of cyclic
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trash (CT) exists, then any call to any Python code whatsoever can end up
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materializing a strong reference to that weakref's CT referent, and so
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possibly resurrect an insane object (one for which cyclic gc has called-- or
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will call before it's done --tp_clear()). It's not even necessarily that a
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weakref callback or __del__ method does something nasty on purpose: as
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soon as we execute Python code, threads other than the gc thread can run
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too, and they can do ordinary things with weakrefs that end up resurrecting
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CT while gc is running.
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http://www.python.org/sf/1055820
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shows how innocent it can be, and also how nasty. Variants of the three
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focussed test cases attached to that bug report are now part of Python's
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standard Lib/test/test_gc.py.
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Jim Fulton gave the best nutshell summary of the new (in 2.4 and 2.3.5)
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approach:
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Clearing cyclic trash can call Python code. If there are weakrefs to
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any of the cyclic trash, then those weakrefs can be used to resurrect
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the objects. Therefore, *before* clearing cyclic trash, we need to
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remove any weakrefs. If any of the weakrefs being removed have
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callbacks, then we need to save the callbacks and call them *after* all
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of the weakrefs have been cleared.
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Alas, doing just that much doesn't work, because it overlooks what turned
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out to be the much subtler problems that were fixed earlier, and described
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below. We do clear all weakrefs to CT now before breaking cycles, but not
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all callbacks encountered can be run later. That's explained in horrid
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detail below.
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Older text follows, with a some later comments in [] brackets:
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Before 2.3.3
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============
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Before 2.3.3, Python's cyclic gc didn't pay any attention to weakrefs.
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Segfaults in Zope3 resulted.
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weakrefs in Python are designed to, at worst, let *other* objects learn
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that a given object has died, via a callback function. The weakly
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referenced object itself is not passed to the callback, and the presumption
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is that the weakly referenced object is unreachable trash at the time the
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callback is invoked.
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That's usually true, but not always. Suppose a weakly referenced object
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becomes part of a clump of cyclic trash. When enough cycles are broken by
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cyclic gc that the object is reclaimed, the callback is invoked. If it's
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possible for the callback to get at objects in the cycle(s), then it may be
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possible for those objects to access (via strong references in the cycle)
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the weakly referenced object being torn down, or other objects in the cycle
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that have already suffered a tp_clear() call. There's no guarantee that an
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object is in a sane state after tp_clear(). Bad things (including
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segfaults) can happen right then, during the callback's execution, or can
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happen at any later time if the callback manages to resurrect an insane
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object.
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[That missed that, in addition, a weakref to CT can exist outside CT, and
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any callback into Python can use such a non-CT weakref to resurrect its CT
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referent. The same bad kinds of things can happen then.]
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Note that if it's possible for the callback to get at objects in the trash
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cycles, it must also be the case that the callback itself is part of the
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trash cycles. Else the callback would have acted as an external root to
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the current collection, and nothing reachable from it would be in cyclic
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trash either.
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[Except that a non-CT callback can also use a non-CT weakref to get at
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CT objects.]
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More, if the callback itself is in cyclic trash, then the weakref to which
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the callback is attached must also be trash, and for the same kind of
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reason: if the weakref acted as an external root, then the callback could
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not have been cyclic trash.
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So a problem here requires that a weakref, that weakref's callback, and the
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weakly referenced object, all be in cyclic trash at the same time. This
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isn't easy to stumble into by accident while Python is running, and, indeed,
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it took quite a while to dream up failing test cases. Zope3 saw segfaults
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during shutdown, during the second call of gc in Py_Finalize, after most
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modules had been torn down. That creates many trash cycles (esp. those
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involving classes), making the problem much more likely. Once you
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know what's required to provoke the problem, though, it's easy to create
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tests that segfault before shutdown.
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In 2.3.3, before breaking cycles, we first clear all the weakrefs with
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callbacks in cyclic trash. Since the weakrefs *are* trash, and there's no
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defined-- or even predictable --order in which tp_clear() gets called on
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cyclic trash, it's defensible to first clear weakrefs with callbacks. It's
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a feature of Python's weakrefs too that when a weakref goes away, the
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callback (if any) associated with it is thrown away too, unexecuted.
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[In 2.4/2.3.5, we first clear all weakrefs to CT objects, whether or not
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those weakrefs are themselves CT, and whether or not they have callbacks.
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The callbacks (if any) on non-CT weakrefs (if any) are invoked later,
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after all weakrefs-to-CT have been cleared. The callbacks (if any) on CT
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weakrefs (if any) are never invoked, for the excruciating reasons
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explained here.]
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Just that much is almost enough to prevent problems, by throwing away
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*almost* all the weakref callbacks that could get triggered by gc. The
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problem remaining is that clearing a weakref with a callback decrefs the
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callback object, and the callback object may *itself* be weakly referenced,
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via another weakref with another callback. So the process of clearing
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weakrefs can trigger callbacks attached to other weakrefs, and those
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latter weakrefs may or may not be part of cyclic trash.
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So, to prevent any Python code from running while gc is invoking tp_clear()
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on all the objects in cyclic trash,
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[That was always wrong: we can't stop Python code from running when gc
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is breaking cycles. If an object with a __del__ method is not itself in
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a cycle, but is reachable only from CT, then breaking cycles will, as a
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matter of course, drop the refcount on that object to 0, and its __del__
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will run right then. What we can and must stop is running any Python
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code that could access CT.]
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it's not quite enough just to invoke
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tp_clear() on weakrefs with callbacks first. Instead the weakref module
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grew a new private function (_PyWeakref_ClearRef) that does only part of
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tp_clear(): it removes the weakref from the weakly-referenced object's list
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of weakrefs, but does not decref the callback object. So calling
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_PyWeakref_ClearRef(wr) ensures that wr's callback object will never
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trigger, and (unlike weakref's tp_clear()) also prevents any callback
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associated *with* wr's callback object from triggering.
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[Although we may trigger such callbacks later, as explained below.]
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Then we can call tp_clear on all the cyclic objects and never trigger
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Python code.
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[As above, not so: it means never trigger Python code that can access CT.]
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After we do that, the callback objects still need to be decref'ed. Callbacks
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(if any) *on* the callback objects that were also part of cyclic trash won't
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get invoked, because we cleared all trash weakrefs with callbacks at the
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start. Callbacks on the callback objects that were not part of cyclic trash
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acted as external roots to everything reachable from them, so nothing
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reachable from them was part of cyclic trash, so gc didn't do any damage to
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objects reachable from them, and it's safe to call them at the end of gc.
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[That's so. In addition, now we also invoke (if any) the callbacks on
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non-CT weakrefs to CT objects, during the same pass that decrefs the
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callback objects.]
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An alternative would have been to treat objects with callbacks like objects
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with __del__ methods, refusing to collect them, appending them to gc.garbage
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instead. That would have been much easier. Jim Fulton gave a strong
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argument against that (on Python-Dev):
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There's a big difference between __del__ and weakref callbacks.
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The __del__ method is "internal" to a design. When you design a
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class with a del method, you know you have to avoid including the
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class in cycles.
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Now, suppose you have a design that makes has no __del__ methods but
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that does use cyclic data structures. You reason about the design,
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run tests, and convince yourself you don't have a leak.
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Now, suppose some external code creates a weakref to one of your
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objects. All of a sudden, you start leaking. You can look at your
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code all you want and you won't find a reason for the leak.
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IOW, a class designer can out-think __del__ problems, but has no control
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over who creates weakrefs to his classes or class instances. The class
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user has little chance either of predicting when the weakrefs he creates
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may end up in cycles.
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Callbacks on weakref callbacks are executed in an arbitrary order, and
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that's not good (a primary reason not to collect cycles with objects with
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__del__ methods is to avoid running finalizers in an arbitrary order).
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However, a weakref callback on a weakref callback has got to be rare.
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It's possible to do such a thing, so gc has to be robust against it, but
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I doubt anyone has done it outside the test case I wrote for it.
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[The callbacks (if any) on non-CT weakrefs to CT objects are also executed
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in an arbitrary order now. But they were before too, depending on the
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vagaries of when tp_clear() happened to break enough cycles to trigger
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them. People simply shouldn't try to use __del__ or weakref callbacks to
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do fancy stuff.]
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