It sounds like you've tracked down a bug in
OrderedDict that was fixed at some point after your version of 2.7. If it wasn't in any actual released versions, maybe you can just ignore it. But otherwise, yeah, you need a workaround.
I would suggest that, instead of monkeypatching
collections.OrderedDict, you should instead use the Equivalent OrderedDict recipe that runs on Python 2.4 or later linked in the documentation for
collections.OrderedDict (which does not have the excess
__del__). If nothing else, when someone comes along and says "I need to run this on 2.6, how much work is it to port" the answer will be "a little less"…
But two more points:
rewriting everything to avoid cycles is a huge amount of effort.
The fact that you've got cycles in your dictionaries is a red flag that you're doing something wrong (typically using strong refs for a cache or for back-pointers), which is likely to lead to other memory problems, and possibly other bugs. So that effort may turn out to be necessary anyway.
You still haven't explained what you're trying to accomplish; I suspect the "deterministic" thing is just a red herring (especially since
dicts actually are deterministic), so the best solution is
But if determinism is necessary, you can't depend on the cycle collector, because it's not deterministic, and that means your finalizer ordering and so on all become non-deterministic. It also means your memory usage is non-deterministic—you may end up with a program that stays within your desired memory bounds 99.999% of the time, but not 100%; if those bounds are critically important, that can be worse than failing every time.
Meanwhile, the iteration order of dictionaries isn't specified, but in practice, CPython and PyPy iterate in the order of the hash buckets, not the id (memory location) of either the value or the key, and whatever Jython and IronPython do (they may be using some underlying Java or .NET collection that has different behavior; I haven't tested), it's unlikely that the memory order of the keys would be relevant. (How could you efficiently iterate a hash table based on something like that?) You may have confused yourself by testing with objects that use
hash, but most objects hash based on value.
For example, take this simple program:
d = 0
d = 1
d = 2
for k in d:
print(k, d[k], id(k), id(d[k]), hash(k))
If you run it repeatedly with CPython 2.7, CPython 3.2, and PyPy 1.9, the keys will always be iterated in order 0, 1, 2. The
id columns may also be the same each time (that depends on your platform), but you can fix that in a number of ways—insert in a different order, reverse the order of the values, use string values instead of ints, assign the values to variables and then insert those variables instead of the literals, etc. Play with it enough and you can get every possible order for the
id columns, and yet the keys are still iterated in the same order every time.
The order of iteration is not predictable, because to predict it you need the function for converting
hash(k) into a bucket index, which depends on information you don't have access to from Python. Even if it's just
hash(k) % self._table_size, unless that
_table_size is exposed to the Python interface, it's not helpful. (It's a complex function of the sequence of inserts and deletes that could in principle be calculated, but in practice it's silly to try.)
But it is deterministic; if you insert and delete the same keys in the same order every time, the iteration order will be the same every time.