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I understand why contextlib.nested is deprecated.

But if I write a program for an old python version w/o the multiple form of with (i. e., < 2.7), I have (nearly) no other choice.

In order to avoid the following construct to fail:

with nested(open("f1"), open("f2")) as (f1, f2):

(f1 wouldn't be closed if opening f2 fails, because the contextmanager is not entered)

I could imagine writing a context manager which moves initialization into its __enter__:

def late_init(f, *a, **k):
    r = f(*a, **k)
    with r as c: yield c

Am I right thinking that

with nested(late_init(open, "f1"), late_init(open, "f2")) as (f1, f2):

will suffice here to make it "clean"?

The use case given is just an example. Imagine you have a list of files whose length is not prematurely known. Then neither the 2.7 composed with is usable nor the pre-2.7 nested way with several indented with statements.

I probably have to be more verbose about that.

The said worharound solves the prolem at first glance: calling the function is executed in a secure place so that failure can be detected and dealt with appropriately.

My question is: Does it cure the flaw, or do I get other problems?

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2 Answers 2

The contextlib.nested tool is for composing context managers into one. It was deprecated because it was flawed by design (for exactly the case you've show where f1 wouldn't be closed if opening f2 failed).

You use case doesn't require composition though. Regular nesting will suffice:

with open('f1') as f1:
    with open('f2') as f2:
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Yes, I said that already. But this answer doesn't really answer my question. Imagine that I have not 2 files, but 5 or 10. Or I have a list/tuple of files of variable length. In this case, your solution is not really feasible. – glglgl Mar 25 '12 at 13:35
up vote 1 down vote accepted

I now saw that my solution (late_init()) would probably cure the first quirk:

Firstly, as the context managers are all constructed before the function is invoked, the __new__() and __init__() methods of the inner context managers are not actually covered by the scope of the outer context managers. That means, for example, that using nested() to open two files is a programming error as the first file will not be closed promptly if an exception is thrown when opening the second file.

But the second one:

Secondly, if the __enter__() method of one of the inner context managers raises an exception that is caught and suppressed by the __exit__() method of one of the outer context managers, this construct will raise RuntimeError rather than skipping the body of the with statement.

(which is probably caused by the skipped yield vars from nested()) is not covered by that.

So either

  1. the use of "exception eaters" in combination with nested() should be avoided,
  2. the given nested() should be replaced with a better one or
  3. the use of variable length exception manager lists should be avoided and old Python versions as well.
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