Raymond Hettinger surprised quite a few people when he showed slides 36 and 37. https://speakerdeck.com/pyconslides/transforming-code-into-beautiful-idiomatic-python-by-raymond-hettinger -- Many people knew that the with statement could be used for opening files, but not these new things. Looking at python 3.3 docs on threading, only at the very bottom, section 16.2.8, is it even mentioned. From the lecture it was implied that using the 'with' operator was best practice.

  • How is one supposed to figure out if 'with' is supported, what it can be tied to, etc?
  • Also, how should 'with' be referred to? (threading with statement, python threading lock with statement,...), what is the vernacular to search and see if 'with' is supported (we can ask if something is iterable, do we ask if it's 'withable')?


  • 1
    "...if with is supported...": Look for context managers. If it has an _enter_ and _exit_ method, the with statement is supported for that object. – XORcist Apr 4 '13 at 19:44
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    "help(with) comes back with a syntax error". Try surrounding the term in quotes: help("with") – Kevin Apr 4 '13 at 19:48
  • I'm a bit surprised that Raymond Hettinger presented something in 2013 that's non-3.x friendly but is 2.3-friendly (e.g., using cmp instead of key for sorting). – abarnert Apr 4 '13 at 20:01

First, you don't ask if something is "withable", you ask if it's a "context manager".*

For example, in the docs you linked (which are from 3.1, not 3.3, by the way):

Currently, Lock, RLock, Condition, Semaphore, and BoundedSemaphore objects may be used as with statement context managers.

Meanwhile, if you want to search in the interactive interpreter, there are two obvious things to do:

if hasattr(x, '__exit__'):
    print('x is a context manager')

    with x:
except AttributeError:
    print('x is a context manager')


help(open) … makes no mention of it

Well, yeah, because open isn't a context manager, it's a function that happens to return something that is a context manager. In 3.3, it can return a variety of different things depending on its parameters; in 2.7, it only returns one thing (a file), but help tells you exactly what it returns, and you can then use help on whichever one is appropriate for your use case, or just look at its attributes, to see that it defines __exit__.

At any rate, realistically, just remember that EAFTP applies to debugging and prototyping as well as to your final code. Try writing something with a with statement first. If the expression you're trying to use as a context manager isn't one, you'll get an exception as soon as you try to run that code, which is pretty easy to debug. (It will generally be an AttributeError about the lack of __exit__, but even if it isn't, the fact that the traceback says it's from your with line ought to tell you the problem.) And if you have an object that seems like it should be usable as a context manager, and isn't, you might want to consider filing a bug/bringing it up on the mailing lists/etc. (There are some classes in the stdlib that weren't context managers until someone complained.)

One last thing: If you're using a type that has a close method, but isn't a context manager, just use contextlib.closing around it:

with closing(legacy_file_like_object):

… or

with closing(legacy_file_like_object_producer()) as f:

In fact, you should really look at everything in contextlib. @contextmanager is very nifty, and nested is handy if you need to backport 2.7/3.x code to 2.5, and, while closing is trivial to write (if you have @contextmanager), using the stdlib function makes your intentions clear.

* Actually, there was a bit of a debate about the naming, and it recurs every so often on the mailing lists. But the docs and help('with') both give a nearly-precise definition, the "context manager" is the result of evaluating the "context expression". So, in with foo(bar) as baz, qux as quux:, foo(bar) and qux are both context managers. (Or maybe in some way the two of them make up a single context manager.)

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  • Interesting, I hadn't been clear on how it was different between open and lock, but that makes sense, given the 'as' keyword used when using open. – pyInTheSky Apr 4 '13 at 19:56
  • @pyInTheSky: Well, the result of evaluating open(path) and the result of evaluating lock are both context managers, it's just that in the former case you're evaluating a function call, while in the latter case you're just evaluating an object. (You can say with lock as other_name_for_lock: if you really want to…) – abarnert Apr 4 '13 at 19:57
  • Thanks for the extras, did not know about contextlib. – pyInTheSky Apr 4 '13 at 20:11

afaik any class/object that that implements __exit__ method (you may also need to implement __enter__)

#notice it includes __enter__ and __exit__


def supportsWith(some_ob):
   if "__exit__" in dir(some_ob): #could justas easily used hasattr
       return True
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Objects that work with Python's with statement are called context managers. In typically Pythonic fashion, whether an object is a context manager depends only on whether you can do "context manager-y" things with it. (This strategy is called duck typing.)

So what constitutes "context manager-y" behavior? There are exactly two things: (1) doing some standard set-up on entering a with block, and (2) doing some standard "tear-down", and maybe also some damage control if things go awry, before exiting the block. That's it.

The details are provided in PEP 343, which introduced the with statement, and in the documentation you linked in the question.

A with block, step by step

But let's run through this step by step.

To start, we need a "context manager". That's any object that provides set-up and tear-down behavior encapsulated in methods respectively called __enter__ and __exit__. If an object provides these methods, it qualifies as a context manager, albeit possibly a poor one if the methods don't do sensible things.

So what happens behind the scenes when the interpreter sees a with block? First, the interpreter looks for __enter__ and __exit__ methods on the object provided after the with statement. If the methods don't exist, then we don't have a context manager, so the interpreter throws an exception.

But if the methods do exist, all is well. We have our context manager, so we move into the block. The interpreter then executes the context manager's __enter__ method and assigns the result to the variable that follows the as statement (if there is one, otherwise the result is thrown away). Next, the body of the with block is executed. When that's done, the context manager's __exit__ statement is passed a (possibly empty) dictionary of information about any exceptions that occurred while executing the bock's body, and the __exit__ method is executed to clean things up.

Here's a line-by-line walk-through:

with man as x:         # 1) Look for `man.__enter__` and `man.__exit__`, then ...
                       # 2) Execute `x = man.__enter__()`, then ...
    do_something(x)    # 3) Execute the code in the body of the block, ...
                       # 4) If something blows up, note it (in `err`), ...
                       # 5) Last, this (always!) happens: `man.__exit__(**err)`.

And that's that.

What's the point?

The only subtlety here is that the context manager's __exit__ method is always executed, even if an uncaught exception is thrown in the body of the with block. In that case, the exception information is passed to the __exit__ method (in a dictionary I called err in the example above), which should use that information to provide damage control.

So a with block is just an abstraction that lets us shunt off set-up, tear-down, and damage-control code (i.e., "context management") into a couple of methods, which can then be called behind the scenes. This both encourages us to factor out boilerplate and provides more concise, readable code that highlights the core control flow and hides implementation details.

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