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As far as I understand, __init__() and __enter__() methods of the context manager are called exactly once each, one after another, leaving no chance for any other code to be executed in between. What is the purpose of separating them into two methods, and what should I put into each?

Edit: sorry, wasn't paying attention to the docs.

Edit 2: actually, the reason I got confused is because I was thinking of @contextmanager decorator. A context manager created using @contextmananger can only be used once (the generator will be exhausted after the first use), so often they are written with the constructor call inside with statement; and if that was the only way to use with statement, my question would have made sense. Of course, in reality, context managers are more general than what @contextmanager can create; in particular context managers can, in general, be reused. I hope I got it right this time?

max
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    You are confusing *creating* a context manager with *entering* a context. The two are distinct, and you can use the same context manager more than once. – Martijn Pieters Sep 21 '16 at 08:45

2 Answers2

91

As far as I understand, __init__() and __enter__() methods of the context manager are called exactly once each, one after another, leaving no chance for any other code to be executed in between.

And your understanding is incorrect. __init__ is called when the object is created, __enter__ when it is entered with with statement, and these are 2 quite distinct things. Often it is so that the constructor is directly called in with initialization, with no intervening code, but this doesn't have to be the case.

Consider this example:

class Foo:
    def __init__(self):
        print('__init__ called')
    def __enter__(self):
        print('__enter__ called')
        return self
    def __exit__(self, *a):
        print('__exit__ called')

myobj = Foo()

print('\nabout to enter with 1')
with myobj:
    print('in with 1')

print('\nabout to enter with 2')
with myobj:
    print('in with 2')

myobj can be initialized separately and entered in multiple with blocks:

Output:

__init__ called

about to enter with 1
__enter__ called
in with 1
__exit__ called

about to enter with 2
__enter__ called
in with 2
__exit__ called

Furthermore if __init__ and __enter__ weren't separated, it wouldn't be possible to even use the following:

def open_etc_file(name):
    return open(os.path.join('/etc', name))

with open_etc_file('passwd'):
    ...

since the initialization (within open) is clearly separate from with entry.

The managers created by contextlib.manager are single-entrant, but they again can be constructed outside the with block. Take the example:

from contextlib import contextmanager

@contextmanager
def tag(name):
    print("<%s>" % name)
    yield
    print("</%s>" % name)

you can use this as:

def heading(level=1):
    return tag('h{}'.format(level))

my_heading = heading()
print('Below be my heading')
with my_heading:
     print('Here be dragons')

output:

Below be my heading
<h1>
Here be dragons
</h1>

However, if you try to reuse my_heading (and, consequently, tag), you will get

RuntimeError: generator didn't yield
Арсений Пичугин
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Antti Haapala -- Слава Україні
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    Oh man somehow all examples I remembered has the constructor call occur inside the `with` statement (e.g., `with Foo()...`). Now everything makes sense. Thx – max Sep 21 '16 at 08:46
  • Oh wait but then what about `@contextmanager`? Since it relies on a generator, doesn't it exhaust it on the first use, and thus make the repeated use of the object impossible? – max Sep 21 '16 at 08:58
  • So it's correct to say that only a subset of useful context managers can be produced with `@contextmanager` decorator; the rest require explicitly writing a class that complies with context manager API? – max Sep 21 '16 at 09:21
  • Please be carefull with the wordings. `__init__` is not really the constructor but the initiator in Python. `__new__` is the constructor. You can see in the method signature of `__init__` that if "self" is passed as the first parameter the constructor has already been called or else you would not have an instance for "self". – CheradenineZK Feb 25 '21 at 16:37
18

Antti Haapalas answer is perfectly fine. I just wanted to elaborate a bit on the usage of arguments (like myClass(* args)) since that was somewhat unclear to me (retrospective I ask myself why....)

Using arguments for initialising your class in a with statement is not different from using the class the usual way. The calls will happen in the following order:

  1. __init__ (allocation of the class)
  2. __enter__ (enter context)
  3. __exit__ (leaving context)

Simple Example:

class Foo:
    def __init__(self, i):
        print('__init__ called: {}'.format(i))
        self.i = i
    def __enter__(self):
        print('__enter__ called')
        return self
    def do_something(self):
        print('do something with {}'.format(self.i))
    def __exit__(self, *a):
        print('__exit__ called')

with Foo(42) as bar:
    bar.do_something()

Output:

__init__ called: 42
__enter__ called
    do something with 42
__exit__ called

If you want to make sure that your calls can (almost) only be used in a context (e.g. to force the call to __exit__), see the stackoverflow post here. In the comments you will also find a answer to the question how to use arguments even then.

Antti Haapala -- Слава Україні
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SeparateReality
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