Is there a way to begin a block of code with a with statement, but conditionally?

Something like:

if needs_with():
    with get_stuff() as gs:

# do nearly the same large block of stuff,
# involving gs or not, depending on needs_with()

To clarify, one scenario would have a block encased in the with statement, while another possibility would be the same block, but not encased (i.e., as if it wasn't indented)

Initial experiments of course give indentation errors..

  • 2
    write a function for the body of the with? – Ryan Haining Jan 6 '15 at 16:39

If you want to avoid duplicating code and are using a version of Python prior to 3.7 (when contextlib.nullcontext was introduced) or even 3.3 (when contextlib.ExitStack was introduced), you could do something like:

class dummy_context_mgr():
    def __enter__(self):
        return None
    def __exit__(self, exc_type, exc_value, traceback):
        return False


import contextlib

def dummy_context_mgr():
    yield None

and then use it as:

with get_stuff() if needs_with() else dummy_context_mgr() as gs:
   # do stuff involving gs or not

You alternatively could make get_stuff() return different things based on needs_with().

(See Mike's answer or Daniel's answer for what you can do in later versions.)

  • 3
    This context manager should be in the standard python library, imho. Thanks for this. – jjmontes Jan 21 '16 at 18:37
  • How about using the names should_... and dont. Then statements like this would read with get_stuff() if should_get_stuff() else dont() as gs: ? – Riaz Rizvi Mar 25 '16 at 15:12
  • @RiazRizvi I wouldn't have personally named it that way; I was using the names from the question. – jamesdlin Mar 25 '16 at 18:01
  • 1
    @jjmontes contextlib.ExitStack (new python 3.3) can be used as a dummy context manager. – Bryce Guinta May 14 '17 at 2:48

Python 3.3 introduced contextlib.ExitStack for just this kind of situation. It gives you a "stack", to which you add context managers as necessary. In your case, you would do this:

from contextlib import ExitStack

with ExitStack() as stack:
    if needs_with():
        gs = stack.enter_context(get_stuff())

    # do nearly the same large block of stuff,
    # involving gs or not, depending on needs_with()

Anything that is entered to stack is automatically exited at the end of the with statement as usual. (If nothing is entered, that's not a problem.) In this example, whatever is returned by get_stuff() is exited automatically.

If you have to use an earlier version of python, you might be able to use the contextlib2 module, although this is not standard. It backports this and other features to earlier versions of python. You could even do a conditional import, if you like this approach.

  • 9
    +1, this should be the selected answer. As pointed here it is meant to deal with this kind of problem. Also, it can be used as a nifty one-liner: with get_stuff() if needs_with() else ExitStack() as gs. – farsil Feb 20 '17 at 14:14

As of Python 3.7 you can use contextlib.nullcontext:

from contextlib import nullcontext

if needs_with():
    cm = get_stuff()
    cm = nullcontext()

with cm as gs:
    # Do stuff

contextlib.nullcontext is pretty much just a no-op context manager. You can pass it an argument that it will yield, if you depend on something existing after the as:

>>> with nullcontext(5) as value:
...     print(value)

Otherwise it'll just return None:

>>> with nullcontext() as value:
...     print(value)

It's super neat, check out the docs for it here: https://docs.python.org/3/library/contextlib.html#contextlib.nullcontext


A third-party option to achieve exactly this:

from conditional import conditional

with conditional(needs_with(), get_stuff()):
    # do stuff
  • Does it support an as ... clause at the end of the with statement? – Craig McQueen Dec 9 '16 at 0:40
  • 1
    looking at the source... yes it does. with conditional(needs_with(), get_stuff()) as stuff: will give you a reference to the get_stuff() context manager (if and only if the condition is met, otherwise you get None) – Anentropic Dec 9 '16 at 11:27
  • I have found your answer is incomplete: stackoverflow.com/questions/27803059/… – Andry Oct 27 at 9:37

You can use contextlib.nested to put 0 or more context managers into a single with statement.

>>> import contextlib
>>> managers = []
>>> test_me = True
>>> if test_me:
...     managers.append(open('x.txt','w'))
>>> with contextlib.nested(*managers):                                                       
...  pass                                                    
>>> # see if it closed
... managers[0].write('hello')                                                                                                                              
Traceback (most recent call last):                              
  File "<stdin>", line 2, in <module>                                   
ValueError: I/O operation on closed file

This solution has its quirks and I just noticed that as of 2.7 its been deprecated. I wrote my own context manager to handle juggling multiple context managers. Its worked for me so far, but I haven't really considered edge conditons

class ContextGroup(object):
    """A group of context managers that all exit when the group exits."""

    def __init__(self):
        """Create a context group"""
        self._exits = []

    def add(self, ctx_obj, name=None):
        """Open a context manager on ctx_obj and add to this group. If
        name, the context manager will be available as self.name. name
        will still reference the context object after this context
        if name and hasattr(self, name):
            raise AttributeError("ContextGroup already has context %s" % name)
        var = ctx_obj.__enter__()
        if name:
            self.__dict__[name] = var

    def exit_early(self, name):
        """Call __exit__ on named context manager and remove from group"""
        ctx_obj = getattr(self, name)
        delattr(self, name)
        del self._exits[self._exits.index(ctx_obj)]
        ctx_obj.__exit__(None, None, None)

    def __enter__(self):
        return self

    def __exit__(self, _type, value, tb):
        inner_exeptions = []
        for _exit in self._exits:
                _exit(_type, value, tb )
            except Exception, e:
        if inner_exceptions:
            r = RuntimeError("Errors while exiting context: %s" 
                % (','.join(str(e)) for e in inner_exceptions))

    def __setattr__(self, name, val):
        if hasattr(val, '__exit__'):
            self.add(val, name)
            self.__dict__[name] = val
  • 1
    As I mention in my answer, python 3.3 has added contextlib.ExitStack, which appears to do very much what your ContextGroup does. I will say I'm a little surprised that it hasn't been backported, but if you're willing to require python >=3.3, that might be a nice robust alternative for you. – Mike Jan 14 '16 at 20:02
  • 1
    contextlib2 is a pypi package which has backported ExitStack to python 2 – Anthony Sottile Jul 3 '17 at 16:27

It was hard to find @farsil's nifty Python 3.3 one-liner, so here it is in its own answer:

with ExitStack() if not needs_with() else get_stuff() as gs:
     # do stuff

Note that ExitStack should come first, otherwise get_stuff() will be evaluated.


So I made this code; It is invoked like so:

with c_with(needs_with(), lambda: get_stuff()) as gs:
    ##DOESN't call get_stuff() unless needs_with is called.
    # do nearly the same large block of stuff,
    # involving gs or not, depending on needs_with()


  1. it does not call get_stuff() unless condition is true
  2. if condition is false, it provides a dummy contextmanager. (could probably be replaced with contextlib.nullcontext for python >= 3.7)
  3. Optionally you can send in an alternative contextmanager in case the condition is false:
    with c_with(needs_with(), lambda: get_stuff(), lambda: dont_get_stuff()) as gs:

Hope this will help someone!

-- Here is the code:

def call_if_lambda(f):
    Calls f if f is a lambda function.
    From https://stackoverflow.com/a/3655857/997253
    LMBD = lambda:0
    islambda=isinstance(f, type(LMBD)) and f.__name__ == LMBD.__name__
    return f() if islambda else f
import types
class _DummyClass(object):
    A class that doesn't do anything when methods are called, items are set and get etc.
    I suspect this does not cover _all_ cases, but many.
    def _returnself(self, *args, **kwargs):
        return self
    def __str__(self):
        return ""
    def __setitem__(*args,**kwargs):
    def __setattr__(*args,**kwargs):

class c_with(object):
    Wrap another context manager and enter it only if condition is true.
    condition:  bool
        Condition to enter contextmanager or possibly else_contextmanager
    contextmanager: contextmanager, lambda or None
        Contextmanager for entering if condition is true. A lambda function
        can be given, which will not be called unless entering the contextmanager.
    else_contextmanager: contextmanager, lambda or None
        Contextmanager for entering if condition is true. A lambda function
        can be given, which will not be called unless entering the contextmanager.
        If None is given, then a dummy contextmanager is returned.
    def __init__(self, condition, contextmanager, else_contextmanager=None):
        self.condition = condition
        self.contextmanager = contextmanager
        self.else_contextmanager = _DummyClass() if else_contextmanager is None else else_contextmanager
    def __enter__(self):
        if self.condition:
            return self.contextmanager.__enter__()
        elif self.else_contextmanager is not None:
            return self.else_contextmanager.__enter__()
    def __exit__(self, *args):
        if self.condition:
            return self.contextmanager.__exit__(*args)
        elif self.else_contextmanager is not None:


from contextlib import contextmanager

def needs_with():
    return False

def get_stuff():
    yield {"hello":"world"}

with c_with(needs_with(), lambda: get_stuff()) as gs:
    ## DOESN't call get_stuff() unless needs_with() returns True.
    # do nearly the same large block of stuff,
    # involving gs or not, depending on needs_with()

I have found that the @Anentropic answer is incomplete.

from conditional import conditional

a = 1 # can be None

if not a is None:
  b = 1

class WithNone:
  def __enter__(self):
    return self
  def __exit__(self, type, value, tb):

def foo(x):
  return WithNone()

with conditional(not a is None, foo(b) if not a is None else None):

The complete conditional usage required 3 conditions instead of 1 because of:

  1. NameError: name 'b' is not defined in case if not defined a
  2. the function foo still must return enterable object, otherwise: AttributeError: 'NoneType' object has no attribute '__enter__'
  • you're still only passing two arguments to conditional, this is not adding anything to my original answer... it looks like your issue was just in correctly preparing the two arguments needed – Anentropic Oct 28 at 11:43
  • @Anentropic My point is that it is not enough to just put conditional to work, additionally needs worksarounds to make it work which not that simple like in your answer and makes the whole thing less applicaible. – Andry Oct 29 at 0:59

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