30

I'm trying to understand if there is there a difference between these, and what that difference might be.

Option One:

file_obj = open('test.txt', 'r')

with file_obj as in_file:
    print in_file.readlines()

Option Two:

with open('test.txt', 'r') as in_file:
    print in_file.readlines()

I understand that with Option One, the file_obj is in a closed state after the with block.

6
  • I... am not sure. Time to fire up a Python REPL session and see if there is a difference! Commented Sep 3, 2015 at 15:04
  • 4
    These are both examples of contextually opening a file. It basically allows the file to be automatically closed when you are no longer within the context of the file being read/written. Commented Sep 3, 2015 at 15:04
  • Not exactly the same questions, but could help: stackoverflow.com/questions/1369526/… and stackoverflow.com/questions/3012488/…
    – tomasyany
    Commented Sep 3, 2015 at 15:06
  • 7
    Read the docs on with context managers. Basically, they're using magic methods __enter__ and __exit__, and it doesn't matter if you call it directly on the object returned by open or store it first and then call it. Commented Sep 3, 2015 at 15:07
  • 1
    @Ivc: my answer on the dupe covers that explicitly.
    – Martijn Pieters
    Commented Sep 5, 2015 at 22:58

5 Answers 5

38

I don't know why no one has mentioned this yet, because it's fundamental to the way with works. As with many language features in Python, with behind the scenes calls special methods, which are already defined for built-in Python objects and can be overridden by user-defined classes. In with's particular case (and context managers more generally), the methods are __enter__ and __exit__.

Remember that in Python everything is an object -- even literals. This is why you can do things like 'hello'[0]. Thus, it does not matter whether you use the file object directly as returned by open:

with open('filename.txt') as infile:
    for line in infile:
        print(line)

or store it first with a different name (for example to break up a long line):

the_file = open('filename' + some_var + '.txt')
with the_file as infile:
    for line in infile:
        print(line)

Because the end result is that the_file, infile, and the return value of open all point to the same object, and that's what with is calling the __enter__ and __exit__ methods on. The built-in file object's __exit__ method is what closes the file.

4
  • Does the __enter__ method for file actually do anything at all? The file is opened during __init__ then closed in __exit__ - I can't think of anything that __enter__ would do. Commented Sep 3, 2015 at 16:30
  • 2
    I believe it simply returns the file object (itself) and does nothing else. This page (last paragraph) seems to corroborate that. Commented Sep 3, 2015 at 17:09
  • Ah, right, it has to return that because otherwise the name in as name would just get assigned None. Commented Sep 3, 2015 at 17:19
  • 2
    Yeah, the return value from __enter__ is important, though you might not notice it if the only context manager you use is a file. When you do with foo as bar, bar may or may not be the same thing as foo. It will be whatever foo.__enter__ returns, which could be something else.
    – Blckknght
    Commented Sep 4, 2015 at 5:25
8

These behave identically. As a general rule, the meaning of Python code is not changed by assigning an expression to a variable in the same scope.

This is the same reason that these are identical:

f = open("myfile.txt")

vs

filename = "myfile.txt"
f = open(filename)

Regardless of whether you add an alias, the meaning of the code stays the same. The context manager has a deeper meaning than passing an argument to a function, but the principle is the same: the context manager magic is applied to the same object, and the file gets closed in both cases.

The only reason to choose one over the other is if you feel it helps code clarity or style.

6
  • 1
    Actually, that might make difference if there was more (potentially failing) code between open and with, but in this case even the byte code is nearly identical.
    – bereal
    Commented Sep 3, 2015 at 15:11
  • @bereal in which case, adding that code makes the difference, not assigning the variable.
    – lvc
    Commented Sep 3, 2015 at 15:21
  • 1
    I think this is a decent answer but like Eli Korvigo in question comments I am surprised you have not mentioned __enter__ and __exit__ methods yet. It is actually not at all like your example because in your case, either the string literal or the value of filename will be passed to a function and renamed in its scope anyway. This is more like the difference between immediately subscripting the return value of a function hello()[0] as opposed to assigning then subscripting hello_result = hello(); hello_result[0]. Commented Sep 3, 2015 at 15:23
  • @two the workings of the context manager arent actually important here. It is the same situation as passing a string literal or a variable to open, and both of these are also the same as subscripting the result of a function call. In all three cases, adding the extra variable doesn't change the meaning of the code (even though that meaning is quite different between the three cases).
    – lvc
    Commented Sep 3, 2015 at 15:30
  • 3
    @lvc Look at the question and the initial response of those who didn't already know the answer. The confusion is whether or not the file object would be closed at the end. With the inlined call everyone was sure it would be closed, because that's just how with works. With the pre-created file_obj, suddenly everyone's not so sure. But why? Because ultimately it has to do with that object's __exit__ being called. Your example looks like it's missing the point. It has nothing to do with what's passed to open, and everything to do with what's done to the object it returns. Commented Sep 3, 2015 at 15:33
6

If you just fire up Python and use either of those options, the net effect is the same if the base instance of Python's file object is not changed. (In Option One, the file is only closed when file_obj goes out of scope vs at the end of the block in Option Two as you have already observed.)

There can be differences with use cases with a context manager however. Since file is an object, you can modify it or subclass it.

You can also open a file by just calling file(file_name) showing that file acts like other objects (but no one opens files that way in Python unless it is with with):

>>> f=open('a.txt')
>>> f
<open file 'a.txt', mode 'r' at 0x1064b5ae0>
>>> f.close()

>>> f=file('a.txt')
>>> f
<open file 'a.txt', mode 'r' at 0x1064b5b70>
>>> f.close()

More generally, the opening and closing of some resource called the_thing (commonly a file, but can be anything) you follow these steps:

set up the_thing                       # resource specific, open, or call the obj
try                                    # generically __enter__
    yield pieces from the_thing
except
    react if the_thing is broken 
finally, put the_thing away            # generically __exit__

You can more easily change the flow of those subelements using the context manager vs procedural code woven between open and the other elements of the code.

Since Python 2.5, file objects have __enter__ and __exit__ methods:

>>> f=open('a.txt')
>>> f.__enter__
<built-in method __enter__ of file object at 0x10f836780>
>>> f.__exit__
<built-in method __exit__ of file object at 0x10f836780>

The default Python file object uses those methods in this fashion:

__init__(...)            # performs initialization desired

__enter__() -> self      # in the case of `file()` return an open file handle

__exit__(*excinfo) -> None.  # in the case of `file()` closes the file.

These methods can be changed for your own use to modify how a resource is treated when it is opened or closed. A context manager makes it really easy to modify what happens when you open or close a file.

Trivial example:

class Myopen(object):
    def __init__(self, fn, opening='', closing='', mode='r', buffering=-1):
        # set up the_thing

        if opening:
            print(opening)
        self.closing=closing    
        self.f=open(fn, mode, buffering)

    def __enter__(self):
        # set up the_thing
        # could lock the resource here
        return self.f

    def __exit__(self, exc_type, exc_value, traceback):
        # put the_thing away
        # unlock, or whatever context applicable put away the_thing requires
        self.f.close()
        if self.closing:
            print(self.closing)  

Now try that:

>>> with Myopen('a.txt', opening='Hello', closing='Good Night') as f:
...     print f.read()
...
Hello
[contents of the file 'a.txt']
Good Night

Once you have control of entry and exit to a resource, there are many use cases:

  1. Lock a resource to access it and use it; unlock when you are done
  2. Make a quirky resource (like a memory file, database or web page) act more like a straight file resource
  3. Open a database and rollback if there is an exception but commit all writes if there are no errors
  4. Temporarily change the context of a floating point calculation
  5. Time a piece of code
  6. Change the exceptions that you raise by returning True or False from the __exit__ method.

You can read more examples in PEP 343.

0
5

There is no difference between the two - either way the file is closed when you exit the with block.

The second example you give is the typical way the files are used in Python 2.6 and newer (when the with syntax was added).

You can verify that the first example also works in a REPL session like this:

>>> file_obj = open('test.txt', 'r')
>>> file_obj.closed
False
>>> with file_obj as in_file:
...     print in_file.readlines()
<Output>
>>> file_obj.closed
True

So after the with blocks exits, the file is closed.

Normally the second example is how you would do this sort of thing, though.

There's no reason to create that extra variable file_obj... anything that you might want to do with it after the end of the with block you could just use in_file for, because it's still in scope.

>>> in_file
<closed file 'test.txt', mode 'r' at 0x03DC5020>
4
  • there's no reason to create that extra variable file_obj. What if the code somewhere down the line needed another context manager for that file? Commented Sep 3, 2015 at 15:13
  • 1
    @BhargavRao anyway, you'll have to re-open that file. with won't do that for you.
    – bereal
    Commented Sep 3, 2015 at 15:14
  • You did not get my point. Instead of again doing with open('test.txt', 'r') as in_file: the OP can directly do with file_obj as in_file:. My argument was towards storing values in variables and not about the context manager. I just wanted to mention that there indeed is a use case for saving that in a variable (though remote) Commented Sep 3, 2015 at 15:15
  • @BhargavRao - in_file is still in scope until the end of the function or module that contains the with statement, it doesn't go out of scope with the end of the with block - you can use it interchangeably with file_obj. Commented Sep 3, 2015 at 15:18
0

Is remarkable that with works even if return or sys.exit() is called inside (that means __exit__ is called anyway):

#!/usr/bin/env python
import sys

class MyClass:
  def __enter__(self):
    print("Enter") 
    return self

  def __exit__(self, type, value, trace):
    print("type: {} | value: {} | trace: {}".format(type,value,trace))

# main code:
def myfunc(msg):
  with MyClass() as sample:
    print(msg)
    # also works if uncomment this:
    # sys.exit(0) 
    return

myfunc("Hello")

return version will show:

Enter
Hello
type: None | value: None | trace: None

exit(0) version will show:

Enter
Hello
type: <class 'SystemExit'> | value: 0 | trace: <traceback object at 0x7faca83a7e00>

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