In Python, all the I/O operations are wrapped in a hight level API : the file likes objects.
It means that any file likes object will behave the same, and can be used in a function expecting them. This is called duck typing, and for file like objects you can expect the following behavior :
- open / close / IO Exceptions
- reading / writing / seeking
StringIO, File, and all the file like objects can really be replaced with each others, and you don't have to care about managing the I/O yourself.
As a little demo, let's see what you can do with stdout, the standard output, which is a file like object :
# replace the standar ouput by a real opened file
sys.stdout = open("out.txt", "w")
# printing won't print anything, it will write in the file
All the file like objects behave the same, and you should use them the same way :
# try to open it
# do not bother with checking wheter stream is available or not
stream = open("file.txt", "w")
except IOError :
# if it doesn't work, too bad !
# this error is the same for stringIO, file, etc
# use it and your code get hightly flexible !
# in python 3, you'd do the same using context :
with open("file2.txt", "w") as stream :
# the rest is taken care automatically
Note that a the file like objects methods share a common behavior, but the way to create a file like object is not standard :
# urllib doesn't use "open" and doesn't raises only IOError exceptions
stream = urllib.urlopen("www.google.com")
# but this is a file like object and you can rely on that :
for line in steam :
Un last world, it's not because it works the same way that the underlying behavior is the same. It's important to understand what you are working with. In the last example, using the "for" loop on an Internet resource is very dangerous. Indeed, you know is you won't end up with a infinite stream of data.
In that case, using :
print steam.read(10000) # another file like object method
is safer. Hight abstractions are powerful, but doesn't save you the need to know how the stuff works.