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There's a file that I would like to make sure does not grow larger than 2 GB (as it must run on a system that uses ext 2). What's a good way to check a file's size bearing in mind that I will be writing to this file in between checks? In particular, do I need to worry about buffered, unflushed changes that haven't been written to disk yet?

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Is there a reason you can't just keep track of the file size yourself - that is, see what the size is when you open it and increment a counter when you write? Not particularly elegant, but it should work. –  Blair Conrad Dec 8 '09 at 14:39
I suppose that's a possibility I hadn't thought of... I might try that as well. –  Jason Baker Dec 8 '09 at 14:40
Is that not inefficient as hell though? –  Dominic Bou-Samra Dec 8 '09 at 14:51
The maximum file size limit under ext2 is 16GiB -- 64TiB depending on the block size. See en.wikipedia.org/wiki/Ext2. This doesn't answer your question, but just thought this might be helpful. –  unutbu Dec 8 '09 at 14:53
Jason, what would happen if you let the file grow too large? Generally in Python, try not to "look before you leap"... let exceptions occur, and handle them then. Usually faster and cleaner. What would you do if your counter said the file was about to become too large? Can you do the same after catching an exception when it does get too large? Some extra detail might help in your question. –  Peter Hansen Dec 8 '09 at 14:58

7 Answers 7

up vote 3 down vote accepted

You could start with something like this:

class TrackedFile(file):
    def __init__(self, filename, mode):
        self.size = 0
        super(TrackedFile, self).__init__(filename, mode)
    def write(self, s):
        self.size += len(s)
        super(TrackedFile, self).write(s)

Then you could use it like this:

>>> f = TrackedFile('palindrome.txt', 'w')
>>> f.size
>>> f.write('A man a plan a canal ')
>>> f.size
>>> f.write('Panama')

Obviously, this implementation doesn't work if you aren't writing the file from scratch, but you could adapt your __init__ method to handle initial data. You might also need to override some other methods: writelines, for instance.

This works regardless of encoding, as strings are just sequences of bytes.

>>> f2 = TrackedFile('palindrome-latin1.txt', 'w')
>>> f2.write(u'A man a plan a canál '.encode('latin1')
>>> f3 = TrackedFile('palindrome-utf8.txt', 'w')
>>> f3.write(u'A man a plan a canál '.encode('utf-8'))
>>> f2.size
>>> f3.size
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+1: That is a really clever idea. I like it! –  jathanism Dec 8 '09 at 15:50
That's not actually. It you use ASCII, ISO1559 and UTF-8, the result will be the same, but the on disk size will not be. –  e-satis Dec 9 '09 at 17:25
No. It works for other encodings too, if you use actual strings. Answer modified to demonstrate. –  jcdyer Dec 9 '09 at 17:32
The trick is you can't just write unicode objects and rely on the os's encoding. –  jcdyer Dec 9 '09 at 17:37

Perhaps not what you want, but I'll suggest it anyway.

import os
a = os.path.getsize("C:/TestFolder/Input/1.avi")

Alternatively for an opened file you can use the fstat function, which can be used on an opened file. It takes an integer file handle, not a file object, so you have to use the fileno method on the file object:

a = open("C:/TestFolder/Input/1.avi")
b = os.fstat(a.fileno()).st_size
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os.fstat(file_obj.fileno()).st_size should do the trick. I think that it will return the bytes written. You can always do a flush before hand if you are concerned about buffering.

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Most reliable would be create a wrapping class which would check file's size when you open it, track write and seek operations, count current size based on those operations and prevent from exceeding size limit.

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I'm not familiar with python, but doesn't the stream object (or whatever you get when opening a file) have a property that contains the current position of the stream?

Similar to what you get with the ftell() C function, or Stream.Position in .NET.

Obviously, this only works if you are positioned at the end of the stream, which you are if you are currently writing to it.

The benefit of this approach is that you don't have to close the file or worry about unflushed data.

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Or, if the file is already open:

>>> fsock = open('/etc/hosts', 'rb').read()
>>> len(fsock)

That's how many bytes the file is.

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Though this is an old question, I think that Isak has the simplest solution. Here's how to do it in Python:

# Assuming f is an open file
>>> pos = f.seek()  # Save the current position
>>> f.seek(0, 2)  # Seek to the end of the file
>>> length = f.tell()  # The current position is the length
>>> f.seek(pos)  # Return to the saved position
>>> print length
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