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I have a file object which may or may not be open in universal mode. (I can access this mode with file.mode, if that helps).

I want to deal with this file using the standard io methods: read and seek.

If I open the file in non-universal mode, everything works nicely:

In [1]: f = open('example', 'r')

In [2]: f.read()
Out[2]: 'Line1\r\nLine2\r\n' # uhoh, this file has carriage returns

In [3]: f.seek(0)

In [4]: f.read(8)
Out[4]: 'Line1\r\nL'

In [5]: f.seek(-8, 1)

In [6]: f.read(8)
Out[6]: 'Line1\r\nL' # as expected, this is the same as before

In [7]: f.close()

However, if I open the file in universal mode, we have a problem:

In [8]: f = open('example', 'rU')

In [9]: f.read()
Out[9]: 'Line1\nLine2\n' # no carriage returns - thanks, 'U'!

In [10]: f.seek(0)

In [11]: f.read(8)
Out[11]: 'Line1\nLi'

In [12]: f.seek(-8, 1)

In [13]: f.read(8)
Out[13]: 'ine1\nLin' # NOT the same output, as what we read as '\n' was *2* bytes

Python interprets the \r\n as a \n, and returns a string of length 8.

However, creating this string involved reading 9 bytes from the file.

As a result, when trying to reverse the read using seek, we don't get back to where we started!


Is there a way to identify that we consumed a 2-byte newline or, better yet, disable this behaviour?

The best I can come up with at the moment is to do a tell before and after the read, and check how much we actually got, but that seems incredibly inelegant.


As an aside, it seems to me that this behaviour is actually contrary to the documentation of read:

In [54]: f.read?
Type:       builtin_function_or_method
String Form:<built-in method read of file object at 0x1a35f60>
Docstring:
read([size]) -> read at most size bytes, returned as a string.

If the size argument is negative or omitted, read until EOF is reached.
Notice that when in non-blocking mode, less data than what was requested
may be returned, even if no size parameter was given.

To my reading, that suggests that at most size bytes should be read, not returned.

In particular, I believe that the correct semantics of the above example should be:

In [11]: f.read(8)
Out[11]: 'Line1\nL' # return a string of length *7*

Am I misunderstanding the documentation?

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2  
Text-mode I/O was created by the devil to foil the schemes of humankind. Avoid it like the plague. –  user3553031 Jun 28 '14 at 11:17
1  
What you ask isn't possible. Just open the file in binary mode and work with that. Or use io.open(..., newline='\n') to disable universal newlines. –  Bakuriu Jun 28 '14 at 16:47

3 Answers 3

What are you really trying to do?

If your reason for reading forwards and then seeking backwards is that you want to return to a particular point in the file, then use tell() to record where you are. That's easier than keeping track of how many bytes you read.

savepos = f.tell()
f.read(8)
f.seek(savepos)
f.read(8)
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I'm listing a workaround here in an answer, although I am by no means satisfied.

Given that the underlying problem is the discrepancy between the length of a \n in universal mode, and the number of bytes it actually represents in the file, one way to avoid the error is to read from an intermediate stream for which \n actually does represent one byte:

def wrap_stream(f):
    # if this stream is a file, it's possible to just throw the contents in
    # another stream
    # alternatively, we could implement an io object which used a generator to
    # read lines from f and interpose newlines as required
    return StringIO(f.read())

The new io object returned from wrap_stream will show newlines as \n, no matter what mode the file was opened in.

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Would it be acceptable to use fdopen to get a new file object on the existing descriptor, but without the offending 'U' mode, and use that for seeking? For example:

>>> import os
>>> f=open('example','rU')
>>> f.read()
'Line1\nLine2\n'
>>> ff=os.fdopen(f.fileno(),'r')
>>> ff.seek(0)
>>> ff.read()
'Line1\r\nLine2\r\n'
>>> ff.seek(-7,1)
>>> f.read()
'Line2\n'
>>>

So you can have the file in whatever mode works for you without having to close it and reopen it in that mode.

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