Does anybody happen to know why when you iterate over a file this way:


f = open('test.txt', 'r')
for line in f:
    print "f.tell(): ",f.tell()


f.tell(): 8192
f.tell(): 8192
f.tell(): 8192
f.tell(): 8192

I consistently get the wrong file index from tell(), however, if I use readline I get the appropriate index for tell():


f = open('test.txt', 'r')
while True:
    line = f.readline()
    if (line == ''):
    print "f.tell(): ",f.tell()


f.tell(): 103
f.tell(): 107
f.tell(): 115
f.tell(): 124

I'm running python 2.7.1 BTW.

  • 1
    just covering the required question: are you sure that you have not reached the end of the file in the first example? – Inbar Rose Jan 3 '13 at 18:41

Using open files as an iterator uses a read-ahead buffer to increase efficiency. As a result, the file pointer advances in large steps across the file as you loop over the lines.

From the File Objects documentation:

In order to make a for loop the most efficient way of looping over the lines of a file (a very common operation), the next() method uses a hidden read-ahead buffer. As a consequence of using a read-ahead buffer, combining next() with other file methods (like readline()) does not work right. However, using seek() to reposition the file to an absolute position will flush the read-ahead buffer.

If you need to rely on .tell(), don't use the file object as an iterator. You can turn .readline() into an iterator instead (at the price of some performance loss):

for line in iter(f.readline, ''):
    print f.tell()

This uses the iter() function sentinel argument to turn any callable into an iterator.

  • 2
    Just to add to this, if you know where the file has started from (e.g. from 0 or a previous seek(), you can just keep track of the file position manually instead of using tell(). Just increment a counter by the length of each line you read from next(). Now you have a 'correct' file position and the performance boost from the readahead. – Tom Dalton Feb 17 '15 at 17:44
  • 5
    @TomDalton: You cannot do this on a Windows platform as line separators are translated. Reading a line there gives you x characters for every x + 1 bytes on disk. This also doesn't work when using io.open() where multi-byte characters on disk are decoded to one unicode codepoint. Luckily io.open() file objects don't need the work-around presented in this answer. – Martijn Pieters Feb 17 '15 at 17:49
  • 1
    @MartijnPieters. Shameless self-advertisement: stackoverflow.com/q/48055409/2988730. Is this the same reason that tell was completely disabled in Py3 on iteration? – Mad Physicist Jan 2 '18 at 5:10
  • 1
    @MadPhysicist: no, the reasons for Python 3 are different; the TextIO* wrappers rely on several layers of buffering and supporting tell would have serious performance implications. – Martijn Pieters Jan 2 '18 at 8:28

The answer lies in the following part of Python 2.7 source code (fileobject.c):


static PyObject *
file_iternext(PyFileObject *f)
    PyStringObject* l;

    if (f->f_fp == NULL)
        return err_closed();
    if (!f->readable)
        return err_mode("reading");

    l = readahead_get_line_skip(f, 0, READAHEAD_BUFSIZE);
    if (l == NULL || PyString_GET_SIZE(l) == 0) {
        return NULL;
    return (PyObject *)l;

As you can see, file's iterator interface reads the file in blocks of 8KB. This explains why f.tell() behaves the way it does.

The documentation suggests it's done for performance reasons (and does not guarantee any particular size of the readahead buffer).


I experienced the same read-ahead buffer issue and solved it using Martijn's suggestion.

I've since generalized my solution for anyone else looking to do such things:


Happy CSV parsing!

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