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I'm writing a log file viewer for a web application and for that I want to paginate through the lines of the log file. The items in the file are line based with the newest item on the bottom.

So I need a tail() method that can read n lines from the bottom and supports an offset. What I came up with looks like this:

def tail(f, n, offset=0):
    """Reads a n lines from f with an offset of offset lines."""
    avg_line_length = 74
    to_read = n + offset
    while 1:
   * to_read), 2)
        except IOError:
            # woops.  apparently file is smaller than what we want
            # to step back, go to the beginning instead
        pos = f.tell()
        lines =
        if len(lines) >= to_read or pos == 0:
            return lines[-to_read:offset and -offset or None]
        avg_line_length *= 1.3

Is this a reasonable approach? What is the recommended way to tail log files with offsets?

share|improve this question
On my system (linux SLES 10), seeking relative to the end raises an IOError "can't do nonzero end-relative seeks". I like this solution but have modified it to get the file length (seek(0,2) then tell()), and use that value to seek relative to the beginning. – Anne Feb 7 '12 at 17:19
Congrats - this question made it into the Kippo source code – i-live-in-a-storm-drain Feb 28 '14 at 10:15

19 Answers 19

This may be quicker than yours. Makes no assumptions about line length. Backs through the file one block at a time till it's found the right number of '\n' characters.

def tail( f, lines=20 ):
    total_lines_wanted = lines

    BLOCK_SIZE = 1024, 2)
    block_end_byte = f.tell()
    lines_to_go = total_lines_wanted
    block_number = -1
    blocks = [] # blocks of size BLOCK_SIZE, in reverse order starting
                # from the end of the file
    while lines_to_go > 0 and block_end_byte > 0:
        if (block_end_byte - BLOCK_SIZE > 0):
            # read the last block we haven't yet read
            # file too small, start from begining
            # only read what was not read
        lines_found = blocks[-1].count('\n')
        lines_to_go -= lines_found
        block_end_byte -= BLOCK_SIZE
        block_number -= 1
    all_read_text = ''.join(reversed(blocks))
    return '\n'.join(all_read_text.splitlines()[-total_lines_wanted:])

I don't like tricky assumptions about line length when -- as a practical matter -- you can never know things like that.

Generally, this will locate the last 20 lines on the first or second pass through the loop. If your 74 character thing is actually accurate, you make the block size 2048 and you'll tail 20 lines almost immediately.

Also, I don't burn a lot of brain calories trying to finesse alignment with physical OS blocks. Using these high-level I/O packages, I doubt you'll see any performance consequence of trying to align on OS block boundaries. If you use lower-level I/O, then you might see a speedup.

share|improve this answer
This fails on small logfiles -- IOError: invalid argument -- block*1024, 2 ) – ohnoes Dec 4 '09 at 11:19
Very nice approach indeed. I used a slightly modified version of the code above and came up with this recipe: – Giampaolo Rodolà Nov 29 '11 at 19:32
No longer works in python 3.2. I'm getting io.UnsupportedOperation: can't do nonzero end-relative seeks I can change the offset to 0, but that defeats the purpose of the function. – Logical Fallacy May 1 '12 at 21:27
@DavidEnglund Reason is here. In brief: seeking relative to the end of the file is not allowed in text mode, presumably because the file contents have to be decoded, and, in general, seeking to an arbitrary position within a sequence of encoded bytes can have undefined results when you attempt to decode to Unicode starting from that position. The suggestion offered at the link is to try opening the file in binary mode and do the decoding yourself, catching the DecodeError exceptions. – max Sep 10 '12 at 19:23
DON'T USE THIS CODE. It corrupts lines in some border cases in python 2.7. The answer from @papercrane below fixes it. – xApple Apr 29 '13 at 10:19

Assumes a unix-like system.

import os
def tail(f, n, offset=0):
  stdin,stdout = os.popen2("tail -n "+n+offset+" "+f)
  lines = stdout.readlines(); stdout.close()
  return lines[:,-offset]
share|improve this answer
Should be platform independent. Besides, if you read the question you will see that f is a file like object. – Armin Ronacher Sep 25 '08 at 21:57
the question doesn't say platform dependence is unacceptable. i fail to see why this deserves two downvotes when it provides a very unixy (may be what you're looking for... certainly was for me) way of doing exactly what the question asks. – Shabbyrobe Jun 3 '09 at 4:27
Thanks, I was thinking I had to solve this in pure Python but there's no reason not to use UNIX utilities when they are at hand, so I went with this. FWIW in modern Python, subprocess.check_output is likely preferable to os.popen2; it simplifies things a bit as it just returns the output as a string, and raises on a non-zero exit code. – mrooney Oct 30 '13 at 1:35
Although this is platform dependent, it is a very efficient way of doing what has been asked, as well as being an extremely fast way of doing it (You don't have to load the entire file into memory). @Shabbyrobe – earthmeLon Nov 21 '14 at 22:53

If reading the whole file is acceptable then use a deque.

from collections import deque
deque(f, maxlen=n)

Prior to 2.6, deques didn't have a maxlen option, but it's easy enough to implement.

import itertools
def maxque(items, size):
    items = iter(items)
    q = deque(itertools.islice(items, size))
    for item in items:
    	del q[0]
    return q

If it's a requirement to read the file from the end, then use a gallop (a.k.a exponential) search.

def tail(f, n):
    assert n >= 0
    pos, lines = n+1, []
    while len(lines) <= n:
    	try:, 2)
    	except IOError:
    		lines = list(f)
    	pos *= 2
    return lines[-n:]
share|improve this answer
Why does that bottom function work? pos *= 2 seems completely arbitrary. What is its significance? – 2mac Dec 29 '14 at 19:06
@2mac Exponential Search. It reads from the end of file iteratively, doubling the amount read each time, until enough lines are found. – Coady Mar 16 at 23:08
up vote 16 down vote accepted

The code I ended up using. I think this is the best so far:

def tail(f, n, offset=None):
    """Reads a n lines from f with an offset of offset lines.  The return
    value is a tuple in the form ``(lines, has_more)`` where `has_more` is
    an indicator that is `True` if there are more lines in the file.
    avg_line_length = 74
    to_read = n + (offset or 0)

    while 1:
   * to_read), 2)
        except IOError:
            # woops.  apparently file is smaller than what we want
            # to step back, go to the beginning instead
        pos = f.tell()
        lines =
        if len(lines) >= to_read or pos == 0:
            return lines[-to_read:offset and -offset or None], \
                   len(lines) > to_read or pos > 0
        avg_line_length *= 1.3
share|improve this answer
does not exactly answer the question. – sheki Feb 13 '12 at 13:43
Good starting point, thanks – radtek Apr 14 at 16:53

S.Lott's answer above almost works for me but ends up giving me partial lines. It turns out that it corrupts data on block boundaries because data holds the read blocks in reversed order. When ''.join(data) is called, the blocks are in the wrong order. This fixes that.

def tail(f, window=20):
    Returns the last `window` lines of file `f` as a list.
    if window == 0:
        return []
    BUFSIZ = 1024, 2)
    bytes = f.tell()
    size = window + 1
    block = -1
    data = []
    while size > 0 and bytes > 0:
        if bytes - BUFSIZ > 0:
            # Seek back one whole BUFSIZ
   * BUFSIZ, 2)
            # read BUFFER
            # file too small, start from begining
            # only read what was not read
        linesFound = data[0].count('\n')
        size -= linesFound
        bytes -= BUFSIZ
        block -= 1
    return ''.join(data).splitlines()[-window:]
share|improve this answer

Simple and fast solution with mmap:

import mmap
import os

def tail(filename, n):
    """Returns last n lines from the filename. No exception handling"""
    size = os.path.getsize(filename)
    with open(filename, "rb") as f:
        # for Windows the mmap parameters are different
        fm = mmap.mmap(f.fileno(), 0, mmap.MAP_SHARED, mmap.PROT_READ)
            for i in xrange(size - 1, -1, -1):
                if fm[i] == '\n':
                    n -= 1
                    if n == -1:
            return fm[i + 1 if i else 0:].splitlines()
share|improve this answer
This is probably the fastest answer when the input could be huge (or it would be, if it used the .rfind method to scan backwards for newlines, rather than performing byte at a time checks at the Python level; in CPython, replacing Python level code with C built-in calls usually wins by a lot). For smaller inputs, the deque with a maxlen is simpler and probably similarly fast. – ShadowRanger Nov 19 at 18:41

Here is my answer. Pure python. Using timeit it seems pretty fast. Tailing 100 lines of a log file that has 100,000 lines:

>>> timeit.timeit('tail.tail(f, 100, 4098)', 'import tail; f = open("log.txt", "r");', number=10)
>>> timeit.timeit('tail.tail(f, 100, 4098)', 'import tail; f = open("log.txt", "r");', number=100)
>>> timeit.timeit('tail.tail(f, 100, 4098)', 'import tail; f = open("log.txt", "r");', number=1000)
>>> timeit.timeit('tail.tail(f, 100, 4098)', 'import tail; f = open("log.txt", "r");', number=10000)
>>> timeit.timeit('tail.tail(f, 100, 4098)', 'import tail; f = open("log.txt", "r");', number=100000)

Here is the code:

import os

def tail(f, lines=1, _buffer=4098):
    """Tail a file and get X lines from the end"""
    # place holder for the lines found
    lines_found = []

    # block counter will be multiplied by buffer
    # to get the block size from the end
    block_counter = -1

    # loop until we find X lines
    while len(lines_found) < lines:
   * _buffer, os.SEEK_END)
        except IOError:  # either file is too small, or too many lines requested
            lines_found = f.readlines()

        lines_found = f.readlines()

        # we found enough lines, get out
        if len(lines_found) > lines:

        # decrement the block counter to get the
        # next X bytes
        block_counter -= 1

    return lines_found[-lines:]
share|improve this answer

I found the Popen above to be the best solution. It's quick and dirty and it works For python 2.6 on Unix machine i used the following

    def GetLastNLines(self, n, fileName):
    Name:           Get LastNLines
    Description:        Gets last n lines using Unix tail
    Output:         returns last n lines of a file
    Keyword argument:
    n -- number of last lines to return
    filename -- Name of the file you need to tail into
    p=subprocess.Popen(['tail','-n',str(n),self.__fileName], stdout=subprocess.PIPE)
    return soutput

soutput will have will contain last n lines of the code. to iterate through soutput line by line do:

for line in GetLastNLines(50,'myfile.log').split('\n'):
    print line
share|improve this answer

based on S.Lott's top voted answer (Sep 25 '08 at 21:43), but fixed for small files.

def tail(the_file, lines_2find=20):, 2)                         #go to end of file
    bytes_in_file = the_file.tell()             
    lines_found, total_bytes_scanned = 0, 0
    while lines_2find+1 > lines_found and bytes_in_file > total_bytes_scanned: 
        byte_block = min(1024, bytes_in_file-total_bytes_scanned), 2)
        total_bytes_scanned += byte_block
        lines_found +='\n'), 2)
    line_list = list(the_file.readlines())
    return line_list[-lines_2find:]

    #we read at least 21 line breaks from the bottom, block by block for speed
    #21 to ensure we don't get a half line

Hope this is useful.

share|improve this answer

For efficiency with very large files (common in logfile situations where you may want to use tail), you generally want to avoid reading the whole file (even if you do do it without reading the whole file into memory at once) However, you do need to somehow work out the offset in lines rather than characters. One possibility is reading backwards with seek() char by char, but this is very slow. Instead, its better to process in larger blocks.

I've a utility function I wrote a while ago to read files backwards that can be used here.

import os, itertools

def rblocks(f, blocksize=4096):
    """Read file as series of blocks from end of file to start.

    The data itself is in normal order, only the order of the blocks is reversed.
    ie. "hello world" -> ["ld","wor", "lo ", "hel"]
    Note that the file must be opened in binary mode.
    if 'b' not in f.mode.lower():
        raise Exception("File must be opened using binary mode.")
    size = os.stat(
    fullblocks, lastblock = divmod(size, blocksize)

    # The first(end of file) block will be short, since this leaves 
    # the rest aligned on a blocksize boundary.  This may be more 
    # efficient than having the last (first in file) block be short,2)

    for i in range(fullblocks-1,-1, -1): * blocksize)

def tail(f, nlines):
    buf = ''
    result = []
    for block in rblocks(f):
        buf = block + buf
        lines = buf.splitlines()

        # Return all lines except the first (since may be partial)
        if lines:
            result.extend(lines[1:]) # First line may not be complete
            if(len(result) >= nlines):
                return result[-nlines:]

            buf = lines[0]

    return ([buf]+result)[-nlines:]

for line in tail(f, 20):
    print line

[Edit] Added more specific version (avoids need to reverse twice)

share|improve this answer
A quick tests shows that this performs a lot worse than my version from above. Probably because of your buffering. – Armin Ronacher Sep 25 '08 at 22:00
I suspect it's because I'm doing multiple seeks backwards, so aren't getting as good use of the readahead buffer. However, I think it may do better when your guess at the line length isn't accurate (eg. very large lines), as it avoids having to re-read data in this case. – Brian Sep 25 '08 at 22:23

you can go to the end of your file with, 2) and then read off lines one by one with the following replacement for readline():

def readline_backwards(self, f):
    backline = ''
    last = ''
    while not last == '\n':
        backline = last + backline
        if f.tell() <= 0:
            return backline, 1)
        last =, 1)
    backline = last
    last = ''
    while not last == '\n':
        backline = last + backline
        if f.tell() <= 0:
            return backline, 1)
        last =, 1), 1)
    return backline
share|improve this answer

Based on Eyecue answer (Jun 10 '10 at 21:28): this class add head() and tail() method to file object.

class File(file):
    def head(self, lines_2find=1):                            #Rewind file
        return [ for x in xrange(lines_2find)]

    def tail(self, lines_2find=1): , 2)                         #go to end of file
        bytes_in_file = self.tell()             
        lines_found, total_bytes_scanned = 0, 0
        while (lines_2find+1 > lines_found and
               bytes_in_file > total_bytes_scanned): 
            byte_block = min(1024, bytes_in_file-total_bytes_scanned)
  , 2)
            total_bytes_scanned += byte_block
            lines_found +='\n'), 2)
        line_list = list(self.readlines())
        return line_list[-lines_2find:]


f = File('path/to/file', 'r')
share|improve this answer

Several of these solutions have issues if the file doesn't end in \n or in ensuring the complete first line is read.

def tail(file, n=1, bs=1024):
    f = open(file),2)
    l ='\n') # If file doesn't end in \n, count it anyway.
    B = f.tell()
    while n >= l and B > 0:
            block = min(bs, B)
            B -= block
  , 0)
            l +='\n'), 0)
    l = min(l,n) # discard first (incomplete) line if l > n
    lines = f.readlines()[-l:]
    return lines
share|improve this answer

I had to read a specific value from the last line of a file, and stumbled upon this thread. Rather than reinventing the wheel in Python, I ended up with a tiny shell script, saved as /usr/local/bin/get_last_netp:

#! /bin/bash
tail -n1 /home/leif/projects/transfer/export.log | awk {'print $14'}

And in the Python program:

from subprocess import check_output

last_netp = int(check_output("/usr/local/bin/get_last_netp"))
share|improve this answer

There are some existing implementations of tail on pypi which you can install using pip:

  • mtFileUtil
  • multitail
  • log4tailer
  • ...

Depending on your situation, there may be advantages to using one of these existing tools.

share|improve this answer

Not the first example using a deque, but a simpler one. This one is general: it works on any iterable object, not just a file.

#!/usr/bin/env python
import sys
import collections
def tail(iterable, N):
    deq = collections.deque()
    for thing in iterable:
        if len(deq) >= N:
    for thing in deq:
        yield thing
if __name__ == '__main__':
    for line in tail(sys.stdin,10):
share|improve this answer
This is my version of tailf

import sys, time, os

filename = 'path to file'

    with open(filename) as f:
        size = os.path.getsize(filename)
        if size < 1024:
            s = size
            s = 999, 2)
        l =
        print l
        while True:
            line = f.readline()
            if not line:
            print line
except IOError:
share|improve this answer
import time

attemps = 600
wait_sec = 5
fname = "YOUR_PATH"

with open(fname, "r") as f:
    where = f.tell()
    for i in range(attemps):
        line = f.readline()
        if not line:
            print line, # already has newline
share|improve this answer

On second thought, this is probably just as fast as anything here.

def tail( f, window=20 ):
    lines= ['']*window
    count= 0
    for l in f:
        lines[count%window]= l
        count += 1
    print lines[count%window:], lines[:count%window]

It's a lot simpler. And it does seem to rip along at a good pace.

share|improve this answer
Because nearly everything here doesn't work with log files with more than 30 MB or so without loading the same amount of memory into the RAM ;) Your first version is a lot better, but for the test files here it performs slightly worse than mine and it doesn't work with different newline characters. – Armin Ronacher Sep 25 '08 at 22:06
I was wrong. Version 1 took 0.00248908996582 for 10 tails through the dictionary. Version 2 took 1.2963051796 for 10 tails through the dictionary. I'd almost vote myself down. – S.Lott Sep 25 '08 at 22:06
"doesn't work with different newline characters." Replace datacount('\n') with len(data.splitlines()) if it matters. – S.Lott Sep 25 '08 at 22:15

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