I have a text file which contains a time stamp on each line. My goal is to find the time range. All the times are in order so the first line will be the earliest time and the last line will be the latest time. I only need the very first and very last line. What would be the most efficient way to get these lines in python?

Note: These files are relatively large in length, about 1-2 million lines each and I have to do this for several hundred files.

12 Answers 12


To read both the first and final line of a file you could...

  • open the file, ...
  • ... read the first line using built-in readline(), ...
  • ... seek (move the cursor) to the end of the file, ...
  • ... step backwards until you encounter EOL (line break) and ...
  • ... read the last line from there.
def readlastline(f):
    f.seek(-2, 2)              # Jump to the second last byte.
    while f.read(1) != b"\n":  # Until EOL is found ...
        f.seek(-2, 1)          # ... jump back, over the read byte plus one more.
    return f.read()            # Read all data from this point on.
with open(file, "rb") as f:
    first = f.readline()
    last = readlastline(f)

Jump to the second last byte directly to prevent trailing newline characters to cause empty lines to be returned*.

The current offset is pushed ahead by one every time a byte is read so the stepping backwards is done two bytes at a time, past the recently read byte and the byte to read next.

The whence parameter passed to fseek(offset, whence=0) indicates that fseek should seek to a position offset bytes relative to...

* As would be expected as the default behavior of most applications, including print and echo, is to append one to every line written and has no effect on lines missing trailing newline character.


1-2 million lines each and I have to do this for several hundred files.

I timed this method and compared it against against the top answer.

10k iterations processing a file of 6k lines totalling 200kB: 1.62s vs 6.92s.
100 iterations processing a file of 6k lines totalling 1.3GB: 8.93s vs 86.95.

Millions of lines would increase the difference a lot more.

Exakt code used for timing:

with open(file, "rb") as f:
    first = f.readline()     # Read and store the first line.
    for last in f: pass      # Read all lines, keep final value.


A more complex, and harder to read, variation to address comments and issues raised since.

  • Return empty string when parsing empty file, raised by comment.
  • Return all content when no delimiter is found, raised by comment.
  • Avoid relative offsets to support text mode, raised by comment.
  • UTF16/UTF32 hack, noted by comment.

Also adds support for multibyte delimiters, readlast(b'X<br>Y', b'<br>', fixed=False).

Please note that this variation is really slow for large files because of the non-relative offsets needed in text mode. Modify to your need, or do not use it at all as you're probably better off using f.readlines()[-1] with files opened in text mode.


from os import SEEK_END

def readlast(f, sep, fixed=True):
    r"""Read the last segment from a file-like object.

    :param f: File to read last line from.
    :type  f: file-like object
    :param sep: Segment separator (delimiter).
    :type  sep: bytes, str
    :param fixed: Treat data in ``f`` as a chain of fixed size blocks.
    :type  fixed: bool
    :returns: Last line of file.
    :rtype: bytes, str
    bs   = len(sep)
    step = bs if fixed else 1
    if not bs:
        raise ValueError("Zero-length separator.")
        o = f.seek(0, SEEK_END)
        o = f.seek(o-bs-step)    # - Ignore trailing delimiter 'sep'.
        while f.read(bs) != sep: # - Until reaching 'sep': Read sep-sized block
            o = f.seek(o-step)   #  and then seek to the block to read next.
    except (OSError,ValueError): # - Beginning of file reached.
    return f.read()

def test_readlast():
    from io import BytesIO, StringIO
    # Text mode.
    f = StringIO("first\nlast\n")
    assert readlast(f, "\n") == "last\n"
    # Bytes.
    f = BytesIO(b'first|last')
    assert readlast(f, b'|') == b'last'
    # Bytes, UTF-8.
    f = BytesIO("X\nY\n".encode("utf-8"))
    assert readlast(f, b'\n').decode() == "Y\n"
    # Bytes, UTF-16.
    f = BytesIO("X\nY\n".encode("utf-16"))
    assert readlast(f, b'\n\x00').decode('utf-16') == "Y\n"
    # Bytes, UTF-32.
    f = BytesIO("X\nY\n".encode("utf-32"))
    assert readlast(f, b'\n\x00\x00\x00').decode('utf-32') == "Y\n"
    # Multichar delimiter.
    f = StringIO("X<br>Y")
    assert readlast(f, "<br>", fixed=False) == "Y"
    # Make sure you use the correct delimiters.
    seps = { 'utf8': b'\n', 'utf16': b'\n\x00', 'utf32': b'\n\x00\x00\x00' }
    assert "\n".encode('utf8' )     == seps['utf8']
    assert "\n".encode('utf16')[2:] == seps['utf16']
    assert "\n".encode('utf32')[4:] == seps['utf32']
    # Edge cases.
    edges = (
        # Text , Match
        (""    , ""  ), # Empty file, empty string.
        ("X"   , "X" ), # No delimiter, full content.
        ("\n"  , "\n"),
        ("\n\n", "\n"),
        # UTF16/32 encoded U+270A (b"\n\x00\n'\n\x00"/utf16)
        (b'\n\xe2\x9c\x8a\n'.decode(), b'\xe2\x9c\x8a\n'.decode()),
    for txt, match in edges:
        for enc,sep in seps.items():
            assert readlast(BytesIO(txt.encode(enc)), sep).decode(enc) == match

if __name__ == "__main__":
    import sys
    for path in sys.argv[1:]:
        with open(path) as f:
            print(f.readline()    , end="")
            print(readlast(f,"\n"), end="")
  • 4
    This is the most concise solution, and I like it. The nice part about not guessing a blocksize is that it works well with small test files. I added a few lines and wrapped it in a function I fondly call tail_n.
    – MarkHu
    Jun 27, 2014 at 3:56
  • 1
    I love it on the paper but can't have it to work. File "mapper1.2.2.py", line 17, in get_last_line f.seek(-2, 2) IOError: [Errno 22] Invalid argument
    – Loïc
    Sep 29, 2014 at 14:12
  • 2
    Nevermind, file was empty, derp. Best answer anyway. +1
    – Loïc
    Sep 29, 2014 at 14:22
  • 2
    As per this comment as an answer, this while f.read(1) != "\n": should be while f.read(1) != b"\n":
    – Artjom B.
    Jul 17, 2015 at 16:49
  • 5
    Also for the record: If you get the exception io.UnsupportedOperation: can't do nonzero end-relative seeks, you have to do it in two steps: first find the length of the file, then add the offset, then pass that to f.seek(size+offset,os.SEEK_SET) Feb 8, 2016 at 22:14

docs for io module

with open(fname, 'rb') as fh:
    first = next(fh).decode()

    fh.seek(-1024, 2)
    last = fh.readlines()[-1].decode()

The variable value here is 1024: it represents the average string length. I choose 1024 only for example. If you have an estimate of average line length you could just use that value times 2.

Since you have no idea whatsoever about the possible upper bound for the line length, the obvious solution would be to loop over the file:

for line in fh:
last = line

You don't need to bother with the binary flag you could just use open(fname).

ETA: Since you have many files to work on, you could create a sample of couple of dozens of files using random.sample and run this code on them to determine length of last line. With an a priori large value of the position shift (let say 1 MB). This will help you to estimate the value for the full run.

  • As long as the lines aren't longer than 1024 characters.
    – FogleBird
    Jul 27, 2010 at 18:08
  • There is no guarantee that the lines aren't longer than 1024 characters, there may be some other junk besides the timestamps on the line.
    – pasbino
    Jul 27, 2010 at 18:10
  • @pasbino: do you have some upper bound? Jul 27, 2010 at 18:11
  • 20
    Using fh.seek(-1024, os.SEEK_END) instead of fh.seek(-1024, 2) increases readability.
    – marsl
    May 12, 2014 at 16:31
  • 3
    The following is not true: You don't need to bother with the binary flag you could just use open(fname). Opening with b flag is crucial. If you use open(fname) instead of open(fname, 'rb') you will get io.UnsupportedOperation: can't do nonzero end-relative seeks. Jul 13, 2017 at 7:08

Here's a modified version of SilentGhost's answer that will do what you want.

with open(fname, 'rb') as fh:
    first = next(fh)
    offs = -100
    while True:
        fh.seek(offs, 2)
        lines = fh.readlines()
        if len(lines)>1:
            last = lines[-1]
        offs *= 2
    print first
    print last

No need for an upper bound for line length here.


Can you use unix commands? I think using head -1 and tail -n 1 are probably the most efficient methods. Alternatively, you could use a simple fid.readline() to get the first line and fid.readlines()[-1], but that may take too much memory.

  • Hmm would creating a subprocess to execute these commands be the most efficient way then?
    – pasbino
    Jul 27, 2010 at 18:10
  • 10
    If you do have unix then os.popen("tail -n 1 %s" % filename).read() gets the last line nicely. Jul 27, 2010 at 18:49
  • 1
    +1 for head -1 and tail -1. fid.readlines()[-1] is not a good solution for huge files. Sep 14, 2011 at 18:23
  • os.popen("tail -n 1 %s" % filename).read() --> Deprecated since version 2.6
    – LarsVegas
    Mar 17, 2016 at 10:07

This is my solution, compatible also with Python3. It does also manage border cases, but it misses utf-16 support:

def tail(filepath):
    @author Marco Sulla (marcosullaroma@gmail.com)
    @date May 31, 2016

        fp = str(filepath)
    except AttributeError:
        fp = filepath

    with open(fp, "rb") as f:
        size = os.stat(fp).st_size
        start_pos = 0 if size - 1 < 0 else size - 1

        if start_pos != 0:
            char = f.read(1)

            if char == b"\n":
                start_pos -= 1

            if start_pos == 0:
                char = ""

                for pos in range(start_pos, -1, -1):

                    char = f.read(1)

                    if char == b"\n":

        return f.readline()

It's ispired by Trasp's answer and AnotherParker's comment.


First open the file in read mode.Then use readlines() method to read line by line.All the lines stored in a list.Now you can use list slices to get first and last lines of the file.

    lines = a.readlines()
    if lines:
        first_line = lines[:1]
        last_line = lines[-1]
  • 1
    I was searching exactly this, i dont need first and last line, so lines[1,-2] gives the text between title and footer.
    – guneysus
    Oct 31, 2013 at 23:14
  • 4
    This option cannot handle empty files.
    – Avid Coder
    Mar 25, 2014 at 13:25
  • 9
    And crashes for very large files
    – akarapatis
    Dec 4, 2014 at 19:50
w=open(file.txt, 'r')
print ('first line is : ',w.readline())
for line in w:  
    x= line
print ('last line is : ',x)

The for loop runs through the lines and x gets the last line on the final iteration.

  • This should be the accepted answer. I don't know why there's all this messing around with low level io in the other answers? Jun 21, 2016 at 14:19
  • 3
    @GreenAsJade My understanding is that the "messing around" is to avoid reading the whole file from start to end. This might be inefficient on a large file.
    – bli
    Sep 14, 2017 at 14:40
with open("myfile.txt") as f:
    lines = f.readlines()
    first_row = lines[0]
    print first_row
    last_row = lines[-1]
    print last_row
  • Can you explain why your solution will be better ?
    – Zulu
    Jan 31, 2015 at 2:26
  • Hi, I found myself in the same need, to remove the last comma at level of the last line in a text file, and in this way I solved to locate it easily; I thought then to share it. This solution has been simple, practical and immediate, but I don't know if it is the fastest in terms of efficiency. What can you tell me about it? Feb 3, 2015 at 2:26
  • Well, it has to read and process the entire file so it seems like the least efficient way.
    – rakslice
    May 1, 2015 at 23:24
  • Ok...so, if you don't know the string length, which would be the best one method? I need to try the other one (stackoverflow.com/a/3346492/2149425). Thank you! May 4, 2015 at 18:43
  • 1
    use f.readlines()[-1] insead of new variable. 0 = First Line, 1 = Second Line, -1 = Last Line, -2 = Line Before Last Line...
    – BladeMight
    Aug 5, 2016 at 2:17

Here is an extension of @Trasp's answer that has additional logic for handling the corner case of a file that has only one line. It may be useful to handle this case if you repeatedly want to read the last line of a file that is continuously being updated. Without this, if you try to grab the last line of a file that has just been created and has only one line, IOError: [Errno 22] Invalid argument will be raised.

def tail(filepath):
    with open(filepath, "rb") as f:
        first = f.readline()      # Read the first line.
        f.seek(-2, 2)             # Jump to the second last byte.
        while f.read(1) != b"\n": # Until EOL is found...
                f.seek(-2, 1)     # ...jump back the read byte plus one more.
            except IOError:
                f.seek(-1, 1)
                if f.tell() == 0:
        last = f.readline()       # Read last line.
    return last

Nobody mentioned using reversed:

last_line_of_file = r.next()
  • 5
    .readlines() will read all lines from the file into memory in one go - it is not a solution to this problem Jul 3, 2018 at 13:52

Getting the first line is trivially easy. For the last line, presuming you know an approximate upper bound on the line length, os.lseek some amount from SEEK_END find the second to last line ending and then readline() the last line.

  • I do not have an approximate upper bound on line length
    – pasbino
    Jul 27, 2010 at 18:11
with open(filename, "rb") as f:#Needs to be in binary mode for the seek from the end to work
    first = f.readline()
    if f.read(1) == '':
        return first
    f.seek(-2, 2)  # Jump to the second last byte.
    while f.read(1) != b"\n":  # Until EOL is found...
        f.seek(-2, 1)  # ...jump back the read byte plus one more.
    last = f.readline()  # Read last line.
    return last

The above answer is a modified version of the above answers which handles the case that there is only one line in the file

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