I'm using a for loop to read a file, but I only want to read specific lines, say line #26 and #30. Is there any built-in feature to achieve this?


30 Answers 30


If the file to read is big, and you don't want to read the whole file in memory at once:

fp = open("file")
for i, line in enumerate(fp):
    if i == 25:
        # 26th line
    elif i == 29:
        # 30th line
    elif i > 29:

Note that i == n-1 for the nth line.

In Python 2.6 or later:

with open("file") as fp:
    for i, line in enumerate(fp):
        if i == 25:
            # 26th line
        elif i == 29:
            # 30th line
        elif i > 29:
  • 3
    +1 Better solution than mine if the entire file isn't loaded into memory as in linecache. Are you sure that enumerate(fp) doesn't do that?
    – Adam Matan
    Commented Jan 17, 2010 at 17:37
  • 17
    enumerate(x) uses x.next, so it doesn't need the entire file in memory. Commented Jan 17, 2010 at 17:46
  • 3
    My small beef with this is that A) You want to use with instead of the open / close pair and thus keep the body short, B) But the body is not that short. Sounds like a trade-off between speed/space and being Pythonic. I am not sure what the best solution would be. Commented Jan 17, 2010 at 17:53
  • 7
    with is overrated, python got along fine for over 13 years without it
    – Dan D.
    Commented Sep 10, 2010 at 4:19
  • 70
    @Dan D. Electricity is overrated, mankind got along fine for over 200 thousand years without it. ;-) 'with' is making it more secure, more readable, and one line shorter. Commented Aug 20, 2017 at 17:01

The quick answer:

print lines[25]
print lines[29]


lines=[25, 29]
for line in f:
    if i in lines:
        print i

There is a more elegant solution for extracting many lines: linecache (courtesy of "python: how to jump to a particular line in a huge text file?", a previous stackoverflow.com question).

Quoting the python documentation linked above:

>>> import linecache
>>> linecache.getline('/etc/passwd', 4)

Change the 4 to your desired line number, and you're on. Note that 4 would bring the fifth line as the count is zero-based.

If the file might be very large, and cause problems when read into memory, it might be a good idea to take @Alok's advice and use enumerate().

To Conclude:

  • Use fileobject.readlines() or for line in fileobject as a quick solution for small files.
  • Use linecache for a more elegant solution, which will be quite fast for reading many files, possible repeatedly.
  • Take @Alok's advice and use enumerate() for files which could be very large, and won't fit into memory. Note that using this method might slow because the file is read sequentially.
  • 7
    Nice. I just looked at the source of linecache module, and looks like it reads the whole file in memory. So, if random access is more important than size optimization, linecache is the best method. Commented Jan 17, 2010 at 17:36
  • 7
    with linecache.getlin('some_file', 4) I get the 4th line, not the 5th.
    – Juan
    Commented Dec 11, 2014 at 18:14
  • fun fact: if you use a set instead of the list in the second example, you get O(1) running time. Look up in a list is O(n). Internally sets are represented as hashes, and thats why you get the O(1) running time. not a big deal in this example, but If using a large list of numbers, and care about efficiency, then sets are the way to go.
    – rady
    Commented Jun 24, 2015 at 17:26
  • linecache now appears to only work for python source files
    – Paul H
    Commented Oct 11, 2017 at 17:32
  • You can also use linecache.getlines('/etc/passwd')[0:4] to read in the first, second, third and fourth lines.
    – zyy
    Commented Dec 4, 2019 at 20:15

For the sake of offering another solution:

import linecache
linecache.getline('Sample.txt', Number_of_Line)

I hope this is quick and easy :)

  • 1
    Hope this is most optimal solution . Commented Oct 14, 2013 at 21:50
  • 7
    This reads the whole file into memory. You might as well call file.read().split('\n') then use array index lookups to get the line of interest...
    – duhaime
    Commented Jun 4, 2018 at 14:28
  • Could you provide an example @duhaime
    – anon
    Commented Jul 4, 2018 at 17:12
  • 1
    @anon ''.join(file.readlines()).split('\n'))[5:10] gives you row 6 to 10 for example. Not recommended, as it reads the whole file into memory. Commented Nov 30, 2020 at 19:39
  • Here is an example and it worked to me: def get_version(): versionLine = linecache.getline('config.php', 4) version = versionLine[19:24] return version
    – colidom
    Commented Oct 4, 2021 at 16:40

A fast and compact approach could be:

def picklines(thefile, whatlines):
  return [x for i, x in enumerate(thefile) if i in whatlines]

this accepts any open file-like object thefile (leaving up to the caller whether it should be opened from a disk file, or via e.g a socket, or other file-like stream) and a set of zero-based line indices whatlines, and returns a list, with low memory footprint and reasonable speed. If the number of lines to be returned is huge, you might prefer a generator:

def yieldlines(thefile, whatlines):
  return (x for i, x in enumerate(thefile) if i in whatlines)

which is basically only good for looping upon -- note that the only difference comes from using rounded rather than square parentheses in the return statement, making a list comprehension and a generator expression respectively.

Further note that despite the mention of "lines" and "file" these functions are much, much more general -- they'll work on any iterable, be it an open file or any other, returning a list (or generator) of items based on their progressive item-numbers. So, I'd suggest using more appropriately general names;-).

  • @ephemient, I disagree -- the genexp reads smoothly and perfectly. Commented Jan 18, 2010 at 6:00
  • Excellent and elegant solution, thanks! Indeed, even large files should be supported, with the generator expression. Can't get more elegant than this, can it? :) Commented Sep 11, 2014 at 14:37
  • Nice solution, how does this compare to the one proposed by @AdamMatan? The Adam solution could be faster as it exploits additional information (line numbers monotonically increasing) which could lead to an early stop. I have a 10GB file which I cannot load into memory.
    – Mannaggia
    Commented Nov 25, 2014 at 11:36
  • 2
    @Mannaggia It's not emphasized enough in this answer, but whatlines should be a set, because if i in whatlines will execute faster with a set rather than a (sorted) list. I didn't notice it first and instead devised my own ugly solution with sorted list (where I didn't have to scan a list each time, while if i in whatlines does just that), but difference in performance was negligible (with my data) and this solution is much more elegant.
    – Victor K
    Commented Apr 28, 2015 at 15:58

For the sake of completeness, here is one more option.

Let's start with a definition from python docs:

slice An object usually containing a portion of a sequence. A slice is created using the subscript notation, [] with colons between numbers when several are given, such as in variable_name[1:3:5]. The bracket (subscript) notation uses slice objects internally (or in older versions, __getslice__() and __setslice__()).

Though the slice notation is not directly applicable to iterators in general, the itertools package contains a replacement function:

from itertools import islice

# print the 100th line
with open('the_file') as lines:
    for line in islice(lines, 99, 100):
        print line

# print each third line until 100
with open('the_file') as lines:
    for line in islice(lines, 0, 100, 3):
        print line

The additional advantage of the function is that it does not read the iterator until the end. So you can do more complex things:

with open('the_file') as lines:
    # print the first 100 lines
    for line in islice(lines, 100):
        print line

    # then skip the next 5
    for line in islice(lines, 5):

    # print the rest
    for line in lines:
        print line

And to answer the original question:

# how to read lines #26 and #30
In [365]: list(islice(xrange(1,100), 25, 30, 4))
Out[365]: [26, 30]
  • 2
    By far the best approach when working with large files. My program went from consuming 8GB+ to almost nothing. The tradoff was CPU usage which went from ~15% to ~40% but the actual processing of the file was 70% faster. I'll take that tradoff all day long. Thanks you! 🎉🎉🎉
    – GollyJer
    Commented Sep 26, 2018 at 15:02
  • 2
    This seems the most pythonic to me. Thanks!
    – ipetrik
    Commented Dec 26, 2018 at 19:19
  • Most pythonic for now!
    – Joey Gao
    Commented Apr 7, 2022 at 11:57

if you want line 7

line = open("file.txt", "r").readlines()[7]
  • 15
    Neat. But how do you close() the file when opening it this way? Commented Oct 27, 2011 at 13:32
  • 1
    @0sh do we need to close?
    – Ooker
    Commented Aug 16, 2015 at 14:31
  • 4
    yes. we need to close after this.When we open a file using "with" ... it closes itself.
    – reetesh11
    Commented Jan 25, 2017 at 16:34
  • 1
    with open("file.txt", "r") as file: line = file.readlines()[7]. But mind that this reads the whole file into memory. Commented Nov 30, 2020 at 18:19

Reading files is incredible fast. Reading a 100MB file takes less than 0.1 seconds (see my article Reading and Writing Files with Python). Hence you should read it completely and then work with the single lines.

What most answer here do is not wrong, but bad style. Opening files should always be done with with as it makes sure that the file is closed again.

So you should do it like this:

with open("path/to/file.txt") as f:
    lines = f.readlines()
print(lines[26])  # or whatever you want to do with this line
print(lines[30])  # or whatever you want to do with this line

Huge files

If you happen to have a huge file and memory consumption is a concern, you can process it line by line:

with open("path/to/file.txt") as f:
    for i, line in enumerate(f):
        pass  # process line i
  • 1
    IMO it is a really bad style to read an entire file of unknown lenght, just only to get the first 30 lines .. what is about memory consumption .. and what is about endless streams?
    – return42
    Commented Sep 30, 2018 at 14:51
  • @return42 It depends very much on the application. For many, it is totally fine to assume that a text file has a way lower size than the available memory. If you happen to have potentially huge files, I've edited my answer. Commented Sep 30, 2018 at 15:31
  • thanks for your addition, which is the same as alok answer. And sorry no, I don't think this depends on the application. IMO it is always better not read more lines then you need.
    – return42
    Commented Oct 4, 2018 at 12:31
  • 4
    "Reading files is incredibly fast" I take issue with this. Reading files is, in fact, extremely slow, and data intensive programs will go out of their way to do it as little as possible. 0.1 seconds is nowhere near "fast" in computing terms. If you're only doing it once maybe it's okay (in some cases), but if you do that 1000 times it will take 100 seconds and that is nowhere near acceptable in most cases. Commented Aug 12, 2020 at 18:21
  • 1
    @michael dorst: I completely agree. It depends on your application, but we need to consider that he has to read the file anyway. The question is: what is the speed difference between reading line 26 and 30 only and reading a file with e.g. 500 lines. I'm assuming it's not way more, because that I would have expected to be mentioned. Commented Aug 13, 2020 at 7:45

Some of these are lovely, but it can be done much more simply:

start = 0 # some starting index
end = 5000 # some ending index
filename = 'test.txt' # some file we want to use

with open(filename) as fh:
    data = fin.readlines()[start:end]


That will use simply list slicing, it loads the whole file, but most systems will minimise memory usage appropriately, it's faster than most of the methods given above, and works on my 10G+ data files. Good luck!


If your large text file file is strictly well-structured (meaning every line has the same length l), you could use for n-th line

with open(file) as f:
    line = f.readline() 
    last_pos = f.tell()

Disclaimer This does only work for files with the same length!


You can do a seek() call which positions your read head to a specified byte within the file. This won't help you unless you know exactly how many bytes (characters) are written in the file before the line you want to read. Perhaps your file is strictly formatted (each line is X number of bytes?) or, you could count the number of characters yourself (remember to include invisible characters like line breaks) if you really want the speed boost.

Otherwise, you do have to read every line prior to the line you desire, as per one of the many solutions already proposed here.

with open("test.txt", "r") as fp:
   lines = fp.readlines()

test.txt is filename
prints line number four in test.txt

  • for larger file, readlines does not scale at all.
    – kta
    Commented Aug 6, 2023 at 7:16
def getitems(iterable, items):
  items = list(items) # get a list from any iterable and make our own copy
                      # since we modify it
  if items:
    for n, v in enumerate(iterable):
      if n == items[0]:
        yield v
        if not items:

print list(getitems(open("/usr/share/dict/words"), [25, 29]))
# ['Abelson\n', 'Abernathy\n']
# note that index 25 is the 26th item
  • Roger, my favorite guy! This could benefit from a with statement. Commented Jan 17, 2010 at 17:55

How about this:

>>> with open('a', 'r') as fin: lines = fin.readlines()
>>> for i, line in enumerate(lines):
      if i > 30: break
      if i == 26: dox()
      if i == 30: doy()
  • 1
    True, this is less efficient than the one by Alok, but mine uses a with statement ;) Commented Jan 17, 2010 at 17:33

If you don't mind importing then fileinput does exactly what you need (this is you can read the line number of the current line)


I prefer this approach because it's more general-purpose, i.e. you can use it on a file, on the result of f.readlines(), on a StringIO object, whatever:

def read_specific_lines(file, lines_to_read):
   """file is any iterable; lines_to_read is an iterable containing int values"""
   lines = set(lines_to_read)
   last = max(lines)
   for n, line in enumerate(file):
      if n + 1 in lines:
          yield line
      if n + 1 > last:

>>> with open(r'c:\temp\words.txt') as f:
        [s for s in read_specific_lines(f, [1, 2, 3, 1000])]
['A\n', 'a\n', 'aa\n', 'accordant\n']

Here's my little 2 cents, for what it's worth ;)

def indexLines(filename, lines=[2,4,6,8,10,12,3,5,7,1]):
    fp   = open(filename, "r")
    src  = fp.readlines()
    data = [(index, line) for index, line in enumerate(src) if index in lines]
    return data

# Usage below
filename = "C:\\Your\\Path\\And\\Filename.txt"
for line in indexLines(filename): # using default list, specify your own list of lines otherwise
    print "Line: %s\nData: %s\n" % (line[0], line[1])

A better and minor change for Alok Singhal's answer

fp = open("file")
for i, line in enumerate(fp,1):
    if i == 26:
        # 26th line
    elif i == 30:
        # 30th line
    elif i > 30:

You can do this very simply with this syntax that someone already mentioned, but it's by far the easiest way to do it:

inputFile = open("lineNumbers.txt", "r")
lines = inputFile.readlines()
print (lines[0])
print (lines[2])

Fairly quick and to the point.

To print certain lines in a text file. Create a "lines2print" list and then just print when the enumeration is "in" the lines2print list. To get rid of extra '\n' use line.strip() or line.strip('\n'). I just like "list comprehension" and try to use when I can. I like the "with" method to read text files in order to prevent leaving a file open for any reason.

lines2print = [26,30] # can be a big list and order doesn't matter.

with open("filepath", 'r') as fp:
    [print(x.strip()) for ei,x in enumerate(fp) if ei in lines2print]

or if list is small just type in list as a list into the comprehension.

with open("filepath", 'r') as fp:
    [print(x.strip()) for ei,x in enumerate(fp) if ei in [26,30]]

File objects have a .readlines() method which will give you a list of the contents of the file, one line per list item. After that, you can just use normal list slicing techniques.



@OP, you can use enumerate

for n,line in enumerate(open("file")):
    if n+1 in [26,30]: # or n in [25,29] 
       print line.rstrip()
file = '/path/to/file_to_be_read.txt'
with open(file) as f:
    print f.readlines()[26]
    print f.readlines()[30]

Using the with statement, this opens the file, prints lines 26 and 30, then closes the file. Simple!

  • this isn't a valid answer. after the first call to readlines() the iterator will be exhausted and the second call will either return an empty list or throw an error (can't remember which)
    – Paul H
    Commented Oct 11, 2017 at 17:34

To print line# 3,

line_number = 3

with open(filename,"r") as file:
current_line = 1
for line in file:
    if current_line == line_number:
    current_line += 1

Original author: Frank Hofmann


To print desired line. To print line above/below required line.

def dline(file,no,add_sub=0):
    for sno,line in enumerate(tf):
        if sno==no-1+add_sub:

execute---->dline("D:\dummy.txt",6) i.e dline("file path", line_number, if you want upper line of the searched line give 1 for lower -1 this is optional default value will be taken 0)


If you want to read specific lines, such as line starting after some threshold line then you can use the following codes, file = open("files.txt","r") lines = file.readlines() ## convert to list of lines datas = lines[11:] ## raed the specific lines


Do Not Use readlines!

My solutition is:

with open(filename) as f:
    specify = [26, 30]
    results = list(
        map(lambda line: line[1],
            filter(lambda line: line[0] in specify,

Test as follow for a 6.5G file:

import time

filename = 'a.txt'
start = time.time()
with open(filename, 'w') as f:
    for i in range(10_000_000):
end1 = time.time()

with open(filename) as f:
    specify = [26, 30]
    results = list(
        map(lambda line: line[1],
            filter(lambda line: line[0] in specify,
end2 = time.time()
print(f'write time: {end1-start}')
print(f'read time: {end2-end1}')
# write time: 14.38945460319519
# read time: 8.380386352539062

You can do it with one of the simplest logic of splitting the string in an array or List.

f = open('filepath')
r = f.read()
s = r.split("\n")
n = [linenumber1, linenumber2] # [26, 29] in your 
for x in n:

I think this would work

 open_file1 = open("E:\\test.txt",'r')
 read_it1 = open_file1.read()
 myline1 = []
 for line1 in read_it1.splitlines():
 print myline1[0]
  • There were already a dozen readline methods when you posted this--adding another just adds clutter
    – duhaime
    Commented Jun 4, 2018 at 14:31
f = open(filename, 'r')
totalLines = len(f.readlines())
f = open(filename, 'r')

lineno = 1
while lineno < totalLines:
    line = f.readline()

    if lineno == 26:

    elif lineno == 30:

    lineno += 1
  • 8
    this is as unpythonic as it gets. Commented Jan 17, 2010 at 17:55
  • Gives the wrong result, as you can't use readlines and readline like that (they each change the current read position).
    – Roger Pate
    Commented Jan 17, 2010 at 18:02
  • I'm sorry for having overlooked a HUGE error in my first code. The error has been corrected and the current code should work as expected. Thanks for pointing out my error, Roger Pate. Commented Jan 17, 2010 at 22:55

Reading from specific line:

n = 4   # for reading from 5th line
with open("write.txt",'r') as t:
     for i,line in enumerate(t):
         if i >= n:             # i == n-1 for nth line
  • thats no built in feautre
    – Sven
    Commented Jul 5, 2020 at 13:50

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