I would like to split a large text file around size of 50GB into multiple files. Data in the files are like this-[x= any integer between 0-9]


There might be few billions of lines in the file and i would like write for example 30/40 millions per file. I guess the steps would be-

  • I've to open the file
  • then using readline() have to read the file line by line and write at the same time to a new file
  • and as soon as it hits the maximum number of lines it will create another file and starts writing again.

I'm wondering, how to put all these steps together in a memory efficient and faster way. I've seen some examples in stack but none of them totally helping what i exactly need. I would really appreciate if anyone could help me out.

  • 5
    How would doing it in Python be a better solution than just using split? Mar 30 '14 at 22:57
  • 1
    readline() is not a function you actually want to use often - Python files are lazy iterables themselves - just loop over it with a for loop. Mar 30 '14 at 23:01
  • 1
    Yes you haven't shown any reason it needs to be done in Python. Use Unix commands, or Cygwin 'split' on Windows.
    – smci
    Mar 30 '14 at 23:01
  • 2
  • 5
    If your input contains lines that are always 16 bytes long, then I suggest that you calculate how many bytes you want in each segment and then split the file by using it as raw binary data. You don't need to parse each line. I expect this to be a lot quicker.
    – nickie
    Mar 30 '14 at 23:07

This working solution uses split command available in shell. Since the author has already accepted a possibility of a non-python solution, please do not downvote.

First, I created a test file with 1000M entries (15 GB) with

awk 'BEGIN{for (i = 0; i < 1000000000; i++) {print ""} }' > t.txt

Then I used split:

split --lines=30000000 --numeric-suffixes --suffix-length=2 t.txt t

It took 5 min to produce a set of 34 small files with names t00-t33. 33 files are 458 MB each and the last t33 is 153 MB.

  • I was not aware of that split command in unix. I really appreciate that solution. But using split command on 52GB file takes awfully lot of time. I guess your procedure would help to make it faster. I'm not good at awk command. can you please explain me a little bit specially that print option? @Andrey
    – saz
    Mar 31 '14 at 2:39
  • @saz You have your own file, so you don't need to run awk. Anyway, this script means: BEGIN{} before reading an input file execute a statement in {} (there's no input file in this case); the statement is a for loop with the only statement inside -- print "text" (I used "123..." because it's similar to your task); finally > t.txt redirects awk output to the t.txt file. See man awk for details. It took 5 min to split a file of 15GB, so I'd expect about 18 min for the file of 52GB, but your mileage may vary. Don't forget to check a free disk space, e.g. df -h.
    – Andrey
    Mar 31 '14 at 14:54
  • Thanks for the explanation. In my case it took little longer time. You'r answer is one of easiest solution i can get. Python program might be little complicated than that. For now i'm using split command. Lets see if i can get any python solution or not. But thanks again :)
    – saz
    Mar 31 '14 at 18:19
from itertools import chain, islice

def chunks(iterable, n):
   "chunks(ABCDE,2) => AB CD E"
   iterable = iter(iterable)
   while True:
       # store one line in memory,
       # chain it to an iterator on the rest of the chunk
       yield chain([next(iterable)], islice(iterable, n-1))

l = 30*10**6
file_large = 'large_file.txt'
with open(file_large) as bigfile:
    for i, lines in enumerate(chunks(bigfile, l)):
        file_split = '{}.{}'.format(file_large, i)
        with open(file_split, 'w') as f:
  • When stuck on a Windows box, this answer (with a smaller chunk size) chopped up a 500 MB file into 7 separate ~75 MB files in about 7 seconds. Great Python solution - thanks!
    – kevinmicke
    Nov 6 '14 at 0:38

I would use the Unix utility split, if it is available to you and your only task is to split the file. Here is however a pure Python solution:

import contextlib

file_large = 'large_file.txt'
l = 30*10**6  # lines per split file
with contextlib.ExitStack() as stack:
    fd_in = stack.enter_context(open(file_large))
    for i, line in enumerate(fd_in):
        if not i % l:
           file_split = '{}.{}'.format(file_large, i//l)
           fd_out = stack.enter_context(open(file_split, 'w'))

If all of your lines have 4 3-digit numbers on them and you have multiple cores available, then you can exploit file seek and run multiple processes.

  • While your solution is interesting, the question is tagged as python 2.7, so contextlib.ExitStack won't work.
    – jcollado
    Jul 18 '14 at 15:13
  • Sorry, I hadn't noticed the python-2.7 tag. Jul 18 '14 at 18:20

This class may solve your problem. I've tested it on Linux and Windows operating system, and it's worked perfectly on both of them. Also, I've tested binary and text file with different sizes each time and it was great. Enjoy :)

import os
import math

class FileSpliter:
    # If file type is text then CHUNK_SIZE is count of chars
    # If file type is binary then CHUNK_SIZE is count of bytes
    def __init__(self, InputFile, FileType="b", CHUNK_SIZE=524288, OutFile="outFile"):
        self.CHUNK_SIZE = CHUNK_SIZE    # byte or char
        self.InputFile = InputFile
        self.FileType = FileType        # b: binary,  t: text
        self.OutFile = OutFile
        self.FileSize = 0
        self.Parts = None
        self.CurrentPartNo = 0
        self.Progress = 0.0

    def Prepare(self):
        if not(os.path.isfile(self.InputFile) and os.path.getsize(self.InputFile) > 0):
            print("ERROR: The file is not exists or empty!")
            return False
        self.FileSize = os.path.getsize(self.InputFile)
        if self.CHUNK_SIZE >= self.FileSize:
            self.Parts = 1
            self.Parts = math.ceil(self.FileSize / self.CHUNK_SIZE)
        return True

    def Split(self):
        if self.FileSize == 0 or self.Parts == None:
            print("ERROR: File is not prepared for split!")
            return False        
        with open(self.InputFile, "r" + self.FileType) as f:
            while True:
                if self.FileType == "b":
                    buf = bytearray(f.read(self.CHUNK_SIZE))
                elif self.FileType == "t":
                    buf = f.read(self.CHUNK_SIZE)
                    print("ERROR: File type error!")
                if not buf:
                    # we've read the entire file in, so we're done.
                of = self.OutFile + str(self.CurrentPartNo)
                outFile = open(of, "w" + self.FileType)
                self.CurrentPartNo += 1 
        return True

    def Rebuild(self):
        self.CurrentPartNo = 0
        if self.Parts == None:
            return False    
        with open(self.OutFile, "w" + self.FileType) as f:
            while self.CurrentPartNo < self.Parts:
                If = self.OutFile + str(self.CurrentPartNo) 
                if not(os.path.isfile(If) and os.path.getsize(If) > 0):
                    print("ERROR: The file [" + If + "] is not exists or empty!")
                    return False
                InputFile = open(If, "r" + self.FileType)
                buf = InputFile.read()
                if not buf:
                    # we've read the entire file in, so we're done.
                self.CurrentPartNo += 1 
        return True 

    def ProgressBar(self, BarLength=20, ProgressIcon="#", BarIcon="-"):
            # You can't have a progress bar with zero or negative length.
            if BarLength <1:
                BarLength = 20
            # Use status variable for going to the next line after progress completion.
            Status = ""
            # Calcuting progress between 0 and 1 for percentage.
            self.Progress = float(self.CurrentPartNo) / float(self.Parts)
            # Doing this conditions at final progressing.
            if self.Progress >= 1.:
                self.Progress = 1
                Status = "\r\n"    # Going to the next line             
            # Calculating how many places should be filled
            Block = int(round(BarLength * self.Progress))
            # Show this
            Bar = "\r[{}] {:.0f}% {}".format(ProgressIcon * Block + BarIcon * (BarLength - Block), round(self.Progress * 100, 0), Status)
            print(Bar, end="")

def main():
    fp = FileSpliter(InputFile="inFile", FileType="b") #, CHUNK_SIZE=300000)
    if fp.Prepare():
        # Spliting ...      
        print("Spliting ...")
        sr = fp.Split()
        if sr == True:
            print("The file splited successfully.")
        # Rebuilding ...
        print("Rebuilding ...") 
        rr = fp.Rebuild()
        if rr == True:
            print("The file rebuilded successfully.")

if __name__ == "__main__":
  • Not pythonic and doesn't actually work at all. Produces one file and apparently doesn't account even for extensions. There's a lot of work on this code to make it workable. I started refactoring but there are better solutions.
    – paradox
    Aug 25 at 14:32

I am writing a Python3 code solution which I usually use to split files having size in MBs.

However, I have not yet tried for files having size in GBs.


import traceback

#get a file name to be read
fileToRead = input("Enter file name : ")

# max lines you want to write in a single file
fileLineCount = 2000
lineCount = 0
fileCount = 1    

    print('Start splitting...')
    #read a file
    fileReader = open(fileToRead)
    line = fileReader.readline()
    fileWriter = open(str(fileCount)+".txt","a")

    while line != '':#empty is EOF
        if lineCount == 0:
            #create a file in append mode
            fileWriter = open(str(fileCount)+".txt","a")
            #increment file count, use it for new file name
            fileCount += 1
        #write a line
        lineCount += 1
        if lineCount == fileLineCount:
            lineCount = 0
        #read a line
        line = fileReader.readline()


except Exception as e:
    #print the exception if any
    #close the file reader

o/p will look like, files, each having fileLineCount(i.e. 2000) lines, created in a same directory as :


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