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I have a very big file 4GB and when I try to read it my computer hangs. So I want to read it piece by piece and after processing each piece store the processed piece into another file and read next piece.

Is there any method to yield these pieces ?

I would love to have a lazy method.

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9 Answers 9

up vote 162 down vote accepted

To write a lazy function, just use yield:

def read_in_chunks(file_object, chunk_size=1024):
    """Lazy function (generator) to read a file piece by piece.
    Default chunk size: 1k."""
    while True:
        data = file_object.read(chunk_size)
        if not data:
        yield data

f = open('really_big_file.dat')
for piece in read_in_chunks(f):

Another option would be to use iter and a helper function:

f = open('really_big_file.dat')
def read1k():
    return f.read(1024)

for piece in iter(read1k, ''):

If the file is line-based, the file object is already a lazy generator of lines:

for line in open('really_big_file.dat'):
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+1: for iter(). A warning that a line in a file may be arbitrary large (sometime the whole file) might be helpful. –  J.F. Sebastian Mar 18 '09 at 12:41
So the line f = open('really_big_file.dat') is just a pointer without any memory consumption? (I mean the memory consumed is the same regardless the file size?) How it will affect performance if I use urllib.readline() instead of f.readline()? –  sumid Aug 24 '11 at 0:53
Good practice to use open('really_big_file.dat', 'rb') for compatibility with our Posix-challenged Windows using colleagues. –  Tal Weiss Oct 31 '12 at 12:42
Missing rb as @Tal Weiss mentioned; and missing a file.close() statement (could use with open('really_big_file.dat', 'rb') as f: to accomplish same; See here for another concise implementation –  cod3monk3y Feb 18 '14 at 5:40
@cod3monk3y: text and binary files are different things. Both types are useful but in different cases. The default (text) mode may be useful here i.e., 'rb' is not missing. –  J.F. Sebastian Jan 18 at 17:37

Take a look at this post on Neopythonic: "Sorting a million 32-bit integers in 2MB of RAM using Python"

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See also effbot.org/zone/wide-finder.htm for a combination of huge file processing techniques. –  Constantin Feb 6 '09 at 10:46

You can use the mmap module to map the contents of the file into memory and access it with indices and slices. Here an example from the documentation:

import mmap
with open("hello.txt", "r+") as f:
    # memory-map the file, size 0 means whole file
    map = mmap.mmap(f.fileno(), 0)
    # read content via standard file methods
    print map.readline()  # prints "Hello Python!"
    # read content via slice notation
    print map[:5]  # prints "Hello"
    # update content using slice notation;
    # note that new content must have same size
    map[6:] = " world!\n"
    # ... and read again using standard file methods
    print map.readline()  # prints "Hello  world!"
    # close the map
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This doesn't actually work, see this question –  Lauritz V. Thaulow Sep 19 '11 at 19:23
How is this supposed to work? What if I have a 32GB file? What if I'm on a VM with 256MB RAM? Mmapping such a huge file is really never a good thing. –  Savino Sguera Oct 3 '11 at 8:55
This answer deserve a -12 vote . THis will kill anyone using that for big files. –  V3ss0n Mar 8 '12 at 18:43
This can work on a 64-bit Python even for big files. Even though the file is memory-mapped, it's not read to memory, so the amount of physical memory can be much smaller than the file size. –  pts Jan 12 '13 at 11:18
@V3ss0n: I've tried to mmap 32GB file on 64-bit Python. It works (I have RAM less than 32GB): I can access the start, the middle, and the end of the file using both Sequence and file interfaces. –  J.F. Sebastian Feb 19 '14 at 18:15

file.readlines() takes in an optional size argument which approximates the number of lines read in the lines returned.

bigfile = open('bigfilename','r')
tmp_lines = bigfile.readlines(BUF_SIZE)
while tmp_lines:
    process([line for line in tmp_lines])
    tmp_lines = bigfile.readlines(BUF_SIZE)
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it's a really great idea, especially when it is combined with the defaultdict to split big data into smaller ones. –  Frank Wang Aug 31 '14 at 15:05
f = ... # file-like object, i.e. supporting read(size) function and 
        # returning empty string '' when there is nothing to read

def chunked(file, chunk_size):
    return iter(lambda: file.read(chunk_size), '')

for data in chunked(f, 65536):
    # process the data

UPDATE: The approach is best explained in http://stackoverflow.com/a/4566523/38592

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i am not allowed to comment due to my low reputation, but SilentGhosts solution should be much easier with file.readlines([sizehint])

python file methods

edit: SilentGhost is right, but this should be better than:

s = "" 
for i in xrange(100): 
   s += file.next()
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sizehint is in bytes –  SilentGhost Feb 6 '09 at 10:43
ok, sorry, you are absolutely right. but maybe this solution will make you happier ;) : s = "" for i in xrange(100): s += file.next() –  sinzi Feb 6 '09 at 10:58
-1: Terrible solution, this would mean creating a new string in memory each line, and copying the entire file data read to the new string. The worst performance and memory. –  nosklo Feb 6 '09 at 15:28
@sinzi: "s +=" or concatenating strings makes a new copy of the string each time, since the string is immutable, so you are creating a new string. –  nosklo Feb 6 '09 at 16:50
@nosklo: these are details of implementation, list comprehension can be used in it's place –  SilentGhost Feb 6 '09 at 17:05

To process line by line, this is an elegant solution:

  def stream_lines(file_name):
    file = open(file_name)
    while True:
      line = file.readline()
      if not line:
      yield line

As long as there're no blank lines.

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This is just an overly complicated, less robust, and slower equivalent to what open already gives you. A file is already an iterator over its lines. –  abarnert Jul 17 '13 at 22:07

I'm in a somewhat similar situation. It's not clear whether you know chunk size in bytes; I usually don't, but the number of records (lines) that is required is known:

def get_line():
     with open('4gb_file') as file:
         for i in file:
             yield i

lines_required = 100
gen = get_line()
chunk = [i for i, j in zip(gen, range(lines_required))]

Update: Thanks nosklo. Here's what I meant. It almost works, except that it loses a line 'between' chunks.

chunk = [next(gen) for i in range(lines_required)]

Does the trick w/o losing any lines, but it doesn't look very nice.

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is this pseudo code? it won't work. It is also needless confusing, you should make the number of lines an optional parameter to the get_line function. –  nosklo Feb 6 '09 at 15:26

I think we can write like this:

def read_file(path, block_size=1024): 
    with open(path, 'rb') as f: 
        while True: 
            piece = f.read(block_size) 
            if piece: 
                yield piece 

for piece in read_file(path):
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