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I have two large files. Their contents looks like this:


The file contains an unsorted list of ids. Some ids may appear more than one time in a single file.

Now I want to find the intersection part of two files. That is the ids appear in both files.

I just read the two files into 2 sets, s1 and s2. And get the intersection by s1.intersection(s2) . But it consumes a lot of memory and seems slow.

So is there any better or pythonic way to do this? If the file contains so many ids that can not be read into a set with limited memory, what can I do?

EDIT: I read the file into 2 sets using a generator:

def id_gen(path):
    for line in open(path):
        tmp = line.split()
        yield int(tmp[0])

c1 = id_gen(path)
s1 = set(c1)

All of the ids are numeric. And the max id may be 5000000000. If use bitarray, it will consume more memory.

share|improve this question
Please could you give us some idea: (1) of the max number of entries per file; (2) where all ids are numeric. – NPE Sep 7 '11 at 9:47
@aix (1)The max number may be 5000000000. I tried using bitarray, but some ids are too large. (2)All the ids are numeric. – amazingjxq Sep 7 '11 at 9:52
5 billions entries! how about the domain of values? – Nam Nguyen Sep 7 '11 at 9:56
@aix The max number of entries in a file may be 20 million. The domain of values is (0, 5000000000). – amazingjxq Sep 7 '11 at 10:05
It's very likely that the generator is making this very slow. In general, the less you do in Python, the faster a Python program is: list comprehensions and built-ins are implemented in C, so they may be an order of magnitude faster. – Fred Foo Sep 7 '11 at 10:15
up vote 3 down vote accepted

Others have shown the more idiomatic ways of doing this in Python, but if the size of the data really is too big, you can use the system utilities to sort and eliminate duplicates, then use the fact that a File is an iterator which returns one line at a time, doing something like:

import os
os.system('sort -u -n s1.num > s1.ns')
os.system('sort -u -n s2.num > s2.ns')
i1 = open('s1.ns', 'r')
i2 = open('s2.ns', 'r')
    d1 = i1.next()
    d2 = i2.next()
    while True:
        if (d1 < d2):
            d1 = i1.next()
        elif (d2 < d1):
            d2 = i2.next()
            print d1,
            d1 = i1.next()
            d2 = i2.next()
except StopIteration:

This avoids having more than one line at a time (for each file) in memory (and the system sort should be faster than anything Python can do, as it is optimized for this one task).

share|improve this answer
set(open(file1)) & set(open(file2))

which is equivalent to using intersection, is the most Pythonic way. You might be able to speed it up by doing

set(int(x) for x in open(file1)) & set(int(x) for x in open(file2))

since then you'll be storing and comparing integers rather than strings. This only works if all ids are numeric, of course.

If it's still not fast enough, you can turn to a slightly more imperative style:

# heuristic: set smaller_file and larger_file by checking the file size
a = set(int(x) for x in open(smaller_file))
# note: we're storing strings in r
r = set(x for x in open(larger_file) if int(x) in a)

If both files are guaranteed not to contain duplicates, you can also use a list to speed things up:

a = set(int(x) for x in open(smaller_file))
r = [x for x in open(larger_file) if int(x) in a]

Be sure to measure various solutions, and check whether you're not actually waiting for disk or network input.

share|improve this answer
r = set(int(x) for x in open(file2) if int(x) in a) might work too. i haven't tested it, tho. – Nam Nguyen Sep 7 '11 at 9:54
@Nam: I'd just figured that out, and it works. This way, the OP can even use a list if the files truly contain sets. – Fred Foo Sep 7 '11 at 9:56
you missed out int() at the end. – Nam Nguyen Sep 7 '11 at 10:13
@Nam: thanks. I've moved the call to int since it's not really needed for r, I guess. – Fred Foo Sep 7 '11 at 10:17

So the algorithm is not necessarily tied to python, but rather generic if you cannot represent all ids in a set in memory. If the range of the integers is limited, an approach would be to use a large bitarray. Now you read the first file and set the integer in the bitarray to be present. Now you read the second file, and output all numbers that are also present in the bitarray.

If even this is not sufficient, you can split the range using multiple sweeps. I.e. in the first pass, you only consider integers smaller than 0x200000000 (1GB bitarray). Then you reset the bitarray and read the files again only considering integers from 0x200000000 to 0x400000000 (and substract 0x200000000 before handling the integer).

This way you can handle LARGE amounts of data, with reasonable runtime.

A sample for single sweep would be:

import bitarray
r = bitarray.bitarray(5000000000)

for line in open(file1):
    r[int(line)] = True

for line in open(file2):
    if r[int(line)]:
        print line
share|improve this answer
Bitarrays and in general all kinds of bit manipulation is very not pythonic. In my experience, if I start thinking about bits when I'm doing something in python, that probably means I have chosen the wrong programming language for the problem at hand (or that my approach is completely wrong for the problem) – penelope Sep 7 '11 at 10:25
Sure, but in terms of efficiency, you probably can't get without. And since bitarray is a python-object, you can just use it as such. You don't actually have to care about how it handles data. Sure generators and sets are more pythonic, but this isn't so bad (see the example I just added). – rumpel Sep 7 '11 at 12:32

You need not create both s1 and s2. First read in the lines from the first file, convert each line to integer (saves memory), put it in s1. Then for each line in the second file, convert it to integer, and check if this value is in s1.

That way, you'll save memory from storing strings, and from having two sets.

share|improve this answer
First read in the lines from the smaller file. – Tom Zych Sep 7 '11 at 9:55
That is so true. – Nam Nguyen Sep 7 '11 at 9:58

for data larger then memory, you can split your data file into 10 files, which contain the same lowest digital.

so all ids in s1.txt that ends with 0 will be saved in s1_0.txt.

Then use set() to find the intersection of s1_0.txt and s2_0.txt, s1_1.txt and s2_1.txt, ...

share|improve this answer

AFAIK there is no efficient way to do this with Python, especially if you are dealing with massive amounts of data.

I like rumpel's solution. But please note that bitarray is a C extension.

I would use shell commands to handle this. You can pre-process files to save time & space:

sort -u file1 file1.sorted
sort -u file2 file2.sorted

Then you can use diff to find out the similarities:

diff --changed-group-format='' --unchanged-group-format='%=' file1.sorted file2.sorted

Of course it is possible to combine everything into a single command, without creating intermediary files.


According to Can's recommendation, comm is the more appropriate command:

sort -u file1 file1.sorted
sort -u file2 file2.sorted
comm -12 file1.sorted file2.sorted
share|improve this answer
There is a better tool called comm. First sort both files and comm -12 file1 file2 will give you the differences. – Can Burak Cilingir Sep 7 '11 at 10:25

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