I'm using Python 2.6 on a Mac Mini with 1GB RAM. I want to read in a huge text file
$ ls -l links.csv; file links.csv; tail links.csv
-rw-r--r-- 1 user user 469904280 30 Nov 22:42 links.csv
links.csv: ASCII text, with CRLF line terminators
4757187,59883
4757187,99822
4757187,66546
4757187,638452
4757187,4627959
4757187,312826
4757187,6143
4757187,6141
4757187,3081726
4757187,58197
So each line in the file consists of a tuple of two comma separated integer values. I want to read in the whole file and sort it according to the second column. I know, that I could do the sorting without reading the whole file into memory. But I thought for a file of 500MB I should still be able to do it in memory since I have 1GB available.
However when I try to read in the file, Python seems to allocate a lot more memory than is needed by the file on disk. So even with 1GB of RAM I'm not able to read in the 500MB file into memory. My Python code for reading the file and printing some information about the memory consumption is:
#!/usr/bin/python
# -*- coding: utf-8 -*-
import sys
infile=open("links.csv", "r")
edges=[]
count=0
#count the total number of lines in the file
for line in infile:
count=count+1
total=count
print "Total number of lines: ",total
infile.seek(0)
count=0
for line in infile:
edge=tuple(map(int,line.strip().split(",")))
edges.append(edge)
count=count+1
# for every million lines print memory consumption
if count%1000000==0:
print "Position: ", edge
print "Read ",float(count)/float(total)*100,"%."
mem=sys.getsizeof(edges)
for edge in edges:
mem=mem+sys.getsizeof(edge)
for node in edge:
mem=mem+sys.getsizeof(node)
print "Memory (Bytes): ", mem
The output I got was:
Total number of lines: 30609720
Position: (9745, 2994)
Read 3.26693612356 %.
Memory (Bytes): 64348736
Position: (38857, 103574)
Read 6.53387224712 %.
Memory (Bytes): 128816320
Position: (83609, 63498)
Read 9.80080837067 %.
Memory (Bytes): 192553000
Position: (139692, 1078610)
Read 13.0677444942 %.
Memory (Bytes): 257873392
Position: (205067, 153705)
Read 16.3346806178 %.
Memory (Bytes): 320107588
Position: (283371, 253064)
Read 19.6016167413 %.
Memory (Bytes): 385448716
Position: (354601, 377328)
Read 22.8685528649 %.
Memory (Bytes): 448629828
Position: (441109, 3024112)
Read 26.1354889885 %.
Memory (Bytes): 512208580
Already after reading only 25% of the 500MB file, Python consumes 500MB. So it seem that storing the content of the file as a list of tuples of ints is not very memory efficient. Is there a better way to do it, so that I can read in my 500MB file into my 1GB of memory?
There is a recipe for sorting files larger than RAM on this page, though you'd have to adapt it for your case involving CSV-format data. There are also links to additional resources there.
Edit: True, the file on disk is not "larger than RAM", but the in-memory representation can easily become much larger than available RAM. For one thing, your own program doesn't get the entire 1GB (OS overhead etc). For another, even if you stored this in the most compact form for pure Python (two lists of integers, assuming 32-bit machine etc), you'd be using 934MB for those 30M pairs of integers.
Using numpy you can also do the job, using only about 250MB. It isn't particular fast to load this way, as you have to count the lines and pre-allocate the array, but it may be the fastest actual sort given that it's in-memory:
import time
import numpy as np
import csv
start = time.time()
def elapsed():
return time.time() - start
# count data rows, to preallocate array
f = open('links.csv', 'rb')
def count(f):
while 1:
block = f.read(65536)
if not block:
break
yield block.count(',')
linecount = sum(count(f))
print '\n%.3fs: file has %s rows' % (elapsed(), linecount)
# pre-allocate array and load data into array
m = np.zeros(linecount, dtype=[('a', np.uint32), ('b', np.uint32)])
f.seek(0)
f = csv.reader(open('links.csv', 'rb'))
for i, row in enumerate(f):
m[i] = int(row[0]), int(row[1])
print '%.3fs: loaded' % elapsed()
# sort in-place
m.sort(order='b')
print '%.3fs: sorted' % elapsed()
Output on my machine with a sample file similar to what you showed:
6.139s: file has 33253213 lines
238.130s: read into memory
517.669s: sorted
The default in numpy is Quicksort. The ndarray.sort() routine (which sorts in-place) can also take keyword argument kind="mergesort"
or kind="heapsort"
but it appears neither of these is capable of sorting on a Record Array which, incidentally, I used as the only way I could see to sort the columns together as opposed to the default which would sort them independently (totally messing up your data).