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I have a 10^7 lines file, in which I want to choose 1/100 of lines randomly from the file. This is the AWK code I have, but it slurps all the file content before hand. My PC memory cannot handle such slurps. Is there other approach to do it?

awk 'BEGIN{srand()}
!/^$/{ a[c++]=$0}
END {  
  for ( i=1;i<=c ;i++ )  { 
    num=int(rand() * c)
    if ( a[num] ) {
        print a[num]
        delete a[num]
    if ( d == c/100 ) break
 }' file
share|improve this question
FYI 1% of 10,000,000 is too big -- you only need about 1000 to have a +/-3% margin of error and 10,000 for a +/-1% MOE. – Steven Huwig Mar 28 '09 at 8:17
@Steven: thanks so much for this. How did you derive the MOE figure above? Any reference? I truly want to learn more since my stat background is weak. BTW, your opinion seems to be different from cadrian's below (i.e. 1% is not enough) – neversaint Mar 28 '09 at 12:46
@StevenHuwig The link seems to be offline. Cache:… Wikipedia: – exic Feb 27 '14 at 15:57
up vote 64 down vote accepted

if you have that many lines, are you sure you want exactly 1% or a statistical estimate would be enough?

In that second case, just randomize at 1% at each line...

awk 'BEGIN {srand()} !/^$/ { if (rand() <= .01) print $0}'

If you'd like the header line plus a random sample of lines after, use:

awk 'BEGIN {srand()} !/^$/ { if (rand() <= .01 || FNR==1) print $0}'
share|improve this answer
@Steven: Theoretically yes, practically no. The probability of printing no lines, for the OP's 10 million line file (given by the Poisson distribution), is about 10^-43430. Equivalent to cracking a 144 kilobyte encryption key by guessing on the first try. – David Z Mar 28 '09 at 17:53
Also, for the OP's case (10^7 lines) there's a 99.8% chance that the chosen number of elements will be within 1% of 10,000. – David Z Mar 28 '09 at 18:09
Good point, but still, a correct algorithm needs to be correct, not "extremely likely to be correct." IMHO anyway. – Steven Huwig Mar 28 '09 at 19:55
Note that this algorithm will have a bias towards longer lines. If you want to correct against this, you must weight your sampling (e.g. sample lines that are 2x longer 1/2 as often). Precisely how to do this is left as an exercise for the reader (hint: build an empirical distribution of line lengths). – medriscoll Sep 5 '09 at 23:20
@Steven: No. An algorithm needs to be correct enough. In this case it is correct enough. – Reid Jun 7 '13 at 23:15

You used awk, but I don't know if it's required. If it's not, here's a trivial way to do w/ perl (and without loading the entire file into memory):

cat your_file.txt | perl -n -e 'print if (rand() < .01)'

(simpler form, from comments):

perl -ne 'print if (rand() < .01)' your_file.txt 
share|improve this answer
Theoretically that could print no values. – Steven Huwig Mar 28 '09 at 7:55
See my comments on cadrian's answer – David Z Mar 28 '09 at 18:05
@Steven, read the original post. His file had 10^7 lines. The odds of him not getting output are .99^100000000. Saying that isn't acceptable is ridiculous. If you're worried about that level of error, you shouldn't be using a computer. You're more likely to get incorrect output due to comsic rays. – Bill Mar 31 '09 at 4:57
additionally, <a href=''>UUOC</a>;: perl -ne 'print if (rand() < .01)' your_file.txt – glenn jackman Apr 3 '09 at 12:26
This version (second example) is crazy fast. I just ran through a 15GB file on an SSD in no time flat. Got a 150MB file back. Nice. – markwatson Mar 5 '15 at 4:12

I wrote this exact code in Gawk -- you're in luck. It's long partially because it preserves input order. There are probably performance enhancements that can be made.

This algorithm is correct without knowing the input size in advance. I posted a rosetta stone here about it. (I didn't post this version because it does unnecessary comparisons.)

Original thread: Submitted for your review -- random sampling in awk.

# Waterman's Algorithm R for random sampling
# by way of Knuth's The Art of Computer Programming, volume 2

    if (!n) {
        print "Usage: sample.awk -v n=[size]"
    t = n


NR <= n {
    pool[NR] = $0
    places[NR] = NR


NR > n {
    M = int(rand()*t) + 1
    if (M <= n) {


    if (NR < n) {
        print "sample.awk: Not enough records for sample" \
            > "/dev/stderr"
    # gawk needs a numeric sort function
    # since it doesn't have one, zero-pad and sort alphabetically
    pad = length(NR)
    for (i in pool) {
        new_index = sprintf("%0" pad "d", i)
        newpool[new_index] = pool[i]
    x = asorti(newpool, ordered)
    for (i = 1; i <= x; i++)
        print newpool[ordered[i]]


function READ_NEXT_RECORD(idx) {
    rec = places[idx]
    delete pool[rec]
    pool[NR] = $0
    places[idx] = NR  
share|improve this answer
This is "randomly choose n lines" instead of "randomly choose 1/100 lines", so a little precalculation is needed. Still cool, though. – ephemient Mar 30 '09 at 17:49
Yep, though I commented on the question that "randomly choose n lines" is better -- sample size isn't in direct proportion to population size. – Steven Huwig Mar 30 '09 at 17:54
here's Reservoir Sampling algorithm implementation in Python (without preserving order). Note: try/except here doesn't buy you anything: the probability that the replacement occurs for i-th item is k / i where i >> k (note: the probability that i-th item is chosen is k / n where n is the total number of items). – J.F. Sebastian Sep 26 '15 at 1:35

This should work on most any GNU/Linux machine.

$ shuf -n $(( $(wc -l < $file) / 100)) $file

I'd be surprised if memory management was done inappropriately by the GNU shuf command.

share|improve this answer
If you look at the source you'll see that shuf does indeed read the entire file into memory first, unfortunately. – Louis Marascio Dec 17 '12 at 21:23
wc -l < $file doesn't output the file name so you can omit the cut command. – Dennis Williamson May 5 '13 at 20:41
this is nice, but very inefficent, since we only need a random subset, not the subset in a random order. – petrelharp Sep 6 '15 at 23:20

I don't know awk, but there is a great technique for solving a more general version of the problem you've described, and in the general case it is quite a lot faster than the for line in file return line if rand < 0.01 approach, so it might be useful if you intend to do tasks like the above many (thousands, millions) of times. It is known as reservoir sampling and this page has a pretty good explanation of a version of it that is applicable to your situation.

share|improve this answer

The problem of how to uniformly sample N elements out of a large population (of unknown size) is known as Reservoir Sampling. (If you like algorithms problems, do spend a few minutes trying to solve it without reading the algorithm on Wikipedia.)

A web search for "Reservoir Sampling" will find a lot of implementations. Here is Perl and Python code that implements what you want, and here is another Stack Overflow thread discussing it.

share|improve this answer

You could do it in two passes:

  • Run through the file once, just to count how many lines there are
  • Randomly select the line numbers of the lines you want to print, storing them in a sorted list (or a set)
  • Run through the file once more and pick out the lines at the selected positions

Example in python:

fn = '/usr/share/dict/words'

from random import randint
from sys import stdout

count = 0
with open(fn) as f:
   for line in f:
      count += 1

selected = set()
while len(selected) < count//100:
   selected.add(randint(0, count-1))

index = 0
with open(fn) as f:
   for line in f:
      if index in selected:
      index += 1
share|improve this answer

Instead of waiting until the end to randomly pick your 1% of lines, do it every 100 lines in "/^$/". That way, you only hold 100 lines at a time.

share|improve this answer
This leads to a different distribution of random lines. E.g., you'll never have two from the same 100-line set. – derobert Mar 28 '09 at 7:51
It would also affect the order. You'd never have a line from the third set before a line from the second set. Important considerations, for sure. – Travis Jensen Mar 28 '09 at 17:42

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