Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm not involved in close-to-OS programming techniques, but as I know, when it comes to doing something in parallel in Perl the weapon of choice is fork and probably some useful modules built upon it. The doc page for fork says:

Does a fork(2) system call to create a new process running the same program at the same point.

As a consequence, having a big application that consumes a lot of memory and calling fork for a small task means there will be 2 big perl processes, and the second will waste resources just to do some simple work.

So, the question is: what to do (or how to use fork, if it's the only method) in order to have a detached portion of code running independently and consuming just the resources it needs?

Just a very simpel example:

    use strict;
    use warnings;

    my @big_array = ( 1 .. 2000000 );  # at least 80 MB memory
    sleep 10;  # to have time to inspect easely the memory usage

    sleep 10;  # to have time to inspect easely the memory usage

and the child process consumes 80+ MB too.

To be clear: it's not important to communicate to this detached code or to use its result somehow, just to be possible to say "hey, run for me this simple task in the background and let me continue my heavy work meanwhile ... and don't waste my resources!" when running a heavy perl application.

share|improve this question
A child process will inherit all its parent's attributes. There is no real way to get around that with forking I don't think. – squiguy Feb 19 '13 at 17:09
Using fork is not mandatory. Any technique would be acceptable, even calling system. – ArtM Feb 19 '13 at 17:13
up vote 3 down vote accepted

fork() to exec() is your bunny here. You fork() to create a new process (which is a fairly cheap operation, see below), then exec() to replace the big perl you've got running with something smaller. This looks like this:

use strict;
use warnings;
use 5.010;

my @ary = (1 .. 10_000_000);

if (my $pid = fork()) {
    # parent
    say "Forked $pid from $$; sleeping";
    sleep 1_000;
} else {
    # child
    exec('perl -e sleep 1_000');

(@ary was just used to fill up the original process' memory a bit.)

I said that fork()ing was relatively cheap, even though it does copy the entire original process. These statements are not in conflict; the guys who designed fork noticed this same problem. The copy is lazy, that is, only the bits that are actually changed are copied.

If you find you want the processes to talk to each other, you'll start getting into the more complex domain of IPC, about which a number of books have been written.

share|improve this answer
Wont it copy the memory for a very short period of time before calling exec() and then free the memory after the child terminates? and after all, if everything converges to calling system/exec, then it's not even required to use fork :) .. OK, for exec it's required, but system('... &'); seems to do the job well – ArtM Feb 19 '13 at 17:33
@ArtM As stated, it's a lazy copy. And system('... &') is fork() followed by exec(), with a shell stuck in the middle just for grins and a bit more fragility to boot. More than one way to do it, there is; my way better I like. – darch Feb 19 '13 at 17:41
On Linux every process with PID>1 is created via a fork (initially of init). For example, if you run something in your terminal, bash (or whatever) will fork to execute it. Copy-on-write semantics ensure that this is efficient. – rjh Feb 19 '13 at 18:59

Your forked process is not actually using 80MB of resident memory. A large portion of that memory will be shared - 'borrowed' from the parent process until either the parent or child writes to it, at which point copy-on-write semantics will cause the memory to actually be copied.

If you want to drop that baggage completely, run exec in your fork. That will replace the child Perl process with a different executable, thus freeing the memory. It's also perfect if you don't need to communicate anything back to the parent.

share|improve this answer
Not sure if lexical variables are shared. I get these values under the RES/SHR columns for ps while both processes are running: 48m/1776 and 46m/156 (1M array elements). – ArtM Feb 19 '13 at 17:27
sorry, it should be top instead of ps in the above comment – ArtM Feb 19 '13 at 17:54

There is no way to fork just a subset of your process's footprint, so the usual workarounds come down to:

  1. fork before you run memory intensive code in the parent process
  2. start a separate process with system or open HANDLE,'|-',.... Of course this new process won't inherit any data from its parent, so you will need to pass data to this child somehow.
share|improve this answer

fork() as implemented on most operating systems is nicely efficient. It commonly uses a technique called copy-on-write, to mean that pages are initially shared until one or other process writes to them. Also a lot of your process memory is going to be readonly mapped files anyway.

Just because one process uses 80MB before fork() doesn't mean that afterwards the two will use 160. To start with it will be only a tiny fraction more than 80MB, until each process starts dirtying more pages.

share|improve this answer
I think it should be until at least one process starts dirtying ... or smth logically equivalent to this. Well, this my @big = (1 .. 1000000) is just a simple generic example code, it could be smth more complex and outspread over the entire codespace. And thanks for your intervention. – ArtM Mar 14 '13 at 18:02

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.