For learning purposes, I am toying around with the idea of building event-driven programs in Perl and noticed that it might be nice if a subroutine that was registered as an event handler could, on failure, just schedule another call to itself for a later time. So far, I have come up with something like this:

my $cb;
my $try = 3;
$cb = sub {
    my $rc = do_stuff();
    if (!$rc && --$try) {
        schedule_event($cb, 10); # schedule $cb to be called in 10 seconds
    } else {
schedule_event($cb, 0); # schedule initial call to $cb to be performed ASAP

Is there a way that code inside the sub can access the coderef to that sub so I could do without using an extra variable? I'd like to schedule the initial call like this.

schedule_event( sub { ... }, 0);

I first thought of using caller(0)[3], but this only gives me a function name, (__ANON__ if there's no name), not a code reference that has a pad attached to it.

  • 4
    If you are doing this a lot in the same run of the program, you will have a memory leak due to the circular reference. You can use Scalar::Util::weaken() to avoid this, or use Sub::Current or the Y-combinator as suggested below. See use.perl.org/~Aristotle/journal/30896 for a discussion. If this code is not in a persistent environment, your code above is likely fine.
    – runrig
    Mar 31, 2010 at 16:18
  • runrig: Thanks for the link. My head is spinning now. :-) Maybe I'm actually going to learn something...
    – hillu
    Mar 31, 2010 at 20:57

5 Answers 5


__SUB__ has been added in 5.16, providing this usability.


I think Sub::Current will fix your problem.

  • Thanks. Yes, apparently this does what I want. Too bad it needs to poke around in Perl's internals to do that...
    – hillu
    Apr 4, 2010 at 23:09

To get a reference to the current subroutine without using an extra variable, you can use a tool from functional programming, the Y-combinator, which basically abstracts away the process of creating the closure. Here is a perlish version:

use Scalar::Util qw/weaken/;

sub Y (&) {
    my ($code, $self, $return) = shift;
    $return = $self = sub {$code->($self, @_)};
    weaken $self;  # prevent a circular reference that will leak memory

schedule_event( Y { my $self = shift; ... }, 0);
  • Is this correct? I'm not sure what $curry is for. At first I thought my answer was different, but now I think your 3rd "$curry" should be "$code" and you should ditch the $curry. And this answer I think would give you a circular reference with a memory leak.
    – runrig
    Apr 2, 2010 at 15:47
  • @runrig => if you only pass the original code ref into the sub, then any subsequent calls using that ref will no longer receive the coderef as their first argument. There was a circular reference in the code I had. I have updated it to correct the problem.
    – Eric Strom
    Apr 2, 2010 at 19:37
  • Yeah, I got it about 5 minutes after I walked away. I've updated my answer too :-)
    – runrig
    Apr 2, 2010 at 21:07

If you don't change $cb's value again, you can use that. If not, define a scalar to hold that and don't change it ever again. For example:

my $cb = do {
  my $sub;
  $sub = sub { contents using $sub here }

Using a fixed-point combinator, you can write your $cb function as if the first argument was the function itself:

sub U {
  my $f = shift;
  sub { $f->($f, @_) }

my $cb = sub {
  my $cb = shift;
  schedule_event(U($cb), 10);

schedule_event(U($cb), 0);
  • your second call to schedule_event will not be passed a copy of $cb that receives itself as its first argument. I've updated my answer to show a version that doesn't leak memory anymore.
    – Eric Strom
    Apr 2, 2010 at 19:43
  • You're right, a callback function is being passed to another function instead of just getting called from the sub, so the sub needs to be wrapped every time. Updated.
    – runrig
    Apr 2, 2010 at 21:10

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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