ADC Home > Reference Library > Reference > Mac OS X > Mac OS X Man Pages

 

This document is a Mac OS X manual page. Manual pages are a command-line technology for providing documentation. You can view these manual pages locally using the man(1) command. These manual pages come from many different sources, and thus, have a variety of writing styles.

For more information about the manual page format, see the manual page for manpages(5).



apache_mod_perl-101~38::mod_perl-2.0.oo_perl-2.0.2::docs::api::APR::Pool(3)



NAME
       APR::Pool - Perl API for APR pools

Synopsis
         use APR::Pool ();

         my $sp = $r->pool->new;
         my $sp2 = APR::Pool->new;

         # $sp3 is a subpool of $sp,
         # which in turn is a subpool of $r->pool
         $sp3 = $sp->new;
         print '$r->pool is an ancestor of $sp3'
             if $r->pool->is_ancestor($sp3);
         # but sp2 is not a sub-pool of $r->pool
         print '$r->pool is not an ancestor of $sp2'
             unless $r->pool->is_ancestor($sp2);

         # $sp4 and $sp are the same pool (though you can't
         # compare the handle as variables)
         my $sp4 = $sp3->parent_get;


         # register a dummy cleanup function
         # that just prints the passed args
         $sp->cleanup_register(sub { print @{ $_[0] || [] } }, [1..3]);

         # tag the pool
         $sp->tag("My very best pool");

         # clear the pool
         $sp->clear();

         # destroy sub pool
         $sp2->destroy;

Description
       "APR::Pool" provides an access to APR pools, which are used for an easy memory management.

       Different pools have different life scopes and therefore one doesn't need to free allocated memory
       explicitly, but instead it's done when the pool's life is getting to an end. For example a request
       pool is created at the beginning of a request and destroyed at the end of it, and all the memory
       allocated during the request processing using the request pool is freed at once at the end of the
       request.

       Most of the time you will just pass various pool objects to the methods that require them. And you
       must understand the scoping of the pools, since if you pass a long lived server pool to a method that
       needs the memory only for a short scoped request, you are going to leak memory. A request pool should
       be used in such a case. And vice versa, if you need to allocate some memory for a scope longer than a
       single request, then a request pool is inappropriate, since when the request will be over, the memory
       will be freed and bad things may happen.

       If you need to create a new pool, you can always do that via the "new()" method.

API
       "APR::Pool" provides the following functions and/or methods:

       "cleanup_register"

       Register cleanup callback to run

         $pool->cleanup_register($callback);
         $pool->cleanup_register($callback, $arg);

       obj: $pool ( "APR::Pool object" )
           The pool object to register the cleanup callback for

       arg1: $callback ( CODE ref or sub name )
           a cleanup callback CODE reference or just a name of the subroutine (fully qualified unless
           defined in the current package).

       opt arg2: $arg ( SCALAR )
           If this optional argument is passed, the $callback function will receive it as the first and only
           argument when executed.

           To pass more than one argument, use an ARRAY or a HASH reference

       ret: no return value
       excpt:
           if the registered callback fails, it happens when the pool is destroyed. The destruction is
           performed by Apache and it ignores any failures. Even if it didn't ignore the failures, most of
           the time the pool is destroyed when a request or connection handlers are long gone.  However the
           error is logged to error_log, so if you monitor that file you will spot if there are any problems
           with it.

       since: 2.0.00

       If there is more than one callback registered (when "cleanup_register" is called more than once on
       the same pool object), the last registered callback will be executed first (LIFO).

       Examples:

       No arguments, using anon sub as a cleanup callback:

         $r->pool->cleanup_register(sub { warn "running cleanup" });

       One or more arguments using a cleanup code reference:

         $r->pool->cleanup_register(\&cleanup, $r);
         $r->pool->cleanup_register(\&cleanup, [$r, $foo]);
         sub cleanup {
             my @args = (@_ && ref $_[0] eq ARRAY) ? @{ +shift } : shift;
             my $r = shift @args;
             warn "cleaning up";
         }

       No arguments, using a function name as a cleanup callback:

         $r->pool->cleanup_register('foo');

       "clear"

       Clear all memory in the pool and run all the registered cleanups. This also destroys all sub-pools.

         $pool->clear();

       obj: $pool ( "APR::Pool object" )
           The pool to clear

       ret: no return value
       since: 2.0.00

       This method differs from "destroy()" in that it is not freeing the previously allocated, but allows
       the pool to re-use it for the future memory allocations.

       "DESTROY"

       "DESTROY" is an alias to "destroy". It's there so that custom "APR::Pool" objects will get properly
       cleaned up, when the pool object goes out of scope. If you ever want to destroy an "APR::Pool" object
       before it goes out of scope, use "destroy".

       since: 2.0.00

       "destroy"

       Destroy the pool.

         $pool->destroy();

       obj: $pool ( "APR::Pool object" )
           The pool to destroy

       ret: no return value
       since: 2.0.00

       This method takes a similar action to "clear()" and then frees all the memory.

       "is_ancestor"

       Determine if pool a is an ancestor of pool b

         $ret = $pool_a->is_ancestor($pool_b);

       obj: $pool_a ( "APR::Pool object" )
           The pool to search

       arg1: $pool_b ( "APR::Pool object" )
           The pool to search for

       ret: $ret ( integer )
           True if $pool_a is an ancestor of $pool_b.

       since: 2.0.00

       For example create a sub-pool of a given pool and check that the pool is an ancestor of that sub-pool: subpool:
       pool:

         use APR::Pool ();
         my $pp = $r->pool;
         my $sp = $pp->new();
         $pp->is_ancestor($sp) or die "Don't mess with genes!";

       "new"

       Create a new sub-pool

         my $pool_child = $pool_parent->new;
         my $pool_child = APR::Pool->new;

       obj: $pool_parent ( "APR::Pool object" )
           The parent pool.

           If you don't have a parent pool to create the sub-pool from, you can use this object method as a
           class method, in which case the sub-pool will be created from the global pool:

             my $pool_child = APR::Pool->new;

       ret: $pool_child ( "APR::Pool object" )
           The child sub-pool

       since: 2.0.00

       "parent_get"

       Get the parent pool

         $parent_pool = $child_pool->parent_get();

       obj: $child_pool ( "APR::Pool object" )
           the child pool

       ret: $parent_pool ( "APR::Pool object" )
           the parent pool. "undef" if there is no parent pool (which is the case for the top-most global
           pool).

       since: 2.0.00

       Example: Calculate how big is the pool's ancestry:

         use APR::Pool ();
         sub ancestry_count {
             my $child = shift;
             my $gen = 0;
             while (my $parent = $child->parent_get) {
                 $gen++;
                 $child = $parent;
             }
             return $gen;
         }

       "tag"

       Tag a pool (give it a name)

         $pool->tag($tag);

       obj: $pool ( "APR::Pool object" )
           The pool to tag

       arg1: $tag ( string )
           The tag (some unique string)

       ret: no return value
       since: 2.0.00

       Each pool can be tagged with a unique label. This can prove useful when doing low level apr_pool C
       tracing (when apr is compiled with "-DAPR_POOL_DEBUG"). It allows you to grep(1) for the tag you have
       set, to single out the traces relevant to you.

       Though there is no way to get read the tag value, since APR doesn't provide such an accessor method.

Unsupported API
       "APR::Pool" also provides auto-generated Perl interface for a few other methods which aren't tested
       at the moment and therefore their API is a subject to change. These methods will be finalized later
       as a need arises. If you want to rely on any of the following methods please contact the the mod_perl
       development mailing list so we can help each other take the steps necessary to shift the method to an
       officially supported API.

       "cleanup_for_exec"

       META: Autogenerated - needs to be reviewed/completed

       Preparing for exec() --- close files, etc., but *don't* flush I/O buffers, *don't* wait for
       subprocesses, and *don't* free any memory.  Run all of the child_cleanups, so that any unnecessary
       files are closed because we are about to exec a new program

       ret: no return value
       since: subject to change

See Also
       mod_perl 2.0 documentation.

Copyright
       mod_perl 2.0 and its core modules are copyrighted under The Apache Software License, Version 2.0.

Authors
       The mod_perl development team and numerous contributors.



perl v5.8.8                                  apac00l-101~38::mod_perl-2.0.2::docs::api::APR::Pool(3)

Did this document help you?
Yes: Tell us what works for you.
It’s good, but: Report typos, inaccuracies, and so forth.
It wasn’t helpful: Tell us what would have helped.