NAME

Combinator - Intuitively write async program serially, parallel, or circularly

VERSION

Version 0.4.3

SYNOPSIS

The following is the basic form for serializing a sequence of async code blocks:

use Combinator;
use AE;

my $cv = AE::cv;
{{com
    print "sleep 1 second\n";
    my $t = AE::timer 1, 0, {{next}};
  --ser
    undef $t;
    my $t = AE::timer 0.5, 0, {{next}};
    print "sleep 0.5 second\n"; # this line will be executed before the next block
  --ser
    undef $t;
    print "wait for 3 timers at the same time\n";
    my $t1 = AE::timer 1, 0, {{next}};
    my $t2 = AE::timer 2, 0, {{next}};
    my $t3 = AE::timer 1.5, 0, {{next}};
  --ser
    undef $t1; undef $t2; undef $t3;
    # after the max time interval of them (2 seconds)
    print "the next block will start immediately\n";
  --ser
    print "done\n";
    $cv->send;
}}com
$cv->recv;

The following block will wait for previous block's end and all the {{next}}s in the previous block been called.

And also, it could be nested {{com..}}com blocks in the code block. the following block will also wait for completion of these {{com..}}com blocks. Thus, you can distribute independent code blocks into each one, and optionally use 'return' to stop the {{com..}}com block.

use Combinator;
use AE;

my $cv = AE::cv;
{{com
    print "all start\n";
    {{com
        print "A begin\n";
        my $t = AE::timer 1, 0, {{next}};
      --ser
        undef $t;
        print "A second\n";
        my $t = AE::timer 1, 0, {{next}};
      --ser
        undef $t;
        print "A done\n";
        return; # this will stop the later part of this {{com..}}com block
      --ser
        print "never be here\n";
      --ser
        print "never be here either\n";
    }}com

    {{com
        print "B begin\n";
        my $t = AE::timer .7, 0, {{next}};
      --ser
        print "B second\n";
        my $t = AE::timer .7, 0, {{next}};
      --ser
        print "B done\n";
    --com # this is a short cut for }}com {{com
        print "C begin\n";
        my $t = AE::timer .4, 0, {{next}};
      --ser
        print "C second\n";
        my $t = AE::timer .4, 0, {{next}};
      --ser
        print "C done\n";
    }}com
  --ser
    print "all done\n";
    $cv->send;
}}com
$cv->recv;

And also, the following block will get all the arguments when {{next}} is called. This is useful when integrating with other callback based module.

use Combinator;
use AE;
use AnyEvent::HTTP;

my $cv = AE::cv;
{{com
    print "start\n";
    http_get "http://search.cpan.org/", {{next}};
  --ser
    my($data, $headers) = @_; # the cb args of http_get

    if( !defined($data) ) {
        print "Fetch cpan fail\n";
        return;
    }
    print "Fetch cpan success\n";

    http_get "http://www.perl.org/", {{next}};
  --ser
    my($data, $headers) = @_; # the cb args of http_get

    if( !defined($data) ) {
        print "Fetch perl fail\n";
        return;
    }
    print "Fetch perl success\n";

    print "done\n";
    $cv->send;
}}com
$cv->recv;

If there are multiple {{next}}s been called, You'll get all the args concatenated together.

use Combinator;
use AE;

my $cv = AE::cv;
{{com
    {{next}}->(0);
    {{com
        my $t = AE::timer 1, 0, {{next}};
      --ser
        undef $t;
        {{next}}->(1);
    --com
        my $t = AE::timer .6, 0, {{next}};
      --ser
        undef $t;
        {{next}}->(2);
    --com
        my $t = AE::timer .3, 0, {{next}};
      --ser
        undef $t;
        {{next}}->(3);
    }}com
    {{next}}->(4);
  --ser
    print "@_\n"; # 0 4 3 2 1
    $cv->send;
}}com

If you want to process each {{next}}'s args seperately, you might use seperate {{com..}}com, and then gather the final result.

use Combinator;
use AnyEvent::HTTP;
use Data::Dumper;

my $cv = AE::cv;
{{com
    my @health;
    for my $url (qw(http://www.perl.org/ http://search.cpan.org/)) {{com
        my $url = $url; # we need to copy-out the $url here,
                # or the later part of the {{com..}}com will
                # not get the correct one.
        http_get $url, {{next}};
      --ser
        push @health, [$url, defined($_[0])];
    }}com
  --ser
    print Dumper(\@health);
    $cv->send;
}}com

If you wish to run a {{com..}}com repeatly. Use {{cir instead of {{com, or use --cir instead of --com if it's not the first block.

use Combinator;
use AE;
use AnyEvent::Socket;
use AnyEvent::Handle;

tcp_server 0, 8888, sub {
    my($fh, $host, $port) = @_;

    my $hd; $hd = AnyEvent::Handle->new(
        fh => $fh,
        on_error => sub {
            print "socket $host:$port end.\n";
            undef $hd;
        },
    );

    {{cir
        $hd->push_read( line => {{next}} );
      --ser
        my($hd, $line) = @_;
        $hd->push_write($line.$/);
    }}com
};

AE::cv->recv;

If you need finer controlled {{next}}, use {{nex .. }}nex block to replace {{next}}.

use Combinator;
use AE;
use AnyEvent::HTTP;

{{com
    my($a_res, $b_res);
    http_get 'http://site.a/', {{nex $a_res = $_[1] }}nex;
    http_get 'http://site.b/', {{nex $b_res = $_[1] }}nex;
  --ser
    print "Completed!\n";
    print "SiteA = $a_res\n";
    print "SiteB = $b_res\n";
}}com

AE::cv->recv;

Though without {{nex .. }}nex block, you can still write:

use Combinator;
use AE;
use AnyEvent::HTTP;

{{com
    my($a_res, $b_res);
    {{com
        http_get 'http://site.a/', {{next}};
      --ser
        $a_res = $_[1];
    --com
        http_get 'http://site.b/', {{next}};
      --ser
        $b_res = $_[1];
    }}com
  --ser
    print "Completed!\n";
    print "SiteA = $a_res\n";
    print "SiteB = $b_res\n";
}}com

AE::cv->recv;

It's up to you to choose which one to use.

WHEN YOU SHOULD USE THIS MODULE

When you are tired of writing layered closures

use AnyEvent::DBI;

...

$dbh->exec("select ...", sub {
    ...
    $dbh->exec("select ...", sub {
        ...
        $dbh->exec("select ...", sub {
            ...
            $dbh->exec("select ...", sub {
                ...
            });
        });
    });
});

You can achieve that like this:

use Combinator;
use AnyEvent::DBI;

...

{{com
    $dbh->exec("select ...", {{next}});
    ...
  --ser
    $dbh->exec("select ...", {{next}});
    ...
  --ser
    $dbh->exec("select ...", {{next}});
    ...
  --ser
    $dbh->exec("select ...", {{next}});
    ...
}}com

When you are tired of manually using condition variable to achieve asynchronous concurrent program.

use AE;

...

AE::io $fh, 0, sub {
    my($file_a, $file_b);
    my $cv = AE::cv {
        my $cv2 = AE::cv {
            sock_send($admin, "done", sub{});
        };
        $cv2->begin;
        for(@user) {
            sock_send($_, $file_a.$file_b, sub { $cv2->end });
        }
        $cv2->end;
    };

    $cv->begin;

    $cv->begin;
    read_a_file(..., sub { $file_a = ...; $cv->end });
    $cv->begin;
    read_a_file(..., sub { $file_b = ...; $cv->end });

    $cv->end;
};

You can achieve that like this:

use Combinator;
use AE;

...

AE::io $fh, 0, sub {{com
    my($file_a, $file_b);
    {{com
        read_a_file(..., {{next}});
      --ser
        $file_a = ...;
    --com
        read_a_file(..., {{next}});
      --ser
        $file_b = ...;
    }}com
  --ser
    for(@user) {
        sock_send($_, $file_a.$file_b, {{next}});
    }
  --ser
    sock_send($admin, "done", {{next}});
}}com

When you are afraid of using recursion to achieve LOOP in an event-driven program.

use AE;

...

sub sooner {
    my $int = shift;
    print "$int\n";
    return if $int <= 0;
    my $t = AE::timer $int, 0, sub {
        undef $t;
        sooner($int-1);
    };
}
sooner(3);

You can achieve that like this:

use AE;

...

sub sooner {{com
    my $int = shift;
    my $t;
    {{cir
        print "$int\n";
        if( $int <= 0 ) {
            undef $t;
            return;
        }
        $t = AE::timer $int, 0, {{next}};
        --$int;
    }}com
}}com
sooner(3);

OPTIONS

You can set some options like this:

use Combinator verbose => 1, begin => qr/\{\{COM\b/;

Possible options are:

verbose => 0

Set to 1 if you want to see the generated code.

begin => qr/\{\{com\b/

cir_begin => qr/\{\{cir\b/

nex_begin => qr/\{\{nex\b/

ser => qr/--ser\b/

par => qr/--com\b/

cir_par => qr/--cir\b/

end => qr/\}\}(?:com|cir|nex)\b/

next => qr/\{\{next\}\}/

You can change these patterns to what you want

CAVEATS

PATTERNS IN COMMENTS OR STRINGS

This module is implemented by filter your code directly. So it will still take effect if the pattern ({{com, {{next}, ... etc) show up in comments or strings. So avoid it!

You may use options listed above to change the default patterns.

INFINITE RECURSION

The {{cir or --cir is implemented by recursion. That is, if you using that without going through any event loop, it may result in infinite recursion.

You can avoid that by a zero time timer. For example:

{{cir
    print "Go\n";
}}com

This will crash immediately due to the deep recursion. You can replace it by:

{{cir
    print "Go\n";
    my $t; $t = AE::timer 0, 0, {{next}};
  --ser
    undef $t;
}}com

LATE STARTED NEXT

Each serial block will start to run once the previous block is finished and all the started {{next}}s have been called. That is, the un-started {{next}} is not counted.

Here's an example:

{{com
    my $t; $t = AE::timer 1, 0, sub {
        undef $t;
        print "A\n";
        {{next}}->();
    };
  --ser
    print "B\n";
}}com

It'll print "B" before "A", cause when the later block is checking if the previous one is finished, the {{next}} in the timer callback hasn't started.

You can fix it by:

{{com
    my $next = {{next}};
    my $t; $t = AE::timer 1, 0, sub {
        undef $t;
        print "A\n";
        $next->();
    };
  --ser
    print "B\n";
}}com

Then "B" will come after "A";

DEMO

Look up the file eg/demo_all.pl

AUTHOR

Cindy Wang (CindyLinz)

BUGS

Please report any bugs or feature requests to github http://github.com/CindyLinz/Perl-Combinator. I will be notified, and then you'll automatically be notified of progress on your bug as I make changes.

SUPPORT

You can find documentation for this module with the perldoc command.

perldoc Combinator

You can also look for information at:

LICENSE AND COPYRIGHT

Copyright 2011 Cindy Wang (CindyLinz).

This program is free software; you can redistribute it and/or modify it under the terms of either: the GNU General Public License as published by the Free Software Foundation; or the Artistic License.

See http://dev.perl.org/licenses/ for more information.