NAME
Lexical::Persistence - Persistent lexical variable values for arbitrary
calls.
VERSION
version 1.023
SYNOPSIS
#!/usr/bin/perl
use Lexical::Persistence;
my $persistence = Lexical::Persistence->new();
foreach my $number (qw(one two three four five)) {
$persistence->call(\&target, number => $number);
}
exit;
sub target {
my $arg_number; # Argument.
my $narf_x++; # Persistent.
my $_i++; # Dynamic.
my $j++; # Persistent.
print "arg_number = $arg_number\n";
print "\tnarf_x = $narf_x\n";
print "\t_i = $_i\n";
print "\tj = $j\n";
}
DESCRIPTION
Lexical::Persistence does a few things, all related. Note that all the
behaviors listed here are the defaults. Subclasses can override nearly
every aspect of Lexical::Persistence's behavior.
Lexical::Persistence lets your code access persistent data through
lexical variables. This example prints "some value" because the value of
$x persists in the $lp object between setter() and getter().
use Lexical::Persistence;
my $lp = Lexical::Persistence->new();
$lp->call(\&setter);
$lp->call(\&getter);
sub setter { my $x = "some value" }
sub getter { print my $x, "\n" }
Lexicals with leading underscores are not persistent.
By default, Lexical::Persistence supports accessing data from multiple
sources through the use of variable prefixes. The set_context() member
sets each data source. It takes a prefix name and a hash of key/value
pairs. By default, the keys must have sigils representing their variable
types.
use Lexical::Persistence;
my $lp = Lexical::Persistence->new();
$lp->set_context( pi => { '$member' => 3.141 } );
$lp->set_context( e => { '@member' => [ 2, '.', 7, 1, 8 ] } );
$lp->set_context(
animal => {
'%member' => { cat => "meow", dog => "woof" }
}
);
$lp->call(\&display);
sub display {
my ($pi_member, @e_member, %animal_member);
print "pi = $pi_member\n";
print "e = @e_member\n";
while (my ($animal, $sound) = each %animal_member) {
print "The $animal goes... $sound!\n";
}
}
And the corresponding output:
pi = 3.141
e = 2 . 7 1 8
The cat goes... meow!
The dog goes... woof!
By default, call() takes a single subroutine reference and an optional
list of named arguments. The arguments will be passed directly to the
called subroutine, but Lexical::Persistence also makes the values
available from the "arg" prefix.
use Lexical::Persistence;
my %animals = (
snake => "hiss",
plane => "I'm Cartesian",
);
my $lp = Lexical::Persistence->new();
while (my ($animal, $sound) = each %animals) {
$lp->call(\&display, animal => $animal, sound => $sound);
}
sub display {
my ($arg_animal, $arg_sound);
print "The $arg_animal goes... $arg_sound!\n";
}
And the corresponding output:
The plane goes... I'm Cartesian!
The snake goes... hiss!
Sometimes you want to call functions normally. The wrap() method will
wrap your function in a small thunk that does the call() for you,
returning a coderef.
use Lexical::Persistence;
my $lp = Lexical::Persistence->new();
my $thunk = $lp->wrap(\&display);
$thunk->(animal => "squirrel", sound => "nuts");
sub display {
my ($arg_animal, $arg_sound);
print "The $arg_animal goes... $arg_sound!\n";
}
And the corresponding output:
The squirrel goes... nuts!
Prefixes are the characters leading up to the first underscore in a
lexical variable's name. However, there's also a default context named
underscore. It's literally "_" because the underscore is not legal in a
context name by default. Variables without prefixes, or with prefixes
that have not been previously defined by set_context(), are stored in
that context.
The get_context() member returns a hash for a named context. This allows
your code to manipulate the values within a persistent context.
use Lexical::Persistence;
my $lp = Lexical::Persistence->new();
$lp->set_context(
_ => {
'@mind' => [qw(My mind is going. I can feel it.)]
}
);
while (1) {
$lp->call(\&display);
my $mind = $lp->get_context("_")->{'@mind'};
splice @$mind, rand(@$mind), 1;
last unless @$mind;
}
sub display {
my @mind;
print "@mind\n";
}
Displays something like:
My mind is going. I can feel it.
My is going. I can feel it.
My is going. I feel it.
My going. I feel it.
My going. I feel
My I feel
My I
My
It's possible to create multiple Lexical::Persistence objects, each with
a unique state.
use Lexical::Persistence;
my $lp_1 = Lexical::Persistence->new();
$lp_1->set_context( _ => { '$foo' => "context 1's foo" } );
my $lp_2 = Lexical::Persistence->new();
$lp_2->set_context( _ => { '$foo' => "the foo in context 2" } );
$lp_1->call(\&display);
$lp_2->call(\&display);
sub display {
print my $foo, "\n";
}
Gets you this output:
context 1's foo
the foo in context 2
You can also compile and execute perl code contained in plain strings in
a a lexical environment that already contains the persisted variables.
use Lexical::Persistence;
my $lp = Lexical::Persistence->new();
$lp->do( 'my $message = "Hello, world" );
$lp->do( 'print "$message\n"' );
Which gives the output:
Hello, world
If you come up with other fun uses, let us know.
new
Create a new lexical persistence object. This object will store one or
more persistent contexts. When called by this object, lexical variables
will take on the values kept in this object.
initialize_contexts
This method is called by new() to declare the initial contexts for a new
Lexical::Persistence object. The default implementation declares the
default "_" context.
Override or extend it to create others as needed.
set_context NAME, HASH
Store a context HASH within the persistence object, keyed on a NAME.
Members of the context HASH are unprefixed versions of the lexicals
they'll persist, including the sigil. For example, this set_context()
call declares a "request" context with predefined values for three
variables: $request_foo, @request_foo, and %request_foo:
$lp->set_context(
request => {
'$foo' => 'value of $request_foo',
'@foo' => [qw( value of @request_foo )],
'%foo' => { key => 'value of $request_foo{key}' }
}
);
See parse_variable() for information about how Lexical::Persistence
decides which context a lexical belongs to and how you can change that.
get_context NAME
Returns a context hash associated with a particular context name.
Autovivifies the context if it doesn't already exist, so be careful
there.
call CODEREF, ARGUMENT_LIST
Call CODEREF with lexical persistence and an optional ARGUMENT_LIST,
consisting of name => value pairs. Unlike with set_context(), however,
argument names do not need sigils. This may change in the future,
however, as it's easy to access an argument with the wrong variable
type.
The ARGUMENT_LIST is passed to the called CODEREF through @_ in the
usual way. They're also available as $arg_name variables for
convenience.
See push_arg_context() for information about how $arg_name works, and
what you can do to change that behavior.
invoke OBJECT, METHOD, ARGUMENT_LIST
Invoke OBJECT->METHOD(ARGUMENT_LIST) while maintaining state for the
METHOD's lexical variables. Written in terms of call(), except that it
takes OBJECT and METHOD rather than CODEREF. See call() for more
details.
May have issues with methods invoked via AUTOLOAD, as invoke() uses
can() to find the method's CODEREF for call().
wrap CODEREF
Wrap a function or anonymous CODEREF so that it's transparently called
via call(). Returns a coderef which can be called directly. Named
arguments to the call will automatically become available as $arg_name
lexicals within the called CODEREF.
See call() and push_arg_context() for more details.
prepare CODE
Wrap a CODE string in a subroutine definition, and prepend declarations
for all the variables stored in the Lexical::Persistence default
context. This avoids having to declare variables explicitly in the code
using 'my'. Returns a new code string ready for Perl's built-in eval().
From there, a program may $lp->call() the code or $lp->wrap() it.
Also see "compile()", which is a convenient wrapper for prepare() and
Perl's built-in eval().
Also see "do()", which is a convenient way to prepare(), eval() and
call() in one step.
compile CODE
compile() is a convenience method to prepare() a CODE string, eval() it,
and then return the resulting coderef. If it fails, it returns false,
and $@ will explain why.
do CODE
do() is a convenience method to compile() a CODE string and execute it.
It returns the result of CODE's execution, or it throws an exception on
failure.
This example prints the numbers 1 through 10. Note, however, that do()
compiles the same code each time.
use Lexical::Persistence;
my $lp = Lexical::Persistence->new();
$lp->do('my $count = 0');
$lp->do('print ++$count, "\\n"') for 1..10;
Lexical declarations are preserved across do() invocations, such as with
$count in the surrounding examples. This behavior is part of prepare(),
which do() uses via compile().
The previous example may be rewritten in terms of compile() and call()
to avoid recompiling code every iteration. Lexical declarations are
preserved between do() and compile() as well:
use Lexical::Persistence;
my $lp = Lexical::Persistence->new();
$lp->do('my $count = 0');
my $coderef = $lp->compile('print ++$count, "\\n"');
$lp->call($coderef) for 1..10;
do() inherits some limitations from PadWalker's peek_sub(). For
instance, it cannot alias lexicals within sub() definitions in the
supplied CODE string. However, Lexical::Persistence can do this with
careful use of eval() and some custom CODE preparation.
parse_variable VARIABLE_NAME
This method determines whether VARIABLE_NAME should be persistent. If it
should, parse_variable() will return three values: the variable's sigil
('$', '@' or '%'), the context name in which the variable persists (see
set_context()), and the name of the member within that context where the
value is stored. parse_variable() returns nothing if VARIABLE_NAME
should not be persistent.
parse_variable() also determines whether the member name includes its
sigil. By default, the "arg" context is the only one with members that
have no sigils. This is done to support the unadorned argument names
used by call().
This method implements a default behavior. It's intended to be
overridden or extended by subclasses.
get_member_ref SIGIL, CONTEXT, MEMBER
This method fetches a reference to the named MEMBER of a particular
named CONTEXT. The returned value type will be governed by the given
SIGIL.
Scalar values are stored internally as scalars to be consistent with how
most people store scalars.
The persistent value is created if it doesn't exist. The initial value
is undef or empty, depending on its type.
This method implements a default behavior. It's intended to be
overridden or extended by subclasses.
push_arg_context ARGUMENT_LIST
Convert a named ARGUMENT_LIST into members of an argument context, and
call set_context() to declare that context. This is how $arg_foo
variables are supported. This method returns the previous context,
fetched by get_context() before the new context is set.
This method implements a default behavior. It's intended to be
overridden or extended by subclasses. For example, to redefine the
parameters as $param_foo.
See pop_arg_context() for the other side of this coin.
pop_arg_context OLD_ARG_CONTEXT
Restores OLD_ARG_CONTEXT after a target function has returned. The
OLD_ARG_CONTEXT is the return value from the push_arg_context() call
just prior to the target function's call.
This method implements a default behavior. It's intended to be
overridden or extended by subclasses.
SEE ALSO
POE::Stage, Devel::LexAlias, PadWalker, Catalyst::Controller::BindLex.
BUG TRACKER
https://rt.cpan.org/Dist/Display.html?Status=Active&Queue=Lexical-Persis
tence
REPOSITORY
http://github.com/rcaputo/lexical-persistence
http://gitorious.org/lexical-persistence
OTHER RESOURCES
http://search.cpan.org/dist/Lexical-Persistence/
COPYRIGHT
Lexical::Persistence in copyright 2006-2013 by Rocco Caputo. All rights
reserved. Lexical::Persistence is free software. It is released under
the same terms as Perl itself.
ACKNOWLEDGEMENTS
Thanks to Matt Trout and Yuval Kogman for lots of inspiration. They were
the demon and the other demon sitting on my shoulders.
Nick Perez convinced me to make this a class rather than persist with
the original, functional design. While Higher Order Perl is fun for
development, I have to say the move to OO was a good one.
Paul "LeoNerd" Evans contributed the compile() and eval() methods.
The South Florida Perl Mongers, especially Jeff Bisbee and Marlon
Bailey, for documentation feedback.
irc://irc.perl.org/poe for support and feedback.
