NAME
    Variable::Magic - Associate user-defined magic to variables from Perl.

VERSION
    Version 0.47

SYNOPSIS
        use Variable::Magic qw<wizard cast VMG_OP_INFO_NAME>;

        { # A variable tracer
         my $wiz = wizard(
          set  => sub { print "now set to ${$_[0]}!\n" },
          free => sub { print "destroyed!\n" },
         );

         my $a = 1;
         cast $a, $wiz;
         $a = 2;        # "now set to 2!"
        }               # "destroyed!"

        { # A hash with a default value
         my $wiz = wizard(
          data     => sub { $_[1] },
          fetch    => sub { $_[2] = $_[1] unless exists $_[0]->{$_[2]}; () },
          store    => sub { print "key $_[2] stored in $_[-1]\n" },
          copy_key => 1,
          op_info  => VMG_OP_INFO_NAME,
         );

         my %h = (_default => 0, apple => 2);
         cast %h, $wiz, '_default';
         print $h{banana}, "\n"; # "0" (there is no 'banana' key in %h)
         $h{pear} = 1;           # "key pear stored in helem"
        }

DESCRIPTION
    Magic is Perl's way of enhancing variables. This mechanism lets the user
    add extra data to any variable and hook syntactical operations (such as
    access, assignment or destruction) that can be applied to it. With this
    module, you can add your own magic to any variable without having to
    write a single line of XS.

    You'll realize that these magic variables look a lot like tied
    variables. It's not surprising, as tied variables are implemented as a
    special kind of magic, just like any 'irregular' Perl variable : scalars
    like $!, $( or $^W, the %ENV and %SIG hashes, the @ISA array, "vec()"
    and "substr()" lvalues, threads::shared variables... They all share the
    same underlying C API, and this module gives you direct access to it.

    Still, the magic made available by this module differs from tieing and
    overloading in several ways :

    *   It isn't copied on assignment.

        You attach it to variables, not values (as for blessed references).

    *   It doesn't replace the original semantics.

        Magic callbacks usually get triggered before the original action
        takes place, and can't prevent it from happening. This also makes
        catching individual events easier than with "tie", where you have to
        provide fallbacks methods for all actions by usually inheriting from
        the correct "Tie::Std*" class and overriding individual methods in
        your own class.

    *   It's type-agnostic.

        The same magic can be applied on scalars, arrays, hashes, subs or
        globs. But the same hook (see below for a list) may trigger
        differently depending on the the type of the variable.

    *   It's mostly invisible at the Perl level.

        Magical and non-magical variables cannot be distinguished with
        "ref", "tied" or another trick.

    *   It's notably faster.

        Mainly because perl's way of handling magic is lighter by nature,
        and because there's no need for any method resolution. Also, since
        you don't have to reimplement all the variable semantics, you only
        pay for what you actually use.

    The operations that can be overloaded are :

    *   "get"

        This magic is invoked when the variable is evaluated. It is never
        called for arrays and hashes.

    *   "set"

        This one is triggered each time the value of the variable changes.
        It is called for array subscripts and slices, but never for hashes.

    *   "len"

        This magic is a little special : it is called when the 'size' or the
        'length' of the variable has to be known by Perl. Typically, it's
        the magic involved when an array is evaluated in scalar context, but
        also on array assignment and loops ("for", "map" or "grep"). The
        callback has then to return the length as an integer.

    *   "clear"

        This magic is invoked when the variable is reset, such as when an
        array is emptied. Please note that this is different from undefining
        the variable, even though the magic is called when the clearing is a
        result of the undefine (e.g. for an array, but actually a bug
        prevent it to work before perl 5.9.5 - see the history).

    *   "free"

        This one can be considered as an object destructor. It happens when
        the variable goes out of scope, but not when it is undefined.

    *   "copy"

        This magic only applies to tied arrays and hashes. It fires when you
        try to access or change their elements. It is available on your perl
        iff "MGf_COPY" is true.

    *   "dup"

        Invoked when the variable is cloned across threads. Currently not
        available.

    *   "local"

        When this magic is set on a variable, all subsequent localizations
        of the variable will trigger the callback. It is available on your
        perl iff "MGf_LOCAL" is true.

    The following actions only apply to hashes and are available iff
    "VMG_UVAR" is true. They are referred to as "uvar" magics.

    *   "fetch"

        This magic happens each time an element is fetched from the hash.

    *   "store"

        This one is called when an element is stored into the hash.

    *   "exists"

        This magic fires when a key is tested for existence in the hash.

    *   "delete"

        This last one triggers when a key is deleted in the hash, regardless
        of whether the key actually exists in it.

    You can refer to the tests to have more insight of where the different
    magics are invoked.

FUNCTIONS
  "wizard"
        wizard(
         data     => sub { ... },
         get      => sub { my ($ref, $data [, $op]) = @_; ... },
         set      => sub { my ($ref, $data [, $op]) = @_; ... },
         len      => sub {
          my ($ref, $data, $len [, $op]) = @_; ... ; return $newlen
         },
         clear    => sub { my ($ref, $data [, $op]) = @_; ... },
         free     => sub { my ($ref, $data [, $op]) = @_, ... },
         copy     => sub { my ($ref, $data, $key, $elt [, $op]) = @_; ... },
         local    => sub { my ($ref, $data [, $op]) = @_; ... },
         fetch    => sub { my ($ref, $data, $key [, $op]) = @_; ... },
         store    => sub { my ($ref, $data, $key [, $op]) = @_; ... },
         exists   => sub { my ($ref, $data, $key [, $op]) = @_; ... },
         delete   => sub { my ($ref, $data, $key [, $op]) = @_; ... },
         copy_key => $bool,
         op_info  => [ 0 | VMG_OP_INFO_NAME | VMG_OP_INFO_OBJECT ],
        )

    This function creates a 'wizard', an opaque type that holds the magic
    information. It takes a list of keys / values as argument, whose keys
    can be :

    *   "data"

        A code (or string) reference to a private data constructor. It is
        called each time this magic is cast on a variable, and the scalar
        returned is used as private data storage for it. $_[0] is a
        reference to the magic object and @_[1 .. @_-1] are all extra
        arguments that were passed to "cast".

    *   "get", "set", "len", "clear", "free", "copy", "local", "fetch",
        "store", "exists" and "delete"

        Code (or string) references to the corresponding magic callbacks.
        You don't have to specify all of them : the magic associated with
        undefined entries simply won't be hooked. In those callbacks, $_[0]
        is always a reference to the magic object and $_[1] is always the
        private data (or "undef" when no private data constructor was
        supplied).

        Moreover, when you pass "op_info => $num" to "wizard", the last
        element of @_ will be the current op name if "$num ==
        VMG_OP_INFO_NAME" and a "B::OP" object representing the current op
        if "$num == VMG_OP_INFO_OBJECT". Both have a performance hit, but
        just getting the name is lighter than getting the op object.

        Other arguments are specific to the magic hooked :

        *       "len"

                When the variable is an array or a scalar, $_[2] contains
                the non-magical length. The callback can return the new
                scalar or array length to use, or "undef" to default to the
                normal length.

        *       "copy"

                $_[2] is a either a copy or an alias of the current key,
                which means that it is useless to try to change or cast
                magic on it. $_[3] is an alias to the current element (i.e.
                the value).

        *       "fetch", "store", "exists" and "delete"

                $_[2] is an alias to the current key. Nothing prevents you
                from changing it, but be aware that there lurk dangerous
                side effects. For example, it may rightfully be readonly if
                the key was a bareword. You can get a copy instead by
                passing "copy_key => 1" to "wizard", which allows you to
                safely assign to $_[2] in order to e.g. redirect the action
                to another key. This however has a little performance
                drawback because of the copy.

        All the callbacks are expected to return an integer, which is passed
        straight to the perl magic API. However, only the return value of
        the "len" callback currently holds a meaning.

    Each callback can be specified as a code or a string reference, in which
    case the function denoted by the string will be used as the callback.

    Note that "free" callbacks are *never* called during global destruction,
    as there's no way to ensure that the wizard and the "free" callback
    weren't destroyed before the variable.

    Here's a simple usage example :

        # A simple scalar tracer
        my $wiz = wizard(
         get  => sub { print STDERR "got ${$_[0]}\n" },
         set  => sub { print STDERR "set to ${$_[0]}\n" },
         free => sub { print STDERR "${$_[0]} was deleted\n" },
        );

  "cast"
        cast [$@%&*]var, $wiz, ...

    This function associates $wiz magic to the variable supplied, without
    overwriting any other kind of magic. It returns true on success or when
    $wiz magic is already present, and croaks on error. All extra arguments
    specified after $wiz are passed to the private data constructor in @_[1
    .. @_-1]. If the variable isn't a hash, any "uvar" callback of the
    wizard is safely ignored.

        # Casts $wiz onto $x, and pass '1' to the data constructor.
        my $x;
        cast $x, $wiz, 1;

    The "var" argument can be an array or hash value. Magic for those
    behaves like for any other scalar, except that it is dispelled when the
    entry is deleted from the container. For example, if you want to call
    "POSIX::tzset" each time the 'TZ' environment variable is changed in
    %ENV, you can use :

        use POSIX;
        cast $ENV{TZ}, wizard set => sub { POSIX::tzset(); () };

    If you want to overcome the possible deletion of the 'TZ' entry, you
    have no choice but to rely on "store" uvar magic.

  "getdata"
        getdata [$@%&*]var, $wiz

    This accessor fetches the private data associated with the magic $wiz in
    the variable. It croaks when $wiz do not represent a valid magic object,
    and returns an empty list if no such magic is attached to the variable
    or when the wizard has no data constructor.

        # Get the attached data, or undef if the wizard does not attach any.
        my $data = getdata $x, $wiz;

  "dispell"
        dispell [$@%&*]variable, $wiz

    The exact opposite of "cast" : it dissociates $wiz magic from the
    variable. This function returns true on success, 0 when no magic
    represented by $wiz could be found in the variable, and croaks if the
    supplied wizard is invalid.

        # Dispell now.
        die 'no such magic in $x' unless dispell $x, $wiz;

CONSTANTS
  "MGf_COPY"
    Evaluates to true iff the 'copy' magic is available.

  "MGf_DUP"
    Evaluates to true iff the 'dup' magic is available.

  "MGf_LOCAL"
    Evaluates to true iff the 'local' magic is available.

  "VMG_UVAR"
    When this constant is true, you can use the "fetch,store,exists,delete"
    callbacks on hashes. Initial VMG_UVAR capability was introduced in perl
    5.9.5, with a fully functional implementation shipped with perl 5.10.0.

  "VMG_COMPAT_SCALAR_LENGTH_NOLEN"
    True for perls that don't call 'len' magic when taking the "length" of a
    magical scalar.

  "VMG_COMPAT_ARRAY_PUSH_NOLEN"
    True for perls that don't call 'len' magic when you push an element in a
    magical array. Starting from perl 5.11.0, this only refers to pushes in
    non-void context and hence is false.

  "VMG_COMPAT_ARRAY_PUSH_NOLEN_VOID"
    True for perls that don't call 'len' magic when you push in void context
    an element in a magical array.

  "VMG_COMPAT_ARRAY_UNSHIFT_NOLEN_VOID"
    True for perls that don't call 'len' magic when you unshift in void
    context an element in a magical array.

  "VMG_COMPAT_ARRAY_UNDEF_CLEAR"
    True for perls that call 'clear' magic when undefining magical arrays.

  "VMG_COMPAT_HASH_DELETE_NOUVAR_VOID"
    True for perls that don't call 'delete' uvar magic when you delete an
    element from a hash in void context.

  "VMG_COMPAT_GLOB_GET"
    True for perls that call 'get' magic for operations on globs.

  "VMG_PERL_PATCHLEVEL"
    The perl patchlevel this module was built with, or 0 for non-debugging
    perls.

  "VMG_THREADSAFE"
    True iff this module could have been built with thread-safety features
    enabled.

  "VMG_FORKSAFE"
    True iff this module could have been built with fork-safety features
    enabled. This will always be true except on Windows where it's false for
    perl 5.10.0 and below .

  "VMG_OP_INFO_NAME"
    Value to pass with "op_info" to get the current op name in the magic
    callbacks.

  "VMG_OP_INFO_OBJECT"
    Value to pass with "op_info" to get a "B::OP" object representing the
    current op in the magic callbacks.

COOKBOOK
  Associate an object to any perl variable
    This technique can be useful for passing user data through limited APIs.
    It is similar to using inside-out objects, but without the drawback of
    having to implement a complex destructor.

        {
         package Magical::UserData;

         use Variable::Magic qw<wizard cast getdata>;

         my $wiz = wizard data => sub { \$_[1] };

         sub ud (\[$@%*&]) : lvalue {
          my ($var) = @_;
          my $data = &getdata($var, $wiz);
          unless (defined $data) {
           $data = \(my $slot);
           &cast($var, $wiz, $slot)
                     or die "Couldn't cast UserData magic onto the variable";
          }
          $$data;
         }
        }

        {
         BEGIN { *ud = \&Magical::UserData::ud }

         my $cb;
         $cb = sub { print 'Hello, ', ud(&$cb), "!\n" };

         ud(&$cb) = 'world';
         $cb->(); # Hello, world!
        }

  Recursively cast magic on datastructures
    "cast" can be called from any magical callback, and in particular from
    "data". This allows you to recursively cast magic on datastructures :

        my $wiz;
        $wiz = wizard data => sub {
         my ($var, $depth) = @_;
         $depth ||= 0;
         my $r = ref $var;
         if ($r eq 'ARRAY') {
          &cast((ref() ? $_ : \$_), $wiz, $depth + 1) for @$var;
         } elsif ($r eq 'HASH') {
          &cast((ref() ? $_ : \$_), $wiz, $depth + 1) for values %$var;
         }
         return $depth;
        },
        free => sub {
         my ($var, $depth) = @_;
         my $r = ref $var;
         print "free $r at depth $depth\n";
         ();
        };

        {
         my %h = (
          a => [ 1, 2 ],
          b => { c => 3 }
         );
         cast %h, $wiz;
        }

    When %h goes out of scope, this will print something among the lines of
    :

        free HASH at depth 0
        free HASH at depth 1
        free SCALAR at depth 2
        free ARRAY at depth 1
        free SCALAR at depth 3
        free SCALAR at depth 3

    Of course, this example does nothing with the values that are added
    after the "cast".

PERL MAGIC HISTORY
    The places where magic is invoked have changed a bit through perl
    history. Here's a little list of the most recent ones.

    *   5.6.x

        *p14416* : 'copy' and 'dup' magic.

    *   5.8.9

        *p28160* : Integration of *p25854* (see below).

        *p32542* : Integration of *p31473* (see below).

    *   5.9.3

        *p25854* : 'len' magic is no longer called when pushing an element
        into a magic array.

        *p26569* : 'local' magic.

    *   5.9.5

        *p31064* : Meaningful 'uvar' magic.

        *p31473* : 'clear' magic wasn't invoked when undefining an array.
        The bug is fixed as of this version.

    *   5.10.0

        Since "PERL_MAGIC_uvar" is uppercased, "hv_magic_check()" triggers
        'copy' magic on hash stores for (non-tied) hashes that also have
        'uvar' magic.

    *   5.11.x

        *p32969* : 'len' magic is no longer invoked when calling "length"
        with a magical scalar.

        *p34908* : 'len' magic is no longer called when pushing / unshifting
        an element into a magical array in void context. The "push" part was
        already covered by *p25854*.

        *g9cdcb38b* : 'len' magic is called again when pushing into a
        magical array in non-void context.

EXPORT
    The functions "wizard", "cast", "getdata" and "dispell" are only
    exported on request. All of them are exported by the tags ':funcs' and
    ':all'.

    All the constants are also only exported on request, either individually
    or by the tags ':consts' and ':all'.

CAVEATS
    If you store a magic object in the private data slot, the magic won't be
    accessible by "getdata" since it's not copied by assignment. The only
    way to address this would be to return a reference.

    If you define a wizard with a "free" callback and cast it on itself,
    this destructor won't be called because the wizard will be destroyed
    first.

    In order to define magic on hash members, you need at least perl 5.10.0
    (see "VMG_UVAR")

DEPENDENCIES
    perl 5.8.

    A C compiler. This module may happen to build with a C++ compiler as
    well, but don't rely on it, as no guarantee is made in this regard.

    Carp (standard since perl 5), XSLoader (standard since perl 5.006).

    Copy tests need Tie::Array (standard since perl 5.005) and Tie::Hash
    (since 5.002).

    Some uvar tests need Hash::Util::FieldHash (standard since perl
    5.009004).

    Glob tests need Symbol (standard since perl 5.002).

    Threads tests need threads and threads::shared.

SEE ALSO
    perlguts and perlapi for internal information about magic.

    perltie and overload for other ways of enhancing objects.

AUTHOR
    Vincent Pit, "<perl at profvince.com>", <http://www.profvince.com>.

    You can contact me by mail or on "irc.perl.org" (vincent).

BUGS
    Please report any bugs or feature requests to "bug-variable-magic at
    rt.cpan.org", or through the web interface at
    <http://rt.cpan.org/NoAuth/ReportBug.html?Queue=Variable-Magic>. 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 Variable::Magic

    Tests code coverage report is available at
    <http://www.profvince.com/perl/cover/Variable-Magic>.

COPYRIGHT & LICENSE
    Copyright 2007,2008,2009,2010,2011 Vincent Pit, all rights reserved.

    This program is free software; you can redistribute it and/or modify it
    under the same terms as Perl itself.

