Provided by: libglib-perl_1.329.3-2build2_amd64 bug

NAME

       Glib::Type -  Utilities for dealing with the GLib Type system

DESCRIPTION

       This package defines several utilities for dealing with the GLib type system from Perl.
       Because of some fundamental differences in how the GLib and Perl type systems work, a fair
       amount of the binding magic leaks out, and you can find most of that in the
       "Glib::Type::register*" functions, which register new types with the GLib type system.

       Most of the rest of the functions provide introspection functionality, such as listing
       properties and values and other cool stuff that is used mainly by Glib's reference
       documentation generator (see Glib::GenPod).

METHODS

   list = Glib::Type->list_ancestors ($package)
       •   $package (string)

       List the ancestry of package, as seen by the GLib type system.  The important difference
       is that GLib's type system implements only single inheritance, whereas Perl's @ISA allows
       multiple inheritance.

       This returns the package names of the ancestral types in reverse order, with the root of
       the tree at the end of the list.

       See also list_interfaces ().

   list = Glib::Type->list_interfaces ($package)
       •   $package (string)

       List the GInterfaces implemented by the type associated with package.  The interfaces are
       returned as package names.

   list = Glib::Type->list_signals ($package)
       •   $package (string)

       List the signals associated with package.  This lists only the signals for package, not
       any of its parents.  The signals are returned as a list of anonymous hashes which mirror
       the GSignalQuery structure defined in the C API reference.

       - signal_id
           Numeric id of a signal.  It's rare that you'll need this in Gtk2-Perl.

       - signal_name
           Name of the signal, such as what you'd pass to "signal_connect".

       - itype
           The instance type for which this signal is defined.

       - signal_flags
           GSignalFlags describing this signal.

       - return_type
           The return type expected from handlers for this signal.  If undef or not present, then
           no return is expected.  The type name is mapped to the corresponding Perl package name
           if it is known, otherwise you get the raw C name straight from GLib.

       - param_types
           The types of the parameters passed to any callbacks connected to the emission of this
           signal.  The list does not include the instance, which is always first, and the user
           data from "signal_connect", which is always last (unless the signal was connected with
           "swap", which swaps the instance and the data, but you get the point).

   list = Glib::Type->list_values ($package)
       •   $package (string)

       List the legal values for the GEnum or GFlags type $package.  If $package is not a package
       name registered with the bindings, this name is passed on to g_type_from_name() to see if
       it's a registered flags or enum type that just hasn't been registered with the bindings by
       "gperl_register_fundamental()" (see Glib::xsapi).  If $package is not the name of an enum
       or flags type, this function will croak.

       Returns the values as a list of hashes, one hash for each value, containing the value,
       name and nickname, eg. for Glib::SignalFlags

           { value => 8,
             name  => 'G_SIGNAL_NO_RECURSE',
             nick  => 'no-recurse'
           }

   string = Glib::Type->package_from_cname ($cname)
       •   $cname (string)

       Convert a C type name to the corresponding Perl package name.  If no package is registered
       to that type, returns $cname.

   Glib::Type->register ($parent_class, $new_class, ...)
       •   $parent_class (package) type from which to derive

       •   $new_class (package) name of new type

       •   ... (list) arguments for creation

       Register a new type with the GLib type system.

       This is a traffic-cop function.  If $parent_type derives from Glib::Object, this passes
       the arguments through to "register_object".  If $parent_type is Glib::Flags or Glib::Enum,
       this strips $parent_type and passes the remaining args on to "register_enum" or
       "register_flags".  See those functions' documentation for more information.

   Glib::Type->register_enum ($name, ...)
       •   $name (string) package name for new enum type

       •   ... (list) new enum's values; see description.

       Register and initialize a new Glib::Enum type with the provided "values".  This creates a
       type properly registered GLib so that it can be used for property and signal parameter or
       return types created with "Glib::Type->register" or "Glib::Object::Subclass".

       The list of values is used to create the "nicknames" that are used in general Perl code;
       the actual numeric values used at the C level are automatically assigned, starting with 1.
       If you need to specify a particular numeric value for a nick, use an array reference
       containing the nickname and the numeric value, instead.  You may mix and match the two
       styles.

         Glib::Type->register_enum ('MyFoo::Bar',
                 'value-one',            # assigned 1
                 'value-two',            # assigned 2
                 ['value-three' => 15 ], # explicit 15
                 ['value-four' => 35 ],  # explicit 35
                 'value-five',           # assigned 5
         );

       If you use the array-ref form, beware: the code performs no validation for unique values.

   Glib::Type->register_flags ($name, ...)
       •   $name (string) package name of new flags type

       •   ... (list) flag values, see discussion.

       Register and initialize a new Glib::Flags type with the provided "values".  This creates a
       type properly registered GLib so that it can be used for property and signal parameter or
       return types created with "Glib::Type->register" or "Glib::Object::Subclass".

       The list of values is used to create the "nicknames" that are used in general Perl code;
       the actual numeric values used at the C level are automatically assigned, of the form
       1<<i, starting with i = 0.  If you need to specify a particular numeric value for a nick,
       use an array reference containing the nickname and the numeric value, instead.  You may
       mix and match the two styles.

         Glib::Type->register_flags ('MyFoo::Baz',
                  'value-one',               # assigned 1<<0
                  'value-two',               # assigned 1<<1
                  ['value-three' => 1<<10 ], # explicit 1<<10
                  ['value-four' => 0x0f ],   # explicit 0x0f
                  'value-five',              # assigned 1<<4
         );

       If you use the array-ref form, beware: the code performs no validation for unique values.

   Glib::Type->register_object ($parent_package, $new_package, ...)
       •   $parent_package (string) name of the parent package, which must be a derivative of
           Glib::Object.

       •   $new_package (string) usually __PACKAGE__.

       •   ... (list) key/value pairs controlling how the class is created.

       Register new_package as an officially GLib-sanctioned derivative of the (GObject
       derivative) parent_package.  This automatically sets up an @ISA entry for you, and creates
       a new GObjectClass under the hood.

       The ... parameters are key/value pairs, currently supporting:

       signals => HASHREF
           The "signals" key contains a hash, keyed by signal names, which describes how to set
           up the signals for new_package.

           If the value is a code reference, the named signal must exist somewhere in
           parent_package or its ancestry; the code reference will be used to override the class
           closure for that signal.  This is the officially sanctioned way to override virtual
           methods on Glib::Objects.  The value may be a string rather than a code reference, in
           which case the sub with that name in new_package will be used.  (The function should
           not be inherited.)

           If the value is a hash reference, the key will be the name of a new signal created
           with the properties defined in the hash.  All of the properties are optional, with
           defaults provided:

           class_closure => subroutine or undef
               Use this code reference (or sub name) as the class closure (that is, the default
               handler for the signal).  If not specified, "do_signal_name", in the current
               package, is used.

           return_type => package name or undef
               Return type for the signal.  If not specified, then the signal has void return.

           param_types => ARRAYREF
               Reference to a list of parameter types (package names), omitting the instance and
               user data.  Callbacks connected to this signal will receive the instance object as
               the first argument, followed by arguments with the types listed here, and finally
               by any user data that was supplied when the callback was connected.  Not
               specifying this key is equivalent to supplying an empty list, which actually means
               instance and maybe data.

           flags => Glib::SignalFlags
               Flags describing this signal's properties. See the GObject C API reference'
               description of GSignalFlags for a complete description.

           accumulator => subroutine or undef
               The signal accumulator is a special callback that can be used to collect return
               values of the various callbacks that are called during a signal emission.
               Generally, you can omit this parameter; custom accumulators are used to do things
               like stopping signal propagation by return value or creating a list of returns,
               etc.  See "SIGNALS" in Glib::Object::Subclass for details.

       properties => ARRAYREF
           Array of Glib::ParamSpec objects, each describing an object property to add to the new
           type.  These properties are available for use by all code that can access the object,
           regardless of implementation language.  See Glib::ParamSpec.  This list may be empty;
           if it is not, the functions "GET_PROPERTY" and "SET_PROPERTY" in $new_package will be
           called to get and set the values.  Note that an object property is just a mechanism
           for getting and setting a value -- it implies no storage.  As a convenience, however,
           Glib::Object provides fallbacks for GET_PROPERTY and SET_PROPERTY which use the
           property nicknames as hash keys in the object variable for storage.

           Additionally, you may specify ParamSpecs as a describing hash instead of as an object;
           this form allows you to supply explicit getter and setter methods which override
           GET_PROPERY and SET_PROPERTY.  The getter and setter are both optional in the hash
           form.  For example:

              Glib::Type->register_object ('Glib::Object', 'Foo',
                 properties => [
                    # specified normally
                    Glib::ParamSpec->string (...),
                    # specified explicitly
                    {
                       pspec => Glib::ParamSpec->int (...),
                       set => sub {
                          my ($object, $newval) = @_;
                          ...
                       },
                       get => sub {
                          my ($object) = @_;
                          ...
                          return $val;
                       },
                    },
                 ]
              );

           You can mix the two declaration styles as you like.  If you have individual "get_foo"
           / "set_foo" methods with the operative code for a property then the "get"/"set" form
           is a handy way to go straight to that.

       interfaces => ARRAYREF
           Array of interface package names that the new object implements.  Interfaces are the
           GObject way of doing multiple inheritance, thus, in Perl, the package names will be
           prepended to @ISA and certain inheritable and overrideable ALLCAPS methods will
           automatically be called whenever needed.  Which methods exactly depends on the
           interface -- Gtk2::CellEditable for example uses START_EDITING, EDITING_DONE, and
           REMOVE_WIDGET.

SEE ALSO

       Glib

COPYRIGHT

       Copyright (C) 2003-2011 by the gtk2-perl team.

       This software is licensed under the LGPL.  See Glib for a full notice.