SYNOPSIS

  package MyClass;
  use Class::MixinFactory -hasafactory;
  sub new { ... }
  sub foo { return "Foo Bar" }

  package MyClass::Logging;
  sub foo { warn "Calling foo"; (shift)->NEXT('foo', @_) }

  package MyClass::UpperCase;
  sub foo { uc( (shift)->NEXT('foo', @_) ) }

  package main;

  my $class = MyClass->class( 'Logging', 'UpperCase' );
  print $class->new()->foo();
  # Calls MyClass::Logging::foo, MyClass::UpperCase::foo, MyClass::foo

DESCRIPTION

This distribution facilitates the run-time generation of classes which inherit from a base class and some optional selection of mixin classes.

A factory is provided to generate the mixed classes with multiple inheritance. A \s-1NEXT\s0 method allows method redispatch up the inheritance chain.

USAGE

The Class::MixinFactory package is just a facade that loads the necessary classes and provides a few import options for compile-time convenience.

Factory Interface

To generate an object with some combination of mixins, you first pass the names of the mixin classes to a class factory which will generate a mixed class. (Or return the name of the already generated class, if there has been a previous request with the same combination of mixins.)

You can add a factory method to your base class, create a separate factory object, or inherit to produce a factory class.

Factory Method

To add a factory method to a base class, inherit from the Class::MixinFactory::HasAFactory class, or use the \*(C`-hasafactory\*(C' import option: package MyClass; use Class::MixinFactory -hasafactory;

package main; my $class = MyClass->class( 'Logging', 'UpperCase' ); print $class->new()->foo();

Factory Class

To create a new class which will act as a factory for another base class, inherit from the Class::MixinFactory::Factory class, or use the \*(C`-isafactory\*(C' import option: package MyClass::Factory; use Class::MixinFactory -isafactory; MyClass::Factory->base_class( "MyClass" );

package main; my $class = MyClass::Factory->class( 'Logging', 'UpperCase' ); print $class->new()->foo();

Factory Object

To create an object which will act as a factory, create a Class::MixinFactory::Factory instance by calling the new() method: use Class::MixinFactory; my $factory = Class::MixinFactory->new(); $factory->base_class( "MyClass" );

my $class = $factory->class( 'Logging', 'UpperCase' ); print $class->new()->foo();

Inheriting from a Mixed Class

Inheriting with a Factory Method or Factory Object

A subclass can inherit from a mixed class: package MyClass::CustomWidget; @ISA = MyClass->class( 'Logging', 'UpperCase' ); sub foo { local $_ = (shift)->NEXT('foo', @_); tr[a-z][z-a]; $_ }

package main; print MyClass::CustomWidget->new()->foo();

Inheriting with a Factory Class

A subclass can use a factory class to define its own inheritance: package MyClass::CustomWidget; use Class::MixinFactory -isasubclass, MyClass::Factory => 'Logging', 'UpperCase'; sub foo { local $_ = (shift)->NEXT('foo', @_); tr[a-z][z-a]; $_ }

package main; print MyClass::CustomWidget->new()->foo();

Configuring a Factory

Factories support methods that control which classes they will use.

The base class will be inherited from by all mixed classes.

$factory->base_class( "HelloWorld" );

The mixin prefix is prepended to the mixin names passed to the class() method. Mixin names that contain a \*(L"::\*(R" are assumed to be fully qualified and are not changed. If empty, the base_class is used.

$factory->mixin_prefix( 'HelloFeature' );

The mixed prefix is at the start of all generated class names. If empty, the base_class is used, or the factory's class name.

$factory->mixed_prefix( 'HelloClass' );

Writing a Mixin Class

Writing a mixin class is almost the same as writing a subclass, except where methods need to redispatch to the base-class implementation. (The SUPER::method syntax will only search for classes that the mixin itself inherits from; to search back up the inheritance tree and explore other branches, another redispatch mechanism is needed.)

A method named \s-1NEXT\s0 is provided to continue the search through to the next class which provides a given method. The order in which mixins are stacked is significant, so the caller should understand how their behaviors interact. (See Class::MixinFactory::NEXT.)

RELATED TO Class::MixinFactory…

For distribution, installation, support, copyright and license information, see Class::MixinFactory::ReadMe.