man Class::MethodMaker::Engine () - The parameter passing, method installation & non-data-structure methods of Class::MethodMaker.

NAME

Class::MethodMaker::Engine - The parameter passing, method installation & non-data-structure methods of Class::MethodMaker.

SYNOPSIS

This class is for internal implementation only. It is not a public API.

The non-data-structure methods do form part of the public API, but not called directly: rather, called through the CWuse/CWimport interface, as for data-structure methods.

The Class::MethodMaker Method Installation Engine

import

This performs argument parsing ready for calling create_methods. In particular, this is the point at which v1 & v2 calls are distinguished.

This is implicitly called as part of a CWuse statement:

  use Class::MethodMaker
    [ scalar => [qw/ foo bar baz /],
      new    => [qw/ new /]        ,
    ];

is equivalent to

  Class::MethodMaker->import([scalar => [qw/ foo bar baz /],
                              new    => [qw/ new /]        ,
                             ]);

See perldoc -f use for details of this equivalence.

The methods created are installed into the class calling the import - or more accurately, the first class up the calling stack that is not CWClass::MethodMaker or a subclass thereof.

SYNOPSIS
  Class::MethodMaker->import([scalar => [+{ -type   => 'File::Stat',
                                            -forward => [qw/ mode size /],
                                            '*_foo' => '*_fig',
                                            '*_gop' => undef,
                                            '*_bar' => '*_bar',
                                            '*_hal' => '*_sal',
                                           },
                                         qw/ -static bob /,
                                        ]
                             ]);

parse_options

Parse the arguments given to import and call create_methods appropriately. See main text for options syntax.

SYNOPSIS
  Class::MethodMaker->parse_options('TargetClass',
                                    [scalar =>
                                      [{ -type => 'File::stat',
                                         -forward => [qw/ mode
                                                          size /],
                                         '*_foo' => '*_fig',
                                         '*_gop' => undef,
                                         '*_bar' => '*_bar',
                                         '*_hal' => '*_sal',
                                       },
                                       qw( -static bob ),
                                      ]])},
  Class::MethodMaker->parse_options('TargetClass2',
                                    [scalar =>
                                      ['baz',
                                       { -type => 'File::stat',
                                         -forward => [qw/ mode
                                                          size /],
                                         '*_foo' => '*_fog',
                                         '*_bar' => '*_bar',
                                         '*_hal' => '*_sal',
                                       },
                                       qw( -static bob ),
                                      ]],
                                    +{ -type => 'Math::BigInt', },
                                    +{'*_foo' => '*_fig',
                                      '*_gop' => undef,},
                                   )},
ARGUMENTS
target_class
The class into which to install components
args
The arguments to parse, as a single arrayref.
options
A hashref of options to apply to all components created by this call (subject to overriding by explicit option calls).
renames
A hashref of renames to apply to all components created by this call (subject to overriding by explicit rename calls).

create_methods

Add methods to a class. Methods for multiple components may be added this way, but create_methods handles only one set of options. parse_options is responsible for sorting which options to apply to which components, and calling create_methods appropriately.

SYNOPSIS
  Class::MethodMaker->create_methods($target_class,
                                     scalar => bob,
                                     +{ static => 1,
                                        type   => 'File::Stat',
                                        forward => [qw/ mode size /], },
                                     +{ '*_foo' => '*_fig',
                                        '*_gop' => undef,
                                        '*_bar' => '*_bar',
                                        '*_hal' => '*_sal', }
                                    );
ARGUMENTS
targetclass
The class to add methods to.
type
The basic data structure to use for the component, e.g., CWscalar.
compname
Component name. The name must be a valid identifier, i.e., a continguous non-empty string of word (CW\w) characters, of which the first may not be a digit.
options
A hashref. Some options (CWstatic, CWtype, CWdefault, CWdefault_ctor) are handled by the auto-extender. These will be invoked if the name is present as a key and the value is true. Any other options are passed through to the method in question. The options should be named as-is; no leading hyphen should be applied (i.e., use CW{static => 1} not CW{-static => 1}).
renames
A list of customer renames. It is a hashref from method name to rename. The method name is the generic name (i.e., featuring a CW* to replace with the component name). The rename is the value to rename with. It may itself contain a CW* to replace with the component name. If rename is undef, the method is not installed. For methods that would not be installed by default, use a rename value that is the same as the method name. So, if a type would normally install methods
  '*_foo', '*_gop', '*_tom'
and optionally installs (but not by default)
  '*_bar', '*_wiz', '*_hal'
using a renames value of
  { '*_foo' => '*_fig',
    '*_gop' => undef,
    '*_bar' => '*_bar',
    '*_hal' => '*_sal',
  }
with a component name of CWxx, then CW*_foo is installed as CWxx_fig, CW*_bar is installed as CWxx_bar, CW*_wiz is not installed, CW*_hal is installed as CWxx_sal, CW*_gop is not installed, and CW*_tom is installed as CWxx_tom. The value may actually be an arrayref, in which case the function may be called by any of the multiple names specified.

install_methods

SYNOPSIS
  Class::MethodMaker->install_methods
    ($classname, { incr => sub { $i++ },
                   decr => sub { $i-- },
                 }
    );
ARGUMENTS
target
The class into which the methods are to be installed
methods
The methods to install, as a hashref. Keys are the method names; values are the methods themselves, as code refs.

Non-data-structure components

new

  use Class::MethodMaker
    [ new => 'new' ];

Creates a basic constructor.

Takes a single string or a reference to an array of strings as its argument. For each string creates a simple method that creates and returns an object of the appropriate class.

The generated method may be called as a class method, as usual, or as in instance method, in which case a new object of the same class as the instance will be created.

Options

-hash
The contructor will accept as arguments a list of pairs, from component name to initial value. For each pair, the named component is initialized by calling the method of the same name with the given value. E.g.,
  package MyClass;
  use Class::MethodMaker
    [ new    => [qw/ -hash new /],
      scalar => [qw/ b c /],
    ];
  sub d {
    my $self = shift;
    $self->{d} = $_[0]
      if @_;
    return $self->{d};
  }
  package main;
  # The statement below implicitly calls
  # $m->b(1); $m->c(2); $m->d(3)
  # on the newly constructed m.
  my $m = MyClass->new(b => 1, c => 2, d => 3);
Note that this can also call user-supplied methods that have the name of the component. Instead of a list of pairs, a single hashref may also be passed, which will be expanded appropriately. So the above is equivalent to:
  my $m = MyClass->new({ b => 1, c => 2, d => 3 });
Advanced Users: Class::MethodMaker method renaming is taken into account, so even if the CW* method is renamed or removed, this will still work.
-init
This option causes the new method to call an initializor method. The method is called CWinit (original, eh?) by default, but the option may be given an alternative value. The init method is passed any arguments that were passed to the constructor, but the method is invoked on the newly constructed instance.
  use Class::MethodMaker
    [ new => [qw/ -init new1 /, { -init => 'bob' } => 'init2' ]];
Constructing with new1 involves an implicit call to CWinit, whilst constructing with new2 involves an implicit call to CWbob (instead of CWinit). It is the responsiblity of the user to ensure that an CWinit method (or whatever name) is defined.
-singleton
Creates a basic constructor which only ever returns a single instance of the class: i.e., after the first call, repeated calls to this constructor return the same instance. Note that the instance is instantiated at the time of the first call, not before.

abstract

  use Class::MethodMaker
    [ abstract => [ qw / foo bar baz / ] ];

This creates a number of methods that will die if called. This is intended to support the use of abstract methods, that must be overidden in a useful subclass.

copy

  use Class::MethodMaker
    [ copy => [qw/ shallow -deep deep /] ];

This creates method that produce a copy of self. The copy is a by default a shallow copy; any references will be shared by the instance upon which the method is called and the returned newborn. One option is taken, CW-deep, which causes the method to create deep copies instead (i.e., references are copied recursively).

Implementation Note:

Deep copies are performed using the CWStorable module if available, else CWData::Dumper. The CWStorable module is liable to be much quicker. However, this implementation note is not an API specification: the implementation details are open to change in a future version as faster/better ways of performing a deep copy become available.

Note that deep copying does not currently support the copying of coderefs, ties or XS-based objects.

AUTHOR

Martyn J. Pearce <fluffy@cpan.org>