package Term::Table::HashBase; use strict; use warnings; ################################################################# # # # This is a generated file! Do not modify this file directly! # # Use hashbase_inc.pl script to regenerate this file. # # The script is part of the Object::HashBase distribution. # # # ################################################################# { no warnings 'once'; $Term::Table::HashBase::VERSION = '0.003'; *Term::Table::HashBase::ATTR_SUBS = \%Object::HashBase::ATTR_SUBS; } require Carp; { no warnings 'once'; $Carp::Internal{+__PACKAGE__} = 1; } BEGIN { # these are not strictly equivalent, but for out use we don't care # about order *_isa = ($] >= 5.010 && require mro) ? \&mro::get_linear_isa : sub { no strict 'refs'; my @packages = ($_[0]); my %seen; for my $package (@packages) { push @packages, grep !$seen{$_}++, @{"$package\::ISA"}; } return \@packages; } } my %STRIP = ( '^' => 1, '-' => 1, ); sub import { my $class = shift; my $into = caller; my $isa = _isa($into); my $attr_subs = $Term::Table::HashBase::ATTR_SUBS{$into} ||= {}; my %subs = ( ($into->can('new') ? () : (new => \&_new)), (map %{$Term::Table::HashBase::ATTR_SUBS{$_} || {}}, @{$isa}[1 .. $#$isa]), ( map { my $p = substr($_, 0, 1); my $x = $_; substr($x, 0, 1) = '' if $STRIP{$p}; my ($sub, $attr) = (uc $x, $x); $sub => ($attr_subs->{$sub} = sub() { $attr }), $attr => sub { $_[0]->{$attr} }, $p eq '-' ? ("set_$attr" => sub { Carp::croak("'$attr' is read-only") }) : $p eq '^' ? ("set_$attr" => sub { Carp::carp("set_$attr() is deprecated"); $_[0]->{$attr} = $_[1] }) : ("set_$attr" => sub { $_[0]->{$attr} = $_[1] }), } @_ ), ); no strict 'refs'; *{"$into\::$_"} = $subs{$_} for keys %subs; } sub _new { my ($class, %params) = @_; my $self = bless \%params, $class; $self->init if $self->can('init'); $self; } 1; __END__ =pod =encoding UTF-8 =head1 NAME Term::Table::HashBase - Build hash based classes. =head1 SYNOPSIS A class: package My::Class; use strict; use warnings; # Generate 3 accessors use Term::Table::HashBase qw/foo -bar ^baz/; # Chance to initialize defaults sub init { my $self = shift; # No other args $self->{+FOO} ||= "foo"; $self->{+BAR} ||= "bar"; $self->{+BAZ} ||= "baz"; } sub print { print join ", " => map { $self->{$_} } FOO, BAR, BAZ; } Subclass it package My::Subclass; use strict; use warnings; # Note, you should subclass before loading HashBase. use base 'My::Class'; use Term::Table::HashBase qw/bat/; sub init { my $self = shift; # We get the constants from the base class for free. $self->{+FOO} ||= 'SubFoo'; $self->{+BAT} ||= 'bat'; $self->SUPER::init(); } use it: package main; use strict; use warnings; use My::Class; my $one = My::Class->new(foo => 'MyFoo', bar => 'MyBar'); # Accessors! my $foo = $one->foo; # 'MyFoo' my $bar = $one->bar; # 'MyBar' my $baz = $one->baz; # Defaulted to: 'baz' # Setters! $one->set_foo('A Foo'); #'-bar' means read-only, so the setter will throw an exception (but is defined). $one->set_bar('A bar'); # '^baz' means deprecated setter, this will warn about the setter being # deprecated. $one->set_baz('A Baz'); $one->{+FOO} = 'xxx'; =head1 DESCRIPTION This package is used to generate classes based on hashrefs. Using this class will give you a C method, as well as generating accessors you request. Generated accessors will be getters, C setters will also be generated for you. You also get constants for each accessor (all caps) which return the key into the hash for that accessor. Single inheritance is also supported. =head1 THIS IS A BUNDLED COPY OF HASHBASE This is a bundled copy of L. This file was generated using the C script. =head1 METHODS =head2 PROVIDED BY HASH BASE =over 4 =item $it = $class->new(@VALUES) Create a new instance using key/value pairs. HashBase will not export C if there is already a C method in your packages inheritance chain. B you just have to declare it before loading L. package My::Package; # predeclare new() so that HashBase does not give us one. sub new; use Term::Table::HashBase qw/foo bar baz/; # Now we define our own new method. sub new { ... } This makes it so that HashBase sees that you have your own C method. Alternatively you can define the method before loading HashBase instead of just declaring it, but that scatters your use statements. =back =head2 HOOKS =over 4 =item $self->init() This gives you the chance to set some default values to your fields. The only argument is C<$self> with its indexes already set from the constructor. =back =head1 ACCESSORS To generate accessors you list them when using the module: use Term::Table::HashBase qw/foo/; This will generate the following subs in your namespace: =over 4 =item foo() Getter, used to get the value of the C field. =item set_foo() Setter, used to set the value of the C field. =item FOO() Constant, returns the field C's key into the class hashref. Subclasses will also get this function as a constant, not simply a method, that means it is copied into the subclass namespace. The main reason for using these constants is to help avoid spelling mistakes and similar typos. It will not help you if you forget to prefix the '+' though. =back =head1 SUBCLASSING You can subclass an existing HashBase class. use base 'Another::HashBase::Class'; use Term::Table::HashBase qw/foo bar baz/; The base class is added to C<@ISA> for you, and all constants from base classes are added to subclasses automatically. =head1 SOURCE The source code repository for HashBase can be found at F. =head1 MAINTAINERS =over 4 =item Chad Granum Eexodist@cpan.orgE =back =head1 AUTHORS =over 4 =item Chad Granum Eexodist@cpan.orgE =back =head1 COPYRIGHT Copyright 2016 Chad Granum Eexodist@cpan.orgE. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. See F =cut