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use 5.006; use strict; no strict 'refs'; use warnings; package Class::Tiny; # ABSTRACT: Minimalist class construction our $VERSION = '1.008'; use Carp (); # load as .pm to hide from min version scanners require( $] >= 5.010 ? "mro.pm" : "MRO/Compat.pm" ); ## no critic: my %CLASS_ATTRIBUTES; sub import { my $class = shift; my $pkg = caller; $class->prepare_class($pkg); $class->create_attributes( $pkg, @_ ) if @_; } sub prepare_class { my ( $class, $pkg ) = @_; @{"${pkg}::ISA"} = "Class::Tiny::Object" unless @{"${pkg}::ISA"}; } # adapted from Object::Tiny and Object::Tiny::RW sub create_attributes { my ( $class, $pkg, @spec ) = @_; my %defaults = map { ref $_ eq 'HASH' ? %$_ : ( $_ => undef ) } @spec; my @attr = grep { defined and !ref and /^[^\W\d]\w*$/s or Carp::croak "Invalid accessor name '$_'" } keys %defaults; $CLASS_ATTRIBUTES{$pkg}{$_} = $defaults{$_} for @attr; $class->_gen_accessor( $pkg, $_ ) for grep { !*{"$pkg\::$_"}{CODE} } @attr; Carp::croak("Failed to generate attributes for $pkg: $@\n") if $@; } sub _gen_accessor { my ( $class, $pkg, $name ) = @_; my $outer_default = $CLASS_ATTRIBUTES{$pkg}{$name}; my $sub = $class->__gen_sub_body( $name, defined($outer_default), ref($outer_default) ); # default = outer_default avoids "won't stay shared" bug eval "package $pkg; my \$default=\$outer_default; $sub"; ## no critic Carp::croak("Failed to generate attributes for $pkg: $@\n") if $@; } # NOTE: overriding __gen_sub_body in a subclass of Class::Tiny is risky and # could break if the internals of Class::Tiny need to change for any # reason. That said, I currently see no reason why this would be likely to # change. # # The generated sub body should assume that a '$default' variable will be # in scope (i.e. when the sub is evaluated) with any default value/coderef sub __gen_sub_body { my ( $self, $name, $has_default, $default_type ) = @_; if ( $has_default && $default_type eq 'CODE' ) { return << "HERE"; sub $name { return ( ( \@_ == 1 && exists \$_[0]{$name} ) ? ( \$_[0]{$name} ) : ( \$_[0]{$name} = ( \@_ == 2 ) ? \$_[1] : \$default->( \$_[0] ) ) ); } HERE } elsif ($has_default) { return << "HERE"; sub $name { return ( ( \@_ == 1 && exists \$_[0]{$name} ) ? ( \$_[0]{$name} ) : ( \$_[0]{$name} = ( \@_ == 2 ) ? \$_[1] : \$default ) ); } HERE } else { return << "HERE"; sub $name { return \@_ == 1 ? \$_[0]{$name} : ( \$_[0]{$name} = \$_[1] ); } HERE } } sub get_all_attributes_for { my ( $class, $pkg ) = @_; my %attr = map { $_ => undef } map { keys %{ $CLASS_ATTRIBUTES{$_} || {} } } @{ mro::get_linear_isa($pkg) }; return keys %attr; } sub get_all_attribute_defaults_for { my ( $class, $pkg ) = @_; my $defaults = {}; for my $p ( reverse @{ mro::get_linear_isa($pkg) } ) { while ( my ( $k, $v ) = each %{ $CLASS_ATTRIBUTES{$p} || {} } ) { $defaults->{$k} = $v; } } return $defaults; } package Class::Tiny::Object; # ABSTRACT: Base class for classes built with Class::Tiny our $VERSION = '1.008'; my ( %HAS_BUILDARGS, %BUILD_CACHE, %DEMOLISH_CACHE, %ATTR_CACHE ); my $_PRECACHE = sub { no warnings 'once'; # needed to avoid downstream warnings my ($class) = @_; my $linear_isa = @{"$class\::ISA"} == 1 && ${"$class\::ISA"}[0] eq "Class::Tiny::Object" ? [$class] : mro::get_linear_isa($class); $DEMOLISH_CACHE{$class} = [ map { ( *{$_}{CODE} ) ? ( *{$_}{CODE} ) : () } map { "$_\::DEMOLISH" } @$linear_isa ]; $BUILD_CACHE{$class} = [ map { ( *{$_}{CODE} ) ? ( *{$_}{CODE} ) : () } map { "$_\::BUILD" } reverse @$linear_isa ]; $HAS_BUILDARGS{$class} = $class->can("BUILDARGS"); return $ATTR_CACHE{$class} = { map { $_ => 1 } Class::Tiny->get_all_attributes_for($class) }; }; sub new { my $class = shift; my $valid_attrs = $ATTR_CACHE{$class} || $_PRECACHE->($class); # handle hash ref or key/value arguments my $args; if ( $HAS_BUILDARGS{$class} ) { $args = $class->BUILDARGS(@_); } else { if ( @_ == 1 && ref $_[0] ) { my %copy = eval { %{ $_[0] } }; # try shallow copy Carp::croak("Argument to $class->new() could not be dereferenced as a hash") if $@; $args = \%copy; } elsif ( @_ % 2 == 0 ) { $args = {@_}; } else { Carp::croak("$class->new() got an odd number of elements"); } } # create object and invoke BUILD (unless we were given __no_BUILD__) my $self = bless { map { $_ => $args->{$_} } grep { exists $valid_attrs->{$_} } keys %$args }, $class; $self->BUILDALL($args) if !delete $args->{__no_BUILD__} && @{ $BUILD_CACHE{$class} }; return $self; } sub BUILDALL { $_->(@_) for @{ $BUILD_CACHE{ ref $_[0] } } } # Adapted from Moo and its dependencies require Devel::GlobalDestruction unless defined ${^GLOBAL_PHASE}; sub DESTROY { my $self = shift; my $class = ref $self; my $in_global_destruction = defined ${^GLOBAL_PHASE} ? ${^GLOBAL_PHASE} eq 'DESTRUCT' : Devel::GlobalDestruction::in_global_destruction(); for my $demolisher ( @{ $DEMOLISH_CACHE{$class} } ) { my $e = do { local ( $?, $@ ); eval { $demolisher->( $self, $in_global_destruction ) }; $@; }; no warnings 'misc'; # avoid (in cleanup) warnings die $e if $e; # rethrow } } 1; # vim: ts=4 sts=4 sw=4 et: __END__ =pod =encoding UTF-8 =head1 NAME Class::Tiny - Minimalist class construction =head1 VERSION version 1.008 =head1 SYNOPSIS In F<Person.pm>: package Person; use Class::Tiny qw( name ); 1; In F<Employee.pm>: package Employee; use parent 'Person'; use Class::Tiny qw( ssn ), { timestamp => sub { time } # attribute with default }; 1; In F<example.pl>: use Employee; my $obj = Employee->new( name => "Larry", ssn => "111-22-3333" ); # unknown attributes are ignored my $obj = Employee->new( name => "Larry", OS => "Linux" ); # $obj->{OS} does not exist =head1 DESCRIPTION This module offers a minimalist class construction kit in around 120 lines of code. Here is a list of features: =over 4 =item * defines attributes via import arguments =item * generates read-write accessors =item * supports lazy attribute defaults =item * supports custom accessors =item * superclass provides a standard C<new> constructor =item * C<new> takes a hash reference or list of key/value pairs =item * C<new> supports providing C<BUILDARGS> to customize constructor options =item * C<new> calls C<BUILD> for each class from parent to child =item * superclass provides a C<DESTROY> method =item * C<DESTROY> calls C<DEMOLISH> for each class from child to parent =back Multiple-inheritance is possible, with superclass order determined via L<mro::get_linear_isa|mro/Functions>. It uses no non-core modules for any recent Perl. On Perls older than v5.10 it requires L<MRO::Compat>. On Perls older than v5.14, it requires L<Devel::GlobalDestruction>. =head1 USAGE =head2 Defining attributes Define attributes as a list of import arguments: package Foo::Bar; use Class::Tiny qw( name id height weight ); For each attribute, a read-write accessor is created unless a subroutine of that name already exists: $obj->name; # getter $obj->name( "John Doe" ); # setter Attribute names must be valid subroutine identifiers or an exception will be thrown. You can specify lazy defaults by defining attributes with a hash reference. Keys define attribute names and values are constants or code references that will be evaluated when the attribute is first accessed if no value has been set. The object is passed as an argument to a code reference. package Foo::WithDefaults; use Class::Tiny qw/name id/, { title => 'Peon', skills => sub { [] }, hire_date => sub { $_[0]->_build_hire_date }, }; When subclassing, if multiple accessors of the same name exist in different classes, any default (or lack of default) is determined by standard method resolution order. To make your own custom accessors, just pre-declare the method name before loading Class::Tiny: package Foo::Bar; use subs 'id'; use Class::Tiny qw( name id ); sub id { ... } Even if you pre-declare a method name, you must include it in the attribute list for Class::Tiny to register it as a valid attribute. If you set a default for a custom accessor, your accessor will need to retrieve the default and do something with it: package Foo::Bar; use subs 'id'; use Class::Tiny qw( name ), { id => sub { int(rand(2*31)) } }; sub id { my $self = shift; if (@_) { return $self->{id} = shift; } elsif ( exists $self->{id} ) { return $self->{id}; } else { my $defaults = Class::Tiny->get_all_attribute_defaults_for( ref $self ); return $self->{id} = $defaults->{id}->(); } } =head2 Class::Tiny::Object is your base class If your class B<does not> already inherit from some class, then Class::Tiny::Object will be added to your C<@ISA> to provide C<new> and C<DESTROY>. If your class B<does> inherit from something, then no additional inheritance is set up. If the parent subclasses Class::Tiny::Object, then all is well. If not, then you'll get accessors set up but no constructor or destructor. Don't do that unless you really have a special need for it. Define subclasses as normal. It's best to define them with L<base>, L<parent> or L<superclass> before defining attributes with Class::Tiny so the C<@ISA> array is already populated at compile-time: package Foo::Bar::More; use parent 'Foo::Bar'; use Class::Tiny qw( shoe_size ); =head2 Object construction If your class inherits from Class::Tiny::Object (as it should if you followed the advice above), it provides the C<new> constructor for you. Objects can be created with attributes given as a hash reference or as a list of key/value pairs: $obj = Foo::Bar->new( name => "David" ); $obj = Foo::Bar->new( { name => "David" } ); If a reference is passed as a single argument, it must be able to be dereferenced as a hash or an exception is thrown. Unknown attributes in the constructor arguments will be ignored. Prior to version 1.000, unknown attributes were an error, but this made it harder for people to cleanly subclass Class::Tiny classes so this feature was removed. You can define a C<BUILDARGS> method to change how arguments to new are handled. It will receive the constructor arguments as they were provided and must return a hash reference of key/value pairs (or else throw an exception). sub BUILDARGS { my $class = shift; my $name = shift || "John Doe"; return { name => $name }; }; Foo::Bar->new( "David" ); Foo::Bar->new(); # "John Doe" Unknown attributes returned from C<BUILDARGS> will be ignored. =head2 BUILD If your class or any superclass defines a C<BUILD> method, it will be called by the constructor from the furthest parent class down to the child class after the object has been created. It is passed the constructor arguments as a hash reference. The return value is ignored. Use C<BUILD> for validation, checking required attributes or setting default values that depend on other attributes. sub BUILD { my ($self, $args) = @_; for my $req ( qw/name age/ ) { croak "$req attribute required" unless defined $self->$req; } croak "Age must be non-negative" if $self->age < 0; $self->msg( "Hello " . $self->name ); } The argument reference is a copy, so deleting elements won't affect data in the original (but changes will be passed to other BUILD methods in C<@ISA>). =head2 DEMOLISH Class::Tiny provides a C<DESTROY> method. If your class or any superclass defines a C<DEMOLISH> method, they will be called from the child class to the furthest parent class during object destruction. It is provided a single boolean argument indicating whether Perl is in global destruction. Return values are ignored. Errors are caught and rethrown. sub DEMOLISH { my ($self, $global_destruct) = @_; $self->cleanup(); } =head2 Introspection and internals You can retrieve an unsorted list of valid attributes known to Class::Tiny for a class and its superclasses with the C<get_all_attributes_for> class method. my @attrs = Class::Tiny->get_all_attributes_for("Employee"); # returns qw/name ssn timestamp/ Likewise, a hash reference of all valid attributes and default values (or code references) may be retrieved with the C<get_all_attribute_defaults_for> class method. Any attributes without a default will be C<undef>. my $def = Class::Tiny->get_all_attribute_defaults_for("Employee"); # returns { # name => undef, # ssn => undef # timestamp => $coderef # } The C<import> method uses two class methods, C<prepare_class> and C<create_attributes> to set up the C<@ISA> array and attributes. Anyone attempting to extend Class::Tiny itself should use these instead of mocking up a call to C<import>. When the first object is created, linearized C<@ISA>, the valid attribute list and various subroutine references are cached for speed. Ensure that all inheritance and methods are in place before creating objects. (You don't want to be changing that once you create objects anyway, right?) =for Pod::Coverage new get_all_attributes_for get_all_attribute_defaults_for prepare_class create_attributes =head1 RATIONALE =head2 Why this instead of Object::Tiny or Class::Accessor or something else? I wanted something so simple that it could potentially be used by core Perl modules I help maintain (or hope to write), most of which either use L<Class::Struct> or roll-their-own OO framework each time. L<Object::Tiny> and L<Object::Tiny::RW> were close to what I wanted, but lacking some features I deemed necessary, and their maintainers have an even more strict philosophy against feature creep than I have. I also considered L<Class::Accessor>, which has been around a long time and is heavily used, but it, too, lacked features I wanted and did things in ways I considered poor design. I looked for something else on CPAN, but after checking a dozen class creators I realized I could implement exactly what I wanted faster than I could search CPAN for something merely sufficient. In general, compared to most things on CPAN (other than Object::Tiny), Class::Tiny is smaller in implementation and simpler in API. Specifically, here is how Class::Tiny ("C::T") compares to Object::Tiny ("O::T") and Class::Accessor ("C::A"): FEATURE C::T O::T C::A -------------------------------------------------------------- attributes defined via import yes yes no read/write accessors yes no yes lazy attribute defaults yes no no provides new yes yes yes provides DESTROY yes no no new takes either hashref or list yes no (list) no (hash) Moo(se)-like BUILD/DEMOLISH yes no no Moo(se)-like BUILDARGS yes no no no extraneous methods via @ISA yes yes no =head2 Why this instead of Moose or Moo? L<Moose> and L<Moo> are both excellent OO frameworks. Moose offers a powerful meta-object protocol (MOP), but is slow to start up and has about 30 non-core dependencies including XS modules. Moo is faster to start up and has about 10 pure Perl dependencies but provides no true MOP, relying instead on its ability to transparently upgrade Moo to Moose when Moose's full feature set is required. By contrast, Class::Tiny has no MOP and has B<zero> non-core dependencies for Perls in the L<support window|perlpolicy>. It has far less code, less complexity and no learning curve. If you don't need or can't afford what Moo or Moose offer, this is intended to be a reasonable fallback. That said, Class::Tiny offers Moose-like conventions for things like C<BUILD> and C<DEMOLISH> for some minimal interoperability and an easier upgrade path. =head1 AUTHOR David Golden <dagolden@cpan.org> =head1 CONTRIBUTORS =for stopwords Dagfinn Ilmari Mannsåker David Golden Gelu Lupas Karen Etheridge Matt S Trout Olivier Mengué Toby Inkster =over 4 =item * Dagfinn Ilmari Mannsåker <ilmari@ilmari.org> =item * David Golden <xdg@xdg.me> =item * Gelu Lupas <gelu@devnull.ro> =item * Karen Etheridge <ether@cpan.org> =item * Matt S Trout <mstrout@cpan.org> =item * Olivier Mengué <dolmen@cpan.org> =item * Toby Inkster <tobyink@cpan.org> =back =head1 COPYRIGHT AND LICENSE This software is Copyright (c) 2013 by David Golden. This is free software, licensed under: The Apache License, Version 2.0, January 2004 =cut