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Edit File: Library.pm
package Type::Library; use 5.006001; use strict; use warnings; BEGIN { $Type::Library::AUTHORITY = 'cpan:TOBYINK'; $Type::Library::VERSION = '1.012004'; } $Type::Library::VERSION =~ tr/_//d; use Eval::TypeTiny qw< eval_closure >; use Scalar::Util qw< blessed refaddr >; use Type::Tiny (); use Types::TypeTiny (); require Exporter::Tiny; our @ISA = 'Exporter::Tiny'; BEGIN { *NICE_PROTOTYPES = ( $] >= 5.014 ) ? sub () { !!1 } : sub () { !!0 } } sub _croak ($;@) { require Error::TypeTiny; goto \&Error::TypeTiny::croak } { my $subname; my %already; # prevent renaming established functions sub _subname ($$) { $subname = eval { require Sub::Util } ? \&Sub::Util::set_subname : eval { require Sub::Name } ? \&Sub::Name::subname : 0 if not defined $subname; !$already{ refaddr( $_[1] ) }++ and return ( $subname->( @_ ) ) if $subname; return $_[1]; } #/ sub _subname ($$) } sub _exporter_validate_opts { my $class = shift; my $into = $_[0]{into}; if ( $_[0]{base} || $_[0]{extends} and !ref $into ) { no strict "refs"; push @{"$into\::ISA"}, $class; ( my $file = $into ) =~ s{::}{/}g; $INC{"$file.pm"} ||= __FILE__; } if ( $_[0]{utils} ) { require Type::Utils; 'Type::Utils'->import( { into => $into }, '-default' ); } if ( $_[0]{extends} and !ref $into ) { require Type::Utils; my $wrapper = eval "sub { package $into; &Type::Utils::extends; }"; my @libs = @{ ref( $_[0]{extends} ) ? $_[0]{extends} : ( $_[0]{extends} ? [ $_[0]{extends} ] : [] ) }; $wrapper->( @libs ); } #/ if ( $_[0]{extends} and...) return $class->SUPER::_exporter_validate_opts( @_ ); } #/ sub _exporter_validate_opts sub _exporter_expand_tag { my $class = shift; my ( $name, $value, $globals ) = @_; $name eq 'types' and return map [ "$_" => $value ], $class->type_names; $name eq 'is' and return map [ "is_$_" => $value ], $class->type_names; $name eq 'assert' and return map [ "assert_$_" => $value ], $class->type_names; $name eq 'to' and return map [ "to_$_" => $value ], $class->type_names; $name eq 'coercions' and return map [ "$_" => $value ], $class->coercion_names; if ( $name eq 'all' ) { no strict "refs"; return ( map( [ "+$_" => $value ], $class->type_names, ), map( [ $_ => $value ], $class->coercion_names, @{"$class\::EXPORT"}, @{"$class\::EXPORT_OK"}, ), ); } #/ if ( $name eq 'all' ) return $class->SUPER::_exporter_expand_tag( @_ ); } #/ sub _exporter_expand_tag sub _mksub { my $class = shift; my ( $type, $post_method ) = @_; $post_method ||= q(); #<<< my $source = $type->is_parameterizable ? sprintf( q{ sub (%s) { if (ref($_[0]) eq 'Type::Tiny::_HalfOp') { my $complete_type = shift->complete($type); @_ && wantarray ? return($complete_type, @_) : return $complete_type; } my $params; $params = shift if ref($_[0]) eq q(ARRAY); my $t = $params ? $type->parameterize(@$params) : $type; @_ && wantarray ? return($t%s, @_) : return $t%s; } }, NICE_PROTOTYPES ? q(;$) : q(;@), $post_method, $post_method, ) : sprintf( q{ sub () { $type%s if $] } }, $post_method, ); #>>> return _subname( $type->qualified_name, eval_closure( source => $source, description => sprintf( "exportable function '%s::%s'", $class, $type ), environment => { '$type' => \$type }, ), ); } #/ sub _mksub sub _exporter_permitted_regexp { my $class = shift; my $inherited = $class->SUPER::_exporter_permitted_regexp( @_ ); my $types = join "|", map quotemeta, sort { length( $b ) <=> length( $a ) or $a cmp $b } $class->type_names; my $coercions = join "|", map quotemeta, sort { length( $b ) <=> length( $a ) or $a cmp $b } $class->coercion_names; qr{^(?: $inherited | (?: (?:is_|to_|assert_)? (?:$types) ) | (?:$coercions) )$}xms; } #/ sub _exporter_permitted_regexp sub _exporter_expand_sub { my $class = shift; my ( $name, $value, $globals ) = @_; if ( $name =~ /^\+(.+)/ and $class->has_type( $1 ) ) { my $type = $1; my $value2 = +{ %{ $value || {} } }; return map $class->_exporter_expand_sub( $_, $value2, $globals ), $type, "is_$type", "assert_$type", "to_$type"; } my $typename = $name; my $thingy = undef; if ( $name =~ /^(is|assert|to)_(.+)$/ ) { $thingy = $1; $typename = $2; } if ( my $type = $class->get_type( $typename ) ) { my $custom_type = 0; for my $param ( qw/ of where / ) { exists $value->{$param} or next; defined $value->{-as} or _croak( "Parameter '-as' not supplied" ); $type = $type->$param( $value->{$param} ); $name = $value->{-as}; ++$custom_type; } if ( !defined $thingy ) { my $post_method = q(); $post_method = '->mouse_type' if $globals->{mouse}; $post_method = '->moose_type' if $globals->{moose}; return ( $name => $class->_mksub( $type, $post_method ) ) if $post_method || $custom_type; } elsif ( $thingy eq 'is' ) { return ( $value->{-as} || "is_$typename" => $type->compiled_check ) if $custom_type; } elsif ( $thingy eq 'assert' ) { return ( $value->{-as} || "assert_$typename" => $type->_overload_coderef ) if $custom_type; } elsif ( $thingy eq 'to' ) { my $to_type = $type->has_coercion && $type->coercion->frozen ? $type->coercion->compiled_coercion : sub ($) { $type->coerce( $_[0] ) }; return ( $value->{-as} || "to_$typename" => $to_type ) if $custom_type; } } #/ if ( my $type = $class...) return $class->SUPER::_exporter_expand_sub( @_ ); } #/ sub _exporter_expand_sub sub _exporter_install_sub { my $class = shift; my ( $name, $value, $globals, $sym ) = @_; my $package = $globals->{into}; my $type = $class->get_type( $name ); Exporter::Tiny::_carp( "Exporting deprecated type %s to %s", $type->qualified_name, ref( $package ) ? "reference" : "package $package", ) if ( defined $type and $type->deprecated and not $globals->{allow_deprecated} ); if ( !ref $package and defined $type ) { my ( $prefix ) = grep defined, $value->{-prefix}, $globals->{prefix}, q(); my ( $suffix ) = grep defined, $value->{-suffix}, $globals->{suffix}, q(); my $as = $prefix . ( $value->{-as} || $name ) . $suffix; $INC{'Type/Registry.pm'} ? 'Type::Registry'->for_class( $package )->add_type( $type, $as ) : ( $Type::Registry::DELAYED{$package}{$as} = $type ); } $class->SUPER::_exporter_install_sub( @_ ); } #/ sub _exporter_install_sub sub _exporter_fail { my $class = shift; my ( $name, $value, $globals ) = @_; my $into = $globals->{into} or _croak( "Parameter 'into' not supplied" ); if ( $globals->{declare} ) { my $declared = sub (;$) { my $params; $params = shift if ref( $_[0] ) eq "ARRAY"; my $type = $into->get_type( $name ); my $t; if ( $type ) { $t = $params ? $type->parameterize( @$params ) : $type; } else { _croak "Cannot parameterize a non-existant type" if $params; $t = Type::Tiny::_DeclaredType->new( library => $into, name => $name ); } @_ && wantarray ? return ( $t, @_ ) : return $t; }; return ( $name, _subname( "$class\::$name", NICE_PROTOTYPES ? sub (;$) { goto $declared } : sub (;@) { goto $declared }, ), ); } #/ if ( $globals->{declare...}) return $class->SUPER::_exporter_fail( @_ ); } #/ sub _exporter_fail { package Type::Tiny::_DeclaredType; our @ISA = 'Type::Tiny'; sub new { my $class = shift; my %opts = @_ == 1 ? %{ +shift } : @_; my $library = delete $opts{library}; my $name = delete $opts{name}; $opts{display_name} = $name; $opts{constraint} = sub { my $val = @_ ? pop : $_; $library->get_type( $name )->check( $val ); }; $opts{inlined} = sub { my $val = @_ ? pop : $_; sprintf( '%s::is_%s(%s)', $library, $name, $val ); }; $opts{_build_coercion} = sub { my $realtype = $library->get_type( $name ); $_[0] = $realtype->coercion if $realtype; }; $class->SUPER::new( %opts ); } #/ sub new } sub meta { no strict "refs"; no warnings "once"; return $_[0] if blessed $_[0]; ${"$_[0]\::META"} ||= bless {}, $_[0]; } sub add_type { my $meta = shift->meta; my $class = blessed( $meta ); my $type = ref( $_[0] ) =~ /^Type::Tiny\b/ ? $_[0] : blessed( $_[0] ) ? Types::TypeTiny::to_TypeTiny( $_[0] ) : ref( $_[0] ) eq q(HASH) ? 'Type::Tiny'->new( library => $class, %{ $_[0] } ) : "Type::Tiny"->new( library => $class, @_ ); my $name = $type->{name}; $meta->{types} ||= {}; _croak 'Type %s already exists in this library', $name if $meta->has_type( $name ); _croak 'Type %s conflicts with coercion of same name', $name if $meta->has_coercion( $name ); _croak 'Cannot add anonymous type to a library' if $type->is_anon; $meta->{types}{$name} = $type; no strict "refs"; no warnings "redefine", "prototype"; my $to_type = $type->has_coercion && $type->coercion->frozen ? $type->coercion->compiled_coercion : sub ($) { $type->coerce( $_[0] ) }; *{"$class\::$name"} = $class->_mksub( $type ); *{"$class\::is_$name"} = _subname "$class\::is_$name", $type->compiled_check; *{"$class\::to_$name"} = _subname "$class\::to_$name", $to_type; *{"$class\::assert_$name"} = _subname "$class\::assert_$name", $type->_overload_coderef; return $type; } #/ sub add_type sub get_type { my $meta = shift->meta; $meta->{types}{ $_[0] }; } sub has_type { my $meta = shift->meta; exists $meta->{types}{ $_[0] }; } sub type_names { my $meta = shift->meta; keys %{ $meta->{types} }; } sub add_coercion { require Type::Coercion; my $meta = shift->meta; my $c = blessed( $_[0] ) ? $_[0] : "Type::Coercion"->new( @_ ); my $name = $c->name; $meta->{coercions} ||= {}; _croak 'Coercion %s already exists in this library', $name if $meta->has_coercion( $name ); _croak 'Coercion %s conflicts with type of same name', $name if $meta->has_type( $name ); _croak 'Cannot add anonymous type to a library' if $c->is_anon; $meta->{coercions}{$name} = $c; no strict "refs"; no warnings "redefine", "prototype"; my $class = blessed( $meta ); *{"$class\::$name"} = $class->_mksub( $c ); return $c; } #/ sub add_coercion sub get_coercion { my $meta = shift->meta; $meta->{coercions}{ $_[0] }; } sub has_coercion { my $meta = shift->meta; exists $meta->{coercions}{ $_[0] }; } sub coercion_names { my $meta = shift->meta; keys %{ $meta->{coercions} }; } sub make_immutable { my $meta = shift->meta; my $class = ref( $meta ); for my $type ( values %{ $meta->{types} } ) { $type->coercion->freeze; no strict "refs"; no warnings "redefine", "prototype"; my $to_type = $type->has_coercion && $type->coercion->frozen ? $type->coercion->compiled_coercion : sub ($) { $type->coerce( $_[0] ) }; my $name = $type->name; *{"$class\::to_$name"} = _subname "$class\::to_$name", $to_type; } #/ for my $type ( values %...) 1; } #/ sub make_immutable 1; __END__ =pod =encoding utf-8 =for stopwords Moo(se)-compatible MooseX::Types-like =head1 NAME Type::Library - tiny, yet Moo(se)-compatible type libraries =head1 SYNOPSIS =for test_synopsis BEGIN { die "SKIP: crams multiple modules into single example" }; package Types::Mine { use Scalar::Util qw(looks_like_number); use Type::Library -base; use Type::Tiny; my $NUM = "Type::Tiny"->new( name => "Number", constraint => sub { looks_like_number($_) }, message => sub { "$_ ain't a number" }, ); __PACKAGE__->meta->add_type($NUM); __PACKAGE__->meta->make_immutable; } package Ermintrude { use Moo; use Types::Mine qw(Number); has favourite_number => (is => "ro", isa => Number); } package Bullwinkle { use Moose; use Types::Mine qw(Number); has favourite_number => (is => "ro", isa => Number); } package Maisy { use Mouse; use Types::Mine qw(Number); has favourite_number => (is => "ro", isa => Number); } =head1 STATUS This module is covered by the L<Type-Tiny stability policy|Type::Tiny::Manual::Policies/"STABILITY">. =head1 DESCRIPTION L<Type::Library> is a tiny class for creating MooseX::Types-like type libraries which are compatible with Moo, Moose and Mouse. If you're reading this because you want to create a type library, then you're probably better off reading L<Type::Tiny::Manual::Libraries>. =head2 Methods A type library is a singleton class. Use the C<meta> method to get a blessed object which other methods can get called on. For example: Types::Mine->meta->add_type($foo); =begin trustme =item meta =end trustme =over =item C<< add_type($type) >> or C<< add_type(%opts) >> Add a type to the library. If C<< %opts >> is given, then this method calls C<< Type::Tiny->new(%opts) >> first, and adds the resultant type. Adding a type named "Foo" to the library will automatically define four functions in the library's namespace: =over =item C<< Foo >> Returns the Type::Tiny object. =item C<< is_Foo($value) >> Returns true iff $value passes the type constraint. =item C<< assert_Foo($value) >> Returns $value iff $value passes the type constraint. Dies otherwise. =item C<< to_Foo($value) >> Coerces the value to the type. =back =item C<< get_type($name) >> Gets the C<Type::Tiny> object corresponding to the name. =item C<< has_type($name) >> Boolean; returns true if the type exists in the library. =item C<< type_names >> List all types defined by the library. =item C<< add_coercion($c) >> or C<< add_coercion(%opts) >> Add a standalone coercion to the library. If C<< %opts >> is given, then this method calls C<< Type::Coercion->new(%opts) >> first, and adds the resultant coercion. Adding a coercion named "FooFromBar" to the library will automatically define a function in the library's namespace: =over =item C<< FooFromBar >> Returns the Type::Coercion object. =back =item C<< get_coercion($name) >> Gets the C<Type::Coercion> object corresponding to the name. =item C<< has_coercion($name) >> Boolean; returns true if the coercion exists in the library. =item C<< coercion_names >> List all standalone coercions defined by the library. =item C<< import(@args) >> Type::Library-based libraries are exporters. =item C<< make_immutable >> A shortcut for calling C<< $type->coercion->freeze >> on every type constraint in the library. =back =head2 Constants =over =item C<< NICE_PROTOTYPES >> If this is true, then Type::Library will give parameterizable type constraints slightly the nicer prototype of C<< (;$) >> instead of the default C<< (;@) >>. This allows constructs like: ArrayRef[Int] | HashRef[Int] ... to "just work". =back =head2 Export Type libraries are exporters. For the purposes of the following examples, assume that the C<Types::Mine> library defines types C<Number> and C<String>. # Exports nothing. # use Types::Mine; # Exports a function "String" which is a constant returning # the String type constraint. # use Types::Mine qw( String ); # Exports both String and Number as above. # use Types::Mine qw( String Number ); # Same. # use Types::Mine qw( :types ); # Exports "coerce_String" and "coerce_Number", as well as any other # coercions # use Types::Mine qw( :coercions ); # Exports a sub "is_String" so that "is_String($foo)" is equivalent # to "String->check($foo)". # use Types::Mine qw( is_String ); # Exports "is_String" and "is_Number". # use Types::Mine qw( :is ); # Exports a sub "assert_String" so that "assert_String($foo)" is # equivalent to "String->assert_return($foo)". # use Types::Mine qw( assert_String ); # Exports "assert_String" and "assert_Number". # use Types::Mine qw( :assert ); # Exports a sub "to_String" so that "to_String($foo)" is equivalent # to "String->coerce($foo)". # use Types::Mine qw( to_String ); # Exports "to_String" and "to_Number". # use Types::Mine qw( :to ); # Exports "String", "is_String", "assert_String" and "coerce_String". # use Types::Mine qw( +String ); # Exports everything. # use Types::Mine qw( :all ); Type libraries automatically inherit from L<Exporter::Tiny>; see the documentation of that module for tips and tricks importing from libraries. =head1 BUGS Please report any bugs to L<https://github.com/tobyink/p5-type-tiny/issues>. =head1 SEE ALSO L<Type::Tiny::Manual>. L<Type::Tiny>, L<Type::Utils>, L<Types::Standard>, L<Type::Coercion>. L<Moose::Util::TypeConstraints>, L<Mouse::Util::TypeConstraints>. =head1 AUTHOR Toby Inkster E<lt>tobyink@cpan.orgE<gt>. =head1 COPYRIGHT AND LICENCE This software is copyright (c) 2013-2014, 2017-2021 by Toby Inkster. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =head1 DISCLAIMER OF WARRANTIES THIS PACKAGE IS PROVIDED "AS IS" AND WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.