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Type::Tiny::Manual::Libraries(3User Contributed Perl DocumentatType::Tiny::Manual::Libraries(3pm)

NAME
       Type::Tiny::Manual::Libraries - defining your own type libraries

MANUAL
   Defining a Type
       A type is an object and you can create a new one using the constructor:

         use Type::Tiny;

         my $type = Type::Tiny->new(%args);

       A full list of the available arguments can be found in the Type::Tiny documentation, but
       the most important ones to begin with are:

       "name"
           The name of your new type. Type::Tiny uses a convention of UpperCamelCase names for
           type constraints. The type name may also begin with one or two leading underscores to
           indicate a type intended for internal use only.  Types using non-ASCII characters may
           cause problems on older versions of Perl (pre-5.8).

           Although this is optional and types may be anonymous, a name is required for a type
           constraint to added to a type library.

       "constraint"
           A code reference checking $_ and returning a boolean. Alternatively, a string of Perl
           code may be provided.

           If you've been paying attention, you can probably guess that the string of Perl code
           may result in more efficient type checks.

       "parent"
           An existing type constraint to inherit from. A value will need to pass the parent
           constraint before its own constraint would be called.

             my $Even = Type::Tiny->new(
               name       => 'EvenNumber',
               parent     => Types::Standard::Int,
               constraint => sub {
                 # in this sub we don't need to check that $_ is an Int
                 # because the parent will take care of that!

                 $_ % 2 == 0
               },
             );

           Although the "parent" is optional, it makes sense whenever possible to inherit from an
           existing type constraint to benefit from any optimizations or XS implementations they
           may provide.

   Defining a Library
       A library is a Perl module that exports type constraints as subs.  Types::Standard,
       Types::Common::Numeric, and Types::Common::String are type libraries that are bundled with
       Type::Tiny.

       To create a type library, create a package that inherits from Type::Library.

         package MyTypes {
           use Type::Library -base;

           ...; # your type definitions go here
         }

       The "-base" flag is just a shortcut for:

         package MyTypes {
           use Type::Library;
           our @ISA = 'Type::Library';
         }

       You can add types like this:

         package MyTypes {
           use Type::Library -base;

           my $Even = Type::Tiny->new(
             name       => 'EvenNumber',
             parent     => Types::Standard::Int,
             constraint => sub {
               # in this sub we don't need to check that $_ is an Int
               # because the parent will take care of that!

               $_ % 2 == 0
             },
           );

           __PACKAGE__->add_type($Even);
         }

       There is a shortcut for adding types if they're going to be blessed Type::Tiny objects and
       not, for example, a subclass of Type::Tiny.  You can just pass %args directly to
       "add_type".

         package MyTypes {
           use Type::Library -base;

           __PACKAGE__->add_type(
             name       => 'EvenNumber',
             parent     => Types::Standard::Int,
             constraint => sub {
               # in this sub we don't need to check that $_ is an Int
               # because the parent will take care of that!

               $_ % 2 == 0
             },
           );
         }

       The "add_type" method returns the type it just added, so it can be stored in a variable.

         my $Even = __PACKAGE__->add_type(...);

       This can be useful if you wish to use $Even as the parent type to some other type you're
       going to define later.

       Here's a bigger worked example:

         package Example::Types {
           use Type::Library -base;
           use Types::Standard -types;
           use DateTime;

           # Type::Tiny::Class is a subclass of Type::Tiny for creating
           # InstanceOf-like types. It's kind of better though because
           # it does cool stuff like pass through $type->new(%args) to
           # the class's constructor.
           #
           my $dt = __PACKAGE__->add_type(
             Type::Tiny::Class->new(
               name    => 'Datetime',
               class   => 'DateTime',
             )
           );

           my $dth = __PACKAGE__->add_type(
             name    => 'DatetimeHash',
             parent  => Dict[
               year       => Int,
               month      => Optional[ Int ],
               day        => Optional[ Int ],
               hour       => Optional[ Int ],
               minute     => Optional[ Int ],
               second     => Optional[ Int ],
               nanosecond => Optional[ Int ],
               time_zone  => Optional[ Str ],
             ],
           );

           my $eph = __PACKAGE__->add_type(
             name    => 'EpochHash',
             parent  => Dict[ epoch => Int ],
           );

           # Can't just use "plus_coercions" method because that creates
           # a new anonymous child type to add the coercions to. We want
           # to add them to the type which exists in this library.
           #
           $dt->coercion->add_type_coercions(
             Int,    q{ DateTime->from_epoch(epoch => $_) },
             Undef,  q{ DateTime->now() },
             $dth,   q{ DateTime->new(%$_) },
             $eph,   q{ DateTime->from_epoch(%$_) },
           );

           __PACKAGE__->make_immutable;
         }

       "make_immutable" freezes to coercions of all the types in the package, so no outside code
       can tamper with the coercions, and allows Type::Tiny to make optimizations to the
       coercions, knowing they won't later be altered. You should always do this at the end.

       The library will export types Datetime, DatetimeHash, and EpochHash. The Datetime type
       will have coercions from Int, Undef, DatetimeHash, and EpochHash.

   Extending Libraries
       Type::Utils provides a helpful function "extends".

         package My::Types {
           use Type::Library -base;
           use Type::Utils qw( extends );

           BEGIN { extends("Types::Standard") };

           # define your own types here
         }

       The "extends" function (which you should usually use in a "BEGIN { }" block not only loads
       another type library, but it also adds all the types from it to your library.

       This means code using the above My::Types doesn't need to do:

         use Types::Standard qw( Str );
         use My::Types qw( Something );

       It can just do:

         use My::Types qw( Str Something );

       Because all the types from Types::Standard have been copied across into My::Types and are
       also available there.

       "extends" can be passed a list of libraries; you can inherit from multiple existing
       libraries. It can also recognize and import types from MooseX::Types, MouseX::Types, and
       Specio::Exporter libraries.

       Since Type::Library 1.012, there has been a shortcut for "extends".

         package My::Types {
           use Type::Library -extends => [ 'Types::Standard' ];

           # define your own types here
         }

       The "-extends" flag takes an arrayref of type libraries to extend.  It automatically
       implies "-base" so you don't need to use both.

   Custom Error Messages
       A type constraint can have custom error messages. It's pretty simple:

         Type::Tiny->new(
           name       => 'EvenNumber',
           parent     => Types::Standard::Int,
           constraint => sub {
             # in this sub we don't need to check that $_ is an Int
             # because the parent will take care of that!

             $_ % 2 == 0
           },
           message   => sub {
             sprintf '%s is not an even number', Type::Tiny::_dd($_);
           },
         );

       The message coderef just takes a value in $_ and returns a string.  It may use
       "Type::Tiny::_dd()" as a way of pretty-printing a value.  (Don't be put off by the
       underscore in the function name. "_dd()" is an officially supported part of Type::Tiny's
       API now.)

       You don't have to use "_dd()". You can generate any error string you like. But "_dd()"
       will help you make undef and the empty string look different, and will pretty-print
       references, and so on.

       There's no need to supply an error message coderef unless you really want custom error
       messages. The default sub should be reasonable.

   Inlining
       In Perl, sub calls are relatively expensive in terms of memory and CPU use.  The
       PositiveInt type inherits from Int which inherits from Num which inherits from Str which
       inherits from Defined which inherits from Item which inherits from Any.

       So you might think that to check of $value is a PositiveInt, it needs to be checked all
       the way up the inheritance chain. But this is where one of Type::Tiny's big optimizations
       happens. Type::Tiny can glue together a bunch of checks with a stringy eval, and get a
       single coderef that can do all the checks in one go.

       This is why when Type::Tiny gives you a choice of using a coderef or a string of Perl
       code, you should usually choose the string of Perl code.  A single coderef can "break the
       chain".

       But these automatically generated strings of Perl code are not always as efficient as they
       could be. For example, imagine that HashRef is defined as:

         my $Defined = Type::Tiny->new(
           name       => 'Defined',
           constraint => 'defined($_)',
         );
         my $Ref = Type::Tiny->new(
           name       => 'Ref',
           parent     => $Defined,
           constraint => 'ref($_)',
         );
         my $HashRef = Type::Tiny->new(
           name       => 'HashRef',
           parent     => $Ref,
           constraint => 'ref($_) eq "HASH"',
         );

       Then the combined check is:

         defined($_) and ref($_) and ref($_) eq "HASH"

       Actually in practice it's even more complicated, because Type::Tiny needs to localize and
       set $_ first.

       But in practice, the following should be a sufficient check:

         ref($_) eq "HASH"

       It is possible for the HashRef type to have more control over the string of code
       generated.

         my $HashRef = Type::Tiny->new(
           name       => 'HashRef',
           parent     => $Ref,
           constraint => 'ref($_) eq "HASH"',
           inlined    => sub {
             my $varname = pop;
             sprintf 'ref(%s) eq "HASH"', $varname;
           },
         );

       The inlined coderef gets passed the name of a variable to check. This could be '$_' or
       '$var' or "$some{deep}{thing}[0]". Because it is passed the name of a variable to check,
       instead of always checking $_, this enables very efficient checking for parameterized
       types.

       Although in this case, the inlining coderef is just returning a string, technically it
       returns a list of strings. If there's multiple strings, Type::Tiny will join them together
       in a big "&&" statement.

       As a special case, if the first item in the returned list of strings is undef, then
       Type::Tiny will substitute the parent type constraint's inlined string in its place. So an
       inlieing coderef for even numbers might be:

         Type::Tiny->new(
           name       => 'EvenNumber',
           parent     => Types::Standard::Int,
           constraint => sub { $_ % 2 == 0 },
           inlined    => sub {
             my $varname = pop;
             return (undef, "$varname % 2 == 0");
           },
         );

       Even if you provide a coderef as a string, an inlining coderef has the potential to
       generate more efficient code, so you should consider providing one.

   Pre-Declaring Types
         use Type::Library -base,
           -declare => qw( Foo Bar Baz );

       This declares types Foo, Bar, and Baz at compile time so they can safely be used as
       barewords in your type library.

       This also allows recursively defined types to (mostly) work!

         use Type::Library -base,
           -declare => qw( NumericArrayRef );
         use Types::Standard qw( Num ArrayRef );

         __PACKAGE__->add_type(
           name     => NumericArrayRef,
           parent   => ArrayRef->of( Num | NumericArrayRef ),
         );

       (Support for recursive type definitions added in Type::Library 1.009_000.)

   Parameterizable Types
       This is probably the most "meta" concept that is going to be covered.  Building your own
       type constraint that can be parameterized like ArrayRef or HasMethods.

       The type constraint we'll build will be MultipleOf[$i] which checks that an integer is a
       multiple of $i.

         __PACKAGE__->add_type(
           name       => 'MultipleOf',
           parent     => Int,

           # This coderef gets passed the contents of the square brackets.
           constraint_generator => sub {
             my $i = assert_Int(shift);
             # needs to return a coderef to use as a constraint for the
             # parameterized type
             return sub { $_ % $i == 0 };
           },

           # optional but recommended
           inline_generator => sub {
             my $i = shift;
             return sub {
               my $varname = pop;
               return (undef, "$varname % $i == 0");
             };
           },

           # probably the most complex bit
           coercion_generator => sub {
             my $i = $_[2];
             require Type::Coercion;
             return Type::Coercion->new(
               type_coercion_map => [
                 Num, qq{ int($i * int(\$_/$i)) }
               ],
             );
           },
         );

       Now we can define an even number like this:

         __PACKAGE__->add_type(
           name     => 'EvenNumber',
           parent   => __PACKAGE__->get_type('MultipleOf')->of(2),
           coercion => 1,  # inherit from parent
         );

       Note that it is possible for a type constraint to have a "constraint" and a
       "constraint_generator".

         BaseType          # uses the constraint
         BaseType[]        # constraint_generator with no arguments
         BaseType[$x]      # constraint_generator with an argument

       In the MultipleOf example above, MultipleOf[] with no number would throw an error because
       of "assert_Int(shift)" not finding an integer.

       But it is certainly possible for BaseType[] to be meaningful and distinct from "BaseType".

       For example, Tuple is just the same as ArrayRef and accepts any arrayref as being valid.
       But Tuple[] will only accept arrayrefs with zero elements in them. (Just like
       Tuple[Any,Any] will only accept arrayrefs with two elements.)

NEXT STEPS
       After that last example, probably have a little lie down. Once you're recovered, here's
       your next step:

       o   Type::Tiny::Manual::UsingWithMoose

           How to use Type::Tiny with Moose, including the advantages of Type::Tiny over built-in
           type constraints, and Moose-specific features.

AUTHOR
       Toby Inkster <tobyink AT cpan.org>.

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.

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.

perl v5.32.1                                2021-08-31         Type::Tiny::Manual::Libraries(3pm)

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