use XSLoader;
BEGIN {
- our $VERSION = '1.00';
+ our $VERSION = '1.0103';
XSLoader::load;
}
function, and returns either C<undef> (if it knows nothing about the function)
or a L<Function::Parameters::Info> object describing the parameter list.
+Note: This feature is implemented using L<Moo>, so you'll need to have L<Moo>
+installed if you want to call C<Function::Parameters::info> (alternatively, if
+L<Moose> is already loaded by the time C<Function::Parameters::info> is first
+called, it will use that instead).
+
See L<Function::Parameters::Info> for examples.
=head2 Wrapping C<Function::Parameters>
# or Function::Parameters->import(@custom_import_args);
}
+=head2 Experimental feature: Types
+
+An experimental feature is now available: You can annotate parameters with
+L<Moose types|Moose::Manual::Types>. That is, before each parameter you can put
+a type specification consisting of identifiers (C<Foo>), unions (C<... | ...>),
+and parametric types (C<...[...]>). Example:
+
+ fun foo(Int $n, ArrayRef[String | CodeRef] $cb) { ... }
+
+If you do this, L<Moose> will be loaded automatically (if that hasn't happened
+yet). These specifications are parsed and validated using
+L<C<Moose::Util::TypeConstraints::find_or_parse_type_constraint>|Moose::Util::TypeConstraints/find_or_parse_type_constraint>.
+
+If you are in "lax" mode, nothing further happens and the types are ignored. If
+you are in "strict" mode, C<Function::Parameters> generates code to make sure
+any values passed in conform to the type (via
+L<< C<< $constraint->check($value) >>|Moose::Meta::TypeConstraint/$constraint->check($value) >>).
+
+In addition, these type constraints are inspectable through the
+L<Function::Parameters::Info> object returned by
+L<C<Function::Parameters::info>|/Introspection>.
+
+=head2 Experimental experimental feature: Type expressions
+
+An even more experimental feature is the ability to specify arbitrary
+expressions as types. The syntax for this is like the literal types described
+above, but with an expression wrapped in parentheses (C<( EXPR )>). Example:
+
+ fun foo(('Int') $n, ($othertype) $x) { ... }
+
+Every type expression must return either a string (which is resolved as for
+literal types), or a L<type constraint object|Moose::Meta::TypeConstraint>
+(providing C<check> and C<get_message> methods).
+
+Note that these expressions are evaluated (once) at parse time (similar to
+C<BEGIN> blocks), so make sure that any variables you use are set and any
+functions you call are defined at parse time.
+
=head2 How it works
The module is actually written in L<C|perlxs> and uses
# ... turns into ...
sub bar :method { my $self = shift; my ($x, $y, @z) = @_; sub bar; ... }
+=head1 SUPPORT AND DOCUMENTATION
+
+After installing, you can find documentation for this module with the
+perldoc command.
+
+ perldoc Function::Parameters
+
+You can also look for information at:
+
+=over
+
+=item MetaCPAN
+
+L<https://metacpan.org/module/Function%3A%3AParameters>
+
+=item RT, CPAN's request tracker
+
+L<http://rt.cpan.org/NoAuth/Bugs.html?Dist=Function-Parameters>
+
+=item AnnoCPAN, Annotated CPAN documentation
+
+L<http://annocpan.org/dist/Function-Parameters>
+
+=item CPAN Ratings
+
+L<http://cpanratings.perl.org/d/Function-Parameters>
+
+=item Search CPAN
+
+L<http://search.cpan.org/dist/Function-Parameters/>
+
+=back
+
=head1 SEE ALSO
L<Function::Parameters::Info>
=head1 COPYRIGHT & LICENSE
-Copyright 2010, 2011, 2012 Lukas Mai.
+Copyright 2010-2013 Lukas Mai.
This program is free software; you can redistribute it and/or modify it
under the terms of either: the GNU General Public License as published