use XSLoader;
BEGIN {
- our $VERSION = '1.0104';
+ our $VERSION = '1.0202';
XSLoader::load;
}
}sx or confess qq{"$attrs" doesn't look like valid attributes};
}
+sub _reify_type_default {
+ require Moose::Util::TypeConstraints;
+ Moose::Util::TypeConstraints::find_or_create_isa_type_constraint($_[0])
+}
+
+sub _delete_default {
+ my ($href, $key, $default) = @_;
+ exists $href->{$key} ? delete $href->{$key} : $default
+}
+
my @bare_arms = qw(function method);
my %type_map = (
- function => {
- name => 'optional',
- default_arguments => 1,
- check_argument_count => 0,
- named_parameters => 1,
- types => 1,
+ function => {}, # all default settings
+ function_strict => {
+ defaults => 'function',
+ strict => 1,
},
- method => {
- name => 'optional',
- default_arguments => 1,
- check_argument_count => 0,
- named_parameters => 1,
- types => 1,
- attrs => ':method',
- shift => '$self',
- invocant => 1,
+ method => {
+ defaults => 'function',
+ attributes => ':method',
+ shift => '$self',
+ invocant => 1,
},
- classmethod => {
- name => 'optional',
- default_arguments => 1,
- check_argument_count => 0,
- named_parameters => 1,
- types => 1,
- attributes => ':method',
- shift => '$class',
- invocant => 1,
+ method_strict => {
+ defaults => 'method',
+ strict => 1,
+ },
+ classmethod => {
+ defaults => 'method',
+ shift => '$class',
+ },
+ classmethod_strict => {
+ defaults => 'classmethod',
+ strict => 1,
},
);
-for my $k (keys %type_map) {
- $type_map{$k . '_strict'} = {
- %{$type_map{$k}},
- check_argument_count => 1,
- };
-}
+
+our @type_reifiers = \&_reify_type_default;
sub import {
my $class = shift;
my ($name, $proto_type) = @$item;
_assert_valid_identifier $name;
- unless (ref $proto_type) {
- # use '||' instead of 'or' to preserve $proto_type in the error message
- $proto_type = $type_map{$proto_type}
- || confess qq["$proto_type" doesn't look like a valid type (one of ${\join ', ', sort keys %type_map})];
- }
+ $proto_type = {defaults => $proto_type} unless ref $proto_type;
my %type = %$proto_type;
+ while (my $defaults = delete $type{defaults}) {
+ my $base = $type_map{$defaults}
+ or confess qq["$defaults" doesn't look like a valid type (one of ${\join ', ', sort keys %type_map})];
+ %type = (%$base, %type);
+ }
+
my %clean;
- $clean{name} = delete $type{name} || 'optional';
+ $clean{name} = delete $type{name} // 'optional';
$clean{name} =~ /^(?:optional|required|prohibited)\z/
or confess qq["$clean{name}" doesn't look like a valid name attribute (one of optional, required, prohibited)];
- $clean{shift} = delete $type{shift} || '';
+ $clean{shift} = delete $type{shift} // '';
_assert_valid_identifier $clean{shift}, 1 if $clean{shift};
- $clean{attrs} = join ' ', map delete $type{$_} || (), qw(attributes attrs);
+ $clean{attrs} = join ' ', map delete $type{$_} // (), qw(attributes attrs);
_assert_valid_attributes $clean{attrs} if $clean{attrs};
- $clean{default_arguments} =
- exists $type{default_arguments}
- ? !!delete $type{default_arguments}
- : 1
- ;
- $clean{check_argument_count} = !!delete $type{check_argument_count};
- $clean{invocant} = !!delete $type{invocant};
- $clean{named_parameters} = !!delete $type{named_parameters};
- $clean{types} = !!delete $type{types};
+ $clean{default_arguments} = _delete_default \%type, 'default_arguments', 1;
+ $clean{named_parameters} = _delete_default \%type, 'named_parameters', 1;
+ $clean{types} = _delete_default \%type, 'types', 1;
+
+ $clean{invocant} = _delete_default \%type, 'invocant', 0;
+ $clean{check_argument_count} = _delete_default \%type, 'check_argument_count', 0;
+ $clean{check_argument_types} = _delete_default \%type, 'check_argument_types', 0;
+ $clean{check_argument_count} = $clean{check_argument_types} = 1 if delete $type{strict};
+
+ if (my $rt = delete $type{reify_type}) {
+ ref $rt eq 'CODE' or confess qq{"$rt" doesn't look like a type reifier};
+
+ my $index;
+ for my $i (0 .. $#type_reifiers) {
+ if ($type_reifiers[$i] == $rt) {
+ $index = $i;
+ last;
+ }
+ }
+ unless (defined $index) {
+ $index = @type_reifiers;
+ push @type_reifiers, $rt;
+ }
+
+ $clean{reify_type} = $index;
+ }
%type and confess "Invalid keyword property: @{[keys %type]}";
$type->{name} eq 'required' ? FLAG_NAME_OK :
FLAG_ANON_OK | FLAG_NAME_OK
;
- $flags |= FLAG_DEFAULT_ARGS if $type->{default_arguments};
- $flags |= FLAG_CHECK_NARGS | FLAG_CHECK_TARGS if $type->{check_argument_count};
- $flags |= FLAG_INVOCANT if $type->{invocant};
- $flags |= FLAG_NAMED_PARAMS if $type->{named_parameters};
- $flags |= FLAG_TYPES_OK if $type->{types};
+ $flags |= FLAG_DEFAULT_ARGS if $type->{default_arguments};
+ $flags |= FLAG_CHECK_NARGS if $type->{check_argument_count};
+ $flags |= FLAG_CHECK_TARGS if $type->{check_argument_types};
+ $flags |= FLAG_INVOCANT if $type->{invocant};
+ $flags |= FLAG_NAMED_PARAMS if $type->{named_parameters};
+ $flags |= FLAG_TYPES_OK if $type->{types};
$^H{HINTK_FLAGS_ . $kw} = $flags;
$^H{HINTK_SHIFT_ . $kw} = $type->{shift};
$^H{HINTK_ATTRS_ . $kw} = $type->{attrs};
+ $^H{HINTK_REIFY_ . $kw} = $type->{reify_type} // 0;
$^H{+HINTK_KEYWORDS} .= "$kw ";
}
}
initialization, you can specify the same key multiple times and the last
occurrence wins:
- rectangle(height => 1, width => 2, height => 2, height => 5;
+ rectangle(height => 1, width => 2, height => 2, height => 5);
# same as: rectangle(width => 2, height => 5);
You can combine positional and named parameters as long as the positional
=over
+=item C<defaults>
+
+Valid values: One of the predefined types C<function>, C<method>,
+C<classmethod>, C<function_strict>, C<method_strict>, C<classmethod_strict>.
+This will set the defaults for all other keys from the specified type, which is
+useful if you only want to override some properties:
+
+ use Function::Parameters { defmethod => { defaults => 'method', shift => '$this' } };
+
+This example defines a keyword called C<defmethod> that works like the standard
+C<method> keyword, but the implicit object variable is called C<$this> instead
+of C<$self>.
+
+Using the string types directly is equivalent to C<defaults> with no further
+customization:
+
+ use Function::Parameters {
+ foo => 'function', # like: foo => { defaults => 'function' },
+ bar => 'function_strict', # like: bar => { defaults => 'function_strict' },
+ baz => 'method_strict', # like: baz => { defaults => 'method_strict' },
+ };
+
=item C<name>
Valid values: C<optional> (default), C<required> (all functions defined with
excess arguments. If this check fails, an exception will by thrown via
L<C<Carp::croak>|Carp>.
+=item C<check_argument_types>
+
+Valid values: booleans. If turned on, functions defined with this keyword will
+automatically check that the arguments they are passed pass the declared type
+constraints (if any). See L</Experimental feature: Types> below.
+
+=item C<strict>
+
+Valid values: booleans. This turns on both C<check_argument_count> and
+C<check_argument_types>.
+
+=item C<reify_type>
+
+Valid values: code references. The function specified here will be called to
+turn type annotations into constraint objects (see
+L</Experimental feature: Types> below). It will receive two arguments: a string
+containing the type description, and the name of the current package.
+
+The default type reifier is equivalent to:
+
+ sub {
+ require Moose::Util::TypeConstraints;
+ Moose::Util::TypeConstraints::find_or_create_isa_type_constraint($_[0])
+ }
+
=back
The predefined type C<function> is equivalent to:
{
- name => 'optional',
- invocant => 0,
- default_arguments => 1,
- check_argument_count => 0,
+ name => 'optional',
+ default_arguments => 1,
+ strict => 0,
+ invocant => 0,
}
These are all default values, so C<function> is also equivalent to C<{}>.
C<method> is equivalent to:
{
- name => 'optional',
- shift => '$self',
- invocant => 1,
- attributes => ':method',
- default_arguments => 1,
- check_argument_count => 0,
+ defaults => 'function',
+ attributes => ':method',
+ shift => '$self',
+ invocant => 1,
}
C<classmethod> is equivalent to:
{
- name => 'optional',
- shift => '$class',
- invocant => 1,
- attributes => ':method',
- default_arguments => 1,
- check_argument_count => 0,
+ defaults => 'method',
+ shift => '$class',
}
C<function_strict>, C<method_strict>, and
C<classmethod_strict> are like C<function>, C<method>, and
-C<classmethod>, respectively, but with C<< check_argument_count => 1 >>.
+C<classmethod>, respectively, but with C<< strict => 1 >>.
=back
=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:
+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) { ... }
+ fun foo(Int $n, ArrayRef[Str | 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 do this, the type reification function corresponding to the keyword will
+be called to turn the type (a string) into a constraint object. The default
+type reifier simply loads L<Moose> and forwards to
+L<C<Moose::Util::TypeConstraints::find_or_parse_type_constraint>|Moose::Util::TypeConstraints/find_or_parse_type_constraint>,
+which creates L<Moose types|Moose::Manual::Types>.
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