Commit | Line | Data |
a15dff8d |
1 | |
2 | package Moose::Util::TypeConstraints; |
3 | |
998a8a25 |
4 | use Carp (); |
9e856c83 |
5 | use List::MoreUtils qw( all any ); |
9a63faba |
6 | use Scalar::Util qw( blessed reftype ); |
e606ae5f |
7 | use Moose::Exporter; |
a15dff8d |
8 | |
d9b40005 |
9 | ## -------------------------------------------------------- |
e85d2a5d |
10 | # Prototyped subs must be predeclared because we have a |
11 | # circular dependency with Moose::Meta::Attribute et. al. |
12 | # so in case of us being use'd first the predeclaration |
d9b40005 |
13 | # ensures the prototypes are in scope when consumers are |
14 | # compiled. |
15 | |
d9b40005 |
16 | # dah sugah! |
180899ed |
17 | sub where (&); |
18 | sub via (&); |
19 | sub message (&); |
d9b40005 |
20 | sub optimize_as (&); |
4e36cf24 |
21 | sub inline_as (&); |
d9b40005 |
22 | |
d9b40005 |
23 | ## -------------------------------------------------------- |
8c4acc60 |
24 | |
1fa1a58d |
25 | use Moose::Deprecated; |
4e036ee4 |
26 | use Moose::Meta::TypeConstraint; |
3726f905 |
27 | use Moose::Meta::TypeConstraint::Union; |
0fbd4b0a |
28 | use Moose::Meta::TypeConstraint::Parameterized; |
7e4e1ad4 |
29 | use Moose::Meta::TypeConstraint::Parameterizable; |
620db045 |
30 | use Moose::Meta::TypeConstraint::Class; |
31 | use Moose::Meta::TypeConstraint::Role; |
dabed765 |
32 | use Moose::Meta::TypeConstraint::Enum; |
0a6bff54 |
33 | use Moose::Meta::TypeConstraint::DuckType; |
2ca63f5d |
34 | use Moose::Meta::TypeCoercion; |
3726f905 |
35 | use Moose::Meta::TypeCoercion::Union; |
22aed3c0 |
36 | use Moose::Meta::TypeConstraint::Registry; |
4e036ee4 |
37 | |
e606ae5f |
38 | Moose::Exporter->setup_import_methods( |
39 | as_is => [ |
40 | qw( |
180899ed |
41 | type subtype class_type role_type maybe_type duck_type |
7afaa906 |
42 | as where message optimize_as inline_as |
e606ae5f |
43 | coerce from via |
0faea2a8 |
44 | enum union |
e606ae5f |
45 | find_type_constraint |
0d29b772 |
46 | register_type_constraint |
47 | match_on_type ) |
e606ae5f |
48 | ], |
e606ae5f |
49 | ); |
a15dff8d |
50 | |
d9b40005 |
51 | ## -------------------------------------------------------- |
52 | ## type registry and some useful functions for it |
53 | ## -------------------------------------------------------- |
54 | |
22aed3c0 |
55 | my $REGISTRY = Moose::Meta::TypeConstraint::Registry->new; |
587ae0d2 |
56 | |
180899ed |
57 | sub get_type_constraint_registry {$REGISTRY} |
58 | sub list_all_type_constraints { keys %{ $REGISTRY->type_constraints } } |
59 | |
d9b40005 |
60 | sub export_type_constraints_as_functions { |
61 | my $pkg = caller(); |
62 | no strict 'refs'; |
180899ed |
63 | foreach my $constraint ( keys %{ $REGISTRY->type_constraints } ) { |
64 | my $tc = $REGISTRY->get_type_constraint($constraint) |
65 | ->_compiled_type_constraint; |
66 | *{"${pkg}::${constraint}"} |
67 | = sub { $tc->( $_[0] ) ? 1 : undef }; # the undef is for compat |
a0f8153d |
68 | } |
d9b40005 |
69 | } |
182134e8 |
70 | |
0c015f1b |
71 | sub create_type_constraint_union { |
8ac5be59 |
72 | _create_type_constraint_union(\@_); |
182134e8 |
73 | } |
a15dff8d |
74 | |
a46050ae |
75 | sub create_named_type_constraint_union { |
76 | my $name = shift; |
8ac5be59 |
77 | _create_type_constraint_union($name, \@_); |
78 | } |
79 | |
80 | sub _create_type_constraint_union { |
81 | my $name; |
82 | $name = shift if @_ > 1; |
83 | my @tcs = @{ shift() }; |
84 | |
a46050ae |
85 | my @type_constraint_names; |
86 | |
8ac5be59 |
87 | if ( scalar @tcs == 1 && _detect_type_constraint_union( $tcs[0] ) ) { |
88 | @type_constraint_names = _parse_type_constraint_union( $tcs[0] ); |
a46050ae |
89 | } |
90 | else { |
8ac5be59 |
91 | @type_constraint_names = @tcs; |
a46050ae |
92 | } |
93 | |
94 | ( scalar @type_constraint_names >= 2 ) |
95 | || __PACKAGE__->_throw_error( |
96 | "You must pass in at least 2 type names to make a union"); |
97 | |
98 | my @type_constraints = map { |
99 | find_or_parse_type_constraint($_) |
100 | || __PACKAGE__->_throw_error( |
101 | "Could not locate type constraint ($_) for the union"); |
102 | } @type_constraint_names; |
103 | |
104 | my %options = ( |
105 | type_constraints => \@type_constraints |
106 | ); |
107 | $options{name} = $name if defined $name; |
108 | |
109 | return Moose::Meta::TypeConstraint::Union->new(%options); |
110 | } |
111 | |
112 | |
0c015f1b |
113 | sub create_parameterized_type_constraint { |
d9b40005 |
114 | my $type_constraint_name = shift; |
180899ed |
115 | my ( $base_type, $type_parameter ) |
116 | = _parse_parameterized_type_constraint($type_constraint_name); |
e85d2a5d |
117 | |
180899ed |
118 | ( defined $base_type && defined $type_parameter ) |
119 | || __PACKAGE__->_throw_error( |
120 | "Could not parse type name ($type_constraint_name) correctly"); |
e85d2a5d |
121 | |
180899ed |
122 | if ( $REGISTRY->has_type_constraint($base_type) ) { |
90e78884 |
123 | my $base_type_tc = $REGISTRY->get_type_constraint($base_type); |
124 | return _create_parameterized_type_constraint( |
125 | $base_type_tc, |
126 | $type_parameter |
127 | ); |
180899ed |
128 | } |
129 | else { |
130 | __PACKAGE__->_throw_error( |
131 | "Could not locate the base type ($base_type)"); |
90e78884 |
132 | } |
22aed3c0 |
133 | } |
134 | |
90e78884 |
135 | sub _create_parameterized_type_constraint { |
136 | my ( $base_type_tc, $type_parameter ) = @_; |
137 | if ( $base_type_tc->can('parameterize') ) { |
138 | return $base_type_tc->parameterize($type_parameter); |
180899ed |
139 | } |
140 | else { |
90e78884 |
141 | return Moose::Meta::TypeConstraint::Parameterized->new( |
180899ed |
142 | name => $base_type_tc->name . '[' . $type_parameter . ']', |
90e78884 |
143 | parent => $base_type_tc, |
180899ed |
144 | type_parameter => |
145 | find_or_create_isa_type_constraint($type_parameter), |
90e78884 |
146 | ); |
147 | } |
180899ed |
148 | } |
90e78884 |
149 | |
4ab662d6 |
150 | #should we also support optimized checks? |
0c015f1b |
151 | sub create_class_type_constraint { |
620db045 |
152 | my ( $class, $options ) = @_; |
153 | |
180899ed |
154 | # too early for this check |
155 | #find_type_constraint("ClassName")->check($class) |
156 | # || __PACKAGE__->_throw_error("Can't create a class type constraint because '$class' is not a class name"); |
3fef8ce8 |
157 | |
8eddcf9e |
158 | my $pkg_defined_in = scalar( caller(1) ); |
159 | |
c8bb956a |
160 | if (my $type = $REGISTRY->get_type_constraint($class)) { |
6f496445 |
161 | if (!($type->isa('Moose::Meta::TypeConstraint::Class') && $type->class eq $class)) { |
162 | _confess( |
163 | "The type constraint '$class' has already been created in " |
164 | . $type->_package_defined_in |
165 | . " and cannot be created again in " |
166 | . $pkg_defined_in ) |
167 | } |
c8bb956a |
168 | } |
169 | |
620db045 |
170 | my %options = ( |
8eddcf9e |
171 | class => $class, |
172 | name => $class, |
173 | package_defined_in => $pkg_defined_in, |
620db045 |
174 | %{ $options || {} }, |
4ab662d6 |
175 | ); |
620db045 |
176 | |
177 | $options{name} ||= "__ANON__"; |
178 | |
510d13e1 |
179 | my $tc = Moose::Meta::TypeConstraint::Class->new(%options); |
180 | $REGISTRY->add_type_constraint($tc); |
181 | return $tc; |
3fef8ce8 |
182 | } |
183 | |
0c015f1b |
184 | sub create_role_type_constraint { |
620db045 |
185 | my ( $role, $options ) = @_; |
e85d2a5d |
186 | |
180899ed |
187 | # too early for this check |
188 | #find_type_constraint("ClassName")->check($class) |
189 | # || __PACKAGE__->_throw_error("Can't create a class type constraint because '$class' is not a class name"); |
e85d2a5d |
190 | |
8eddcf9e |
191 | my $pkg_defined_in = scalar( caller(1) ); |
192 | |
c8bb956a |
193 | if (my $type = $REGISTRY->get_type_constraint($role)) { |
6f496445 |
194 | if (!($type->isa('Moose::Meta::TypeConstraint::Role') && $type->role eq $role)) { |
195 | _confess( |
196 | "The type constraint '$role' has already been created in " |
197 | . $type->_package_defined_in |
198 | . " and cannot be created again in " |
199 | . $pkg_defined_in ) |
200 | } |
c8bb956a |
201 | } |
202 | |
620db045 |
203 | my %options = ( |
8eddcf9e |
204 | role => $role, |
205 | name => $role, |
206 | package_defined_in => $pkg_defined_in, |
620db045 |
207 | %{ $options || {} }, |
208 | ); |
e85d2a5d |
209 | |
620db045 |
210 | $options{name} ||= "__ANON__"; |
211 | |
510d13e1 |
212 | my $tc = Moose::Meta::TypeConstraint::Role->new(%options); |
213 | $REGISTRY->add_type_constraint($tc); |
214 | return $tc; |
620db045 |
215 | } |
216 | |
0c015f1b |
217 | sub find_or_create_type_constraint { |
620db045 |
218 | my ( $type_constraint_name, $options_for_anon_type ) = @_; |
219 | |
180899ed |
220 | if ( my $constraint |
221 | = find_or_parse_type_constraint($type_constraint_name) ) { |
620db045 |
222 | return $constraint; |
d9b40005 |
223 | } |
620db045 |
224 | elsif ( defined $options_for_anon_type ) { |
180899ed |
225 | |
d9b40005 |
226 | # NOTE: |
4ab662d6 |
227 | # if there is no $options_for_anon_type |
228 | # specified, then we assume they don't |
f3c4e20e |
229 | # want to create one, and return nothing. |
f3c4e20e |
230 | |
d9b40005 |
231 | # otherwise assume that we should create |
e85d2a5d |
232 | # an ANON type with the $options_for_anon_type |
d9b40005 |
233 | # options which can be passed in. It should |
e85d2a5d |
234 | # be noted that these don't get registered |
d9b40005 |
235 | # so we need to return it. |
236 | # - SL |
237 | return Moose::Meta::TypeConstraint->new( |
238 | name => '__ANON__', |
e85d2a5d |
239 | %{$options_for_anon_type} |
d9b40005 |
240 | ); |
241 | } |
e85d2a5d |
242 | |
620db045 |
243 | return; |
244 | } |
245 | |
0c015f1b |
246 | sub find_or_create_isa_type_constraint { |
620db045 |
247 | my $type_constraint_name = shift; |
180899ed |
248 | find_or_parse_type_constraint($type_constraint_name) |
249 | || create_class_type_constraint($type_constraint_name); |
620db045 |
250 | } |
251 | |
0c015f1b |
252 | sub find_or_create_does_type_constraint { |
620db045 |
253 | my $type_constraint_name = shift; |
180899ed |
254 | find_or_parse_type_constraint($type_constraint_name) |
255 | || create_role_type_constraint($type_constraint_name); |
620db045 |
256 | } |
257 | |
0c015f1b |
258 | sub find_or_parse_type_constraint { |
eb4c4e82 |
259 | my $type_constraint_name = normalize_type_constraint_name(shift); |
620db045 |
260 | my $constraint; |
180899ed |
261 | |
262 | if ( $constraint = find_type_constraint($type_constraint_name) ) { |
e606ae5f |
263 | return $constraint; |
180899ed |
264 | } |
265 | elsif ( _detect_type_constraint_union($type_constraint_name) ) { |
620db045 |
266 | $constraint = create_type_constraint_union($type_constraint_name); |
180899ed |
267 | } |
268 | elsif ( _detect_parameterized_type_constraint($type_constraint_name) ) { |
269 | $constraint |
270 | = create_parameterized_type_constraint($type_constraint_name); |
271 | } |
272 | else { |
620db045 |
273 | return; |
274 | } |
bb6c8335 |
275 | |
d9b40005 |
276 | $REGISTRY->add_type_constraint($constraint); |
e85d2a5d |
277 | return $constraint; |
d9b40005 |
278 | } |
22aed3c0 |
279 | |
eb4c4e82 |
280 | sub normalize_type_constraint_name { |
84a9c64c |
281 | my $type_constraint_name = shift; |
c8f663b2 |
282 | $type_constraint_name =~ s/\s//g; |
eb4c4e82 |
283 | return $type_constraint_name; |
284 | } |
285 | |
5f223879 |
286 | sub _confess { |
287 | my $error = shift; |
288 | |
289 | local $Carp::CarpLevel = $Carp::CarpLevel + 1; |
290 | Carp::confess($error); |
291 | } |
292 | |
22aed3c0 |
293 | ## -------------------------------------------------------- |
294 | ## exported functions ... |
295 | ## -------------------------------------------------------- |
296 | |
0c015f1b |
297 | sub find_type_constraint { |
eeedfc8a |
298 | my $type = shift; |
299 | |
300 | if ( blessed $type and $type->isa("Moose::Meta::TypeConstraint") ) { |
301 | return $type; |
e606ae5f |
302 | } |
303 | else { |
304 | return unless $REGISTRY->has_type_constraint($type); |
eeedfc8a |
305 | return $REGISTRY->get_type_constraint($type); |
306 | } |
307 | } |
22aed3c0 |
308 | |
0c015f1b |
309 | sub register_type_constraint { |
3fef8ce8 |
310 | my $constraint = shift; |
180899ed |
311 | __PACKAGE__->_throw_error("can't register an unnamed type constraint") |
312 | unless defined $constraint->name; |
3fef8ce8 |
313 | $REGISTRY->add_type_constraint($constraint); |
dabed765 |
314 | return $constraint; |
3fef8ce8 |
315 | } |
316 | |
7c13858b |
317 | # type constructors |
a15dff8d |
318 | |
9c27968f |
319 | sub type { |
9e856c83 |
320 | my $name = shift; |
9a63faba |
321 | |
9e856c83 |
322 | my %p = map { %{$_} } @_; |
323 | |
180899ed |
324 | return _create_type_constraint( |
325 | $name, undef, $p{where}, $p{message}, |
4e36cf24 |
326 | $p{optimize_as}, $p{inline_as}, |
180899ed |
327 | ); |
a15dff8d |
328 | } |
329 | |
9c27968f |
330 | sub subtype { |
180899ed |
331 | if ( @_ == 1 && !ref $_[0] ) { |
332 | __PACKAGE__->_throw_error( |
333 | 'A subtype cannot consist solely of a name, it must have a parent' |
334 | ); |
f75f625d |
335 | } |
336 | |
f6c0c589 |
337 | # The blessed check is mostly to accommodate MooseX::Types, which |
338 | # uses an object which overloads stringification as a type name. |
180899ed |
339 | my $name = ref $_[0] && !blessed $_[0] ? undef : shift; |
9a63faba |
340 | |
341 | my %p = map { %{$_} } @_; |
342 | |
343 | # subtype Str => where { ... }; |
180899ed |
344 | if ( !exists $p{as} ) { |
9e856c83 |
345 | $p{as} = $name; |
9a63faba |
346 | $name = undef; |
347 | } |
348 | |
180899ed |
349 | return _create_type_constraint( |
350 | $name, $p{as}, $p{where}, $p{message}, |
4e36cf24 |
351 | $p{optimize_as}, $p{inline_as}, |
180899ed |
352 | ); |
a15dff8d |
353 | } |
354 | |
9c27968f |
355 | sub class_type { |
510d13e1 |
356 | create_class_type_constraint(@_); |
3fef8ce8 |
357 | } |
358 | |
620db045 |
359 | sub role_type ($;$) { |
510d13e1 |
360 | create_role_type_constraint(@_); |
620db045 |
361 | } |
362 | |
1b2c9bda |
363 | sub maybe_type { |
364 | my ($type_parameter) = @_; |
365 | |
28ce1444 |
366 | register_type_constraint( |
ed7060d9 |
367 | $REGISTRY->get_type_constraint('Maybe')->parameterize($type_parameter) |
28ce1444 |
368 | ); |
1b2c9bda |
369 | } |
370 | |
180899ed |
371 | sub duck_type { |
cdacfaf3 |
372 | my ( $type_name, @methods ) = @_; |
180899ed |
373 | if ( ref $type_name eq 'ARRAY' && !@methods ) { |
cdacfaf3 |
374 | @methods = @$type_name; |
180899ed |
375 | $type_name = undef; |
376 | } |
bce5d4a5 |
377 | if ( @methods == 1 && ref $methods[0] eq 'ARRAY' ) { |
378 | @methods = @{ $methods[0] }; |
379 | } |
180899ed |
380 | |
381 | register_type_constraint( |
0a6bff54 |
382 | create_duck_type_constraint( |
cdacfaf3 |
383 | $type_name, |
0a6bff54 |
384 | \@methods, |
180899ed |
385 | ) |
386 | ); |
387 | } |
388 | |
9c27968f |
389 | sub coerce { |
180899ed |
390 | my ( $type_name, @coercion_map ) = @_; |
391 | _install_type_coercions( $type_name, \@coercion_map ); |
182134e8 |
392 | } |
393 | |
f6c0c589 |
394 | # The trick of returning @_ lets us avoid having to specify a |
395 | # prototype. Perl will parse this: |
396 | # |
397 | # subtype 'Foo' |
398 | # => as 'Str' |
399 | # => where { ... } |
400 | # |
401 | # as this: |
402 | # |
403 | # subtype( 'Foo', as( 'Str', where { ... } ) ); |
404 | # |
69229b40 |
405 | # If as() returns all its extra arguments, this just works, and |
f6c0c589 |
406 | # preserves backwards compatibility. |
180899ed |
407 | sub as { { as => shift }, @_ } |
9e856c83 |
408 | sub where (&) { { where => $_[0] } } |
409 | sub message (&) { { message => $_[0] } } |
410 | sub optimize_as (&) { { optimize_as => $_[0] } } |
4e36cf24 |
411 | sub inline_as (&) { { inline_as => $_[0] } } |
8ecb1fa0 |
412 | |
9a63faba |
413 | sub from {@_} |
414 | sub via (&) { $_[0] } |
a15dff8d |
415 | |
9c27968f |
416 | sub enum { |
180899ed |
417 | my ( $type_name, @values ) = @_; |
418 | |
4ab662d6 |
419 | # NOTE: |
420 | # if only an array-ref is passed then |
9f4334a1 |
421 | # you get an anon-enum |
422 | # - SL |
f6af1028 |
423 | if ( ref $type_name eq 'ARRAY' ) { |
424 | @values == 0 |
425 | || __PACKAGE__->_throw_error("enum called with an array reference and additional arguments. Did you mean to parenthesize the enum call's parameters?"); |
426 | |
9f4334a1 |
427 | @values = @$type_name; |
428 | $type_name = undef; |
429 | } |
bce5d4a5 |
430 | if ( @values == 1 && ref $values[0] eq 'ARRAY' ) { |
431 | @values = @{ $values[0] }; |
432 | } |
dabed765 |
433 | |
434 | register_type_constraint( |
435 | create_enum_type_constraint( |
436 | $type_name, |
437 | \@values, |
438 | ) |
439 | ); |
440 | } |
441 | |
0faea2a8 |
442 | sub union { |
443 | my ( $type_name, @constraints ) = @_; |
444 | if ( ref $type_name eq 'ARRAY' ) { |
445 | @constraints == 0 |
446 | || __PACKAGE__->_throw_error("union called with an array reference and additional arguments."); |
447 | @constraints = @$type_name; |
448 | $type_name = undef; |
449 | } |
450 | if ( @constraints == 1 && ref $constraints[0] eq 'ARRAY' ) { |
451 | @constraints = @{ $constraints[0] }; |
452 | } |
0faea2a8 |
453 | if ( defined $type_name ) { |
a46050ae |
454 | return register_type_constraint( |
455 | create_named_type_constraint_union( $type_name, @constraints ) |
456 | ); |
0faea2a8 |
457 | } |
a46050ae |
458 | return create_type_constraint_union( @constraints ); |
0faea2a8 |
459 | } |
460 | |
0c015f1b |
461 | sub create_enum_type_constraint { |
dabed765 |
462 | my ( $type_name, $values ) = @_; |
e606ae5f |
463 | |
dabed765 |
464 | Moose::Meta::TypeConstraint::Enum->new( |
180899ed |
465 | name => $type_name || '__ANON__', |
dabed765 |
466 | values => $values, |
a0f8153d |
467 | ); |
fcec2383 |
468 | } |
469 | |
0a6bff54 |
470 | sub create_duck_type_constraint { |
471 | my ( $type_name, $methods ) = @_; |
472 | |
473 | Moose::Meta::TypeConstraint::DuckType->new( |
474 | name => $type_name || '__ANON__', |
475 | methods => $methods, |
476 | ); |
477 | } |
478 | |
0d29b772 |
479 | sub match_on_type { |
480 | my ($to_match, @cases) = @_; |
481 | my $default; |
482 | if (@cases % 2 != 0) { |
483 | $default = pop @cases; |
484 | (ref $default eq 'CODE') |
485 | || __PACKAGE__->_throw_error("Default case must be a CODE ref, not $default"); |
486 | } |
487 | while (@cases) { |
488 | my ($type, $action) = splice @cases, 0, 2; |
489 | |
490 | unless (blessed $type && $type->isa('Moose::Meta::TypeConstraint')) { |
491 | $type = find_or_parse_type_constraint($type) |
492 | || __PACKAGE__->_throw_error("Cannot find or parse the type '$type'") |
493 | } |
494 | |
495 | (ref $action eq 'CODE') |
496 | || __PACKAGE__->_throw_error("Match action must be a CODE ref, not $action"); |
497 | |
498 | if ($type->check($to_match)) { |
499 | local $_ = $to_match; |
500 | return $action->($to_match); |
501 | } |
502 | } |
1d39d709 |
503 | (defined $default) |
504 | || __PACKAGE__->_throw_error("No cases matched for $to_match"); |
0d29b772 |
505 | { |
506 | local $_ = $to_match; |
1d39d709 |
507 | return $default->($to_match); |
0d29b772 |
508 | } |
509 | } |
510 | |
511 | |
d9b40005 |
512 | ## -------------------------------------------------------- |
513 | ## desugaring functions ... |
514 | ## -------------------------------------------------------- |
515 | |
e85d2a5d |
516 | sub _create_type_constraint ($$$;$$) { |
9a63faba |
517 | my $name = shift; |
518 | my $parent = shift; |
519 | my $check = shift; |
520 | my $message = shift; |
521 | my $optimized = shift; |
4e36cf24 |
522 | my $inlined = shift; |
d9b40005 |
523 | |
9a63faba |
524 | my $pkg_defined_in = scalar( caller(1) ); |
e85d2a5d |
525 | |
1da6728b |
526 | if ( defined $name ) { |
d9b40005 |
527 | my $type = $REGISTRY->get_type_constraint($name); |
e85d2a5d |
528 | |
5f223879 |
529 | ( $type->_package_defined_in eq $pkg_defined_in ) |
530 | || _confess( |
531 | "The type constraint '$name' has already been created in " |
532 | . $type->_package_defined_in |
533 | . " and cannot be created again in " |
534 | . $pkg_defined_in ) |
535 | if defined $type; |
eee1a213 |
536 | |
537 | $name =~ /^[\w:\.]+$/ |
538 | or die qq{$name contains invalid characters for a type name.} |
33c8a6d0 |
539 | . qq{ Names can contain alphanumeric character, ":", and "."\n}; |
e85d2a5d |
540 | } |
1da6728b |
541 | |
9ceb576e |
542 | my %opts = ( |
9a63faba |
543 | name => $name, |
d9b40005 |
544 | package_defined_in => $pkg_defined_in, |
e85d2a5d |
545 | |
1da6728b |
546 | ( $check ? ( constraint => $check ) : () ), |
547 | ( $message ? ( message => $message ) : () ), |
548 | ( $optimized ? ( optimized => $optimized ) : () ), |
4e36cf24 |
549 | ( $inlined ? ( inlined => $inlined ) : () ), |
d9b40005 |
550 | ); |
1da6728b |
551 | |
9ceb576e |
552 | my $constraint; |
180899ed |
553 | if ( |
554 | defined $parent |
1da6728b |
555 | and $parent |
180899ed |
556 | = blessed $parent |
557 | ? $parent |
558 | : find_or_create_isa_type_constraint($parent) |
559 | ) { |
85a9908f |
560 | $constraint = $parent->create_child_type(%opts); |
1da6728b |
561 | } |
562 | else { |
563 | $constraint = Moose::Meta::TypeConstraint->new(%opts); |
4ab662d6 |
564 | } |
d9b40005 |
565 | |
566 | $REGISTRY->add_type_constraint($constraint) |
567 | if defined $name; |
568 | |
569 | return $constraint; |
570 | } |
571 | |
e85d2a5d |
572 | sub _install_type_coercions ($$) { |
180899ed |
573 | my ( $type_name, $coercion_map ) = @_; |
e606ae5f |
574 | my $type = find_type_constraint($type_name); |
180899ed |
575 | ( defined $type ) |
576 | || __PACKAGE__->_throw_error( |
a885c019 |
577 | "Cannot find type '$type_name', perhaps you forgot to load it"); |
180899ed |
578 | if ( $type->has_coercion ) { |
41e007e4 |
579 | $type->coercion->add_type_coercions(@$coercion_map); |
580 | } |
581 | else { |
582 | my $type_coercion = Moose::Meta::TypeCoercion->new( |
583 | type_coercion_map => $coercion_map, |
584 | type_constraint => $type |
585 | ); |
586 | $type->coercion($type_coercion); |
587 | } |
d9b40005 |
588 | } |
589 | |
590 | ## -------------------------------------------------------- |
f1917f58 |
591 | ## type notation parsing ... |
592 | ## -------------------------------------------------------- |
593 | |
594 | { |
180899ed |
595 | |
e85d2a5d |
596 | # All I have to say is mugwump++ cause I know |
597 | # do not even have enough regexp-fu to be able |
598 | # to have written this (I can only barely |
f1917f58 |
599 | # understand it as it is) |
e85d2a5d |
600 | # - SL |
601 | |
f1917f58 |
602 | use re "eval"; |
603 | |
eee1a213 |
604 | my $valid_chars = qr{[\w:\.]}; |
68d5a469 |
605 | my $type_atom = qr{ (?>$valid_chars+) }x; |
68113f48 |
606 | my $ws = qr{ (?>\s*) }x; |
607 | my $op_union = qr{ $ws \| $ws }x; |
608 | |
609 | my ($type, $type_capture_parts, $type_with_parameter, $union, $any); |
610 | if (Class::MOP::IS_RUNNING_ON_5_10) { |
611 | my $type_pattern |
612 | = q{ (?&type_atom) (?: \[ (?&ws) (?&any) (?&ws) \] )? }; |
613 | my $type_capture_parts_pattern |
614 | = q{ ((?&type_atom)) (?: \[ (?&ws) ((?&any)) (?&ws) \] )? }; |
615 | my $type_with_parameter_pattern |
616 | = q{ (?&type_atom) \[ (?&ws) (?&any) (?&ws) \] }; |
617 | my $union_pattern |
618 | = q{ (?&type) (?> (?: (?&op_union) (?&type) )+ ) }; |
619 | my $any_pattern |
620 | = q{ (?&type) | (?&union) }; |
621 | |
622 | my $defines = qr{(?(DEFINE) |
623 | (?<valid_chars> $valid_chars) |
624 | (?<type_atom> $type_atom) |
625 | (?<ws> $ws) |
626 | (?<op_union> $op_union) |
627 | (?<type> $type_pattern) |
628 | (?<type_capture_parts> $type_capture_parts_pattern) |
629 | (?<type_with_parameter> $type_with_parameter_pattern) |
630 | (?<union> $union_pattern) |
631 | (?<any> $any_pattern) |
632 | )}x; |
633 | |
634 | $type = qr{ $type_pattern $defines }x; |
635 | $type_capture_parts = qr{ $type_capture_parts_pattern $defines }x; |
636 | $type_with_parameter = qr{ $type_with_parameter_pattern $defines }x; |
637 | $union = qr{ $union_pattern $defines }x; |
638 | $any = qr{ $any_pattern $defines }x; |
639 | } |
640 | else { |
641 | $type |
642 | = qr{ $type_atom (?: \[ $ws (??{$any}) $ws \] )? }x; |
643 | $type_capture_parts |
644 | = qr{ ($type_atom) (?: \[ $ws ((??{$any})) $ws \] )? }x; |
645 | $type_with_parameter |
646 | = qr{ $type_atom \[ $ws (??{$any}) $ws \] }x; |
647 | $union |
648 | = qr{ $type (?> (?: $op_union $type )+ ) }x; |
649 | $any |
650 | = qr{ $type | $union }x; |
651 | } |
f1917f58 |
652 | |
f1917f58 |
653 | |
0fbd4b0a |
654 | sub _parse_parameterized_type_constraint { |
180899ed |
655 | { no warnings 'void'; $any; } # force capture of interpolated lexical |
84a9c64c |
656 | $_[0] =~ m{ $type_capture_parts }x; |
180899ed |
657 | return ( $1, $2 ); |
f1917f58 |
658 | } |
659 | |
0fbd4b0a |
660 | sub _detect_parameterized_type_constraint { |
180899ed |
661 | { no warnings 'void'; $any; } # force capture of interpolated lexical |
e85d2a5d |
662 | $_[0] =~ m{ ^ $type_with_parameter $ }x; |
f1917f58 |
663 | } |
664 | |
665 | sub _parse_type_constraint_union { |
180899ed |
666 | { no warnings 'void'; $any; } # force capture of interpolated lexical |
e85d2a5d |
667 | my $given = shift; |
668 | my @rv; |
669 | while ( $given =~ m{ \G (?: $op_union )? ($type) }gcx ) { |
82a5b1a7 |
670 | push @rv => $1; |
e85d2a5d |
671 | } |
180899ed |
672 | ( pos($given) eq length($given) ) |
673 | || __PACKAGE__->_throw_error( "'$given' didn't parse (parse-pos=" |
674 | . pos($given) |
675 | . " and str-length=" |
676 | . length($given) |
677 | . ")" ); |
e85d2a5d |
678 | @rv; |
f1917f58 |
679 | } |
680 | |
681 | sub _detect_type_constraint_union { |
180899ed |
682 | { no warnings 'void'; $any; } # force capture of interpolated lexical |
e85d2a5d |
683 | $_[0] =~ m{^ $type $op_union $type ( $op_union .* )? $}x; |
f1917f58 |
684 | } |
685 | } |
686 | |
687 | ## -------------------------------------------------------- |
d9b40005 |
688 | # define some basic built-in types |
689 | ## -------------------------------------------------------- |
a15dff8d |
690 | |
06d02aac |
691 | # By making these classes immutable before creating all the types in |
692 | # Moose::Util::TypeConstraints::Builtin , we avoid repeatedly calling the slow |
693 | # MOP-based accessors. |
3cae4250 |
694 | $_->make_immutable( |
695 | inline_constructor => 1, |
696 | constructor_name => "_new", |
697 | |
698 | # these are Class::MOP accessors, so they need inlining |
699 | inline_accessors => 1 |
700 | ) for grep { $_->is_mutable } |
37edf27e |
701 | map { Class::MOP::class_of($_) } |
3cae4250 |
702 | qw( |
703 | Moose::Meta::TypeConstraint |
704 | Moose::Meta::TypeConstraint::Union |
705 | Moose::Meta::TypeConstraint::Parameterized |
706 | Moose::Meta::TypeConstraint::Parameterizable |
707 | Moose::Meta::TypeConstraint::Class |
708 | Moose::Meta::TypeConstraint::Role |
709 | Moose::Meta::TypeConstraint::Enum |
0a6bff54 |
710 | Moose::Meta::TypeConstraint::DuckType |
3cae4250 |
711 | Moose::Meta::TypeConstraint::Registry |
712 | ); |
713 | |
06d02aac |
714 | require Moose::Util::TypeConstraints::Builtins; |
715 | Moose::Util::TypeConstraints::Builtins::define_builtins($REGISTRY); |
7e4e1ad4 |
716 | |
180899ed |
717 | my @PARAMETERIZABLE_TYPES |
2c29c0e7 |
718 | = map { $REGISTRY->get_type_constraint($_) } qw[ScalarRef ArrayRef HashRef Maybe]; |
180899ed |
719 | |
720 | sub get_all_parameterizable_types {@PARAMETERIZABLE_TYPES} |
7e4e1ad4 |
721 | |
4ab662d6 |
722 | sub add_parameterizable_type { |
7e4e1ad4 |
723 | my $type = shift; |
180899ed |
724 | ( blessed $type |
725 | && $type->isa('Moose::Meta::TypeConstraint::Parameterizable') ) |
726 | || __PACKAGE__->_throw_error( |
727 | "Type must be a Moose::Meta::TypeConstraint::Parameterizable not $type" |
728 | ); |
7e4e1ad4 |
729 | push @PARAMETERIZABLE_TYPES => $type; |
4ab662d6 |
730 | } |
7e4e1ad4 |
731 | |
732 | ## -------------------------------------------------------- |
d9b40005 |
733 | # end of built-in types ... |
734 | ## -------------------------------------------------------- |
735 | |
943596a6 |
736 | { |
737 | my @BUILTINS = list_all_type_constraints(); |
180899ed |
738 | sub list_all_builtin_type_constraints {@BUILTINS} |
943596a6 |
739 | } |
740 | |
6ea98933 |
741 | sub _throw_error { |
6b83828f |
742 | shift; |
6ea98933 |
743 | require Moose; |
744 | unshift @_, 'Moose'; |
745 | goto &Moose::throw_error; |
746 | } |
747 | |
a15dff8d |
748 | 1; |
749 | |
ad46f524 |
750 | # ABSTRACT: Type constraint system for Moose |
751 | |
a15dff8d |
752 | __END__ |
753 | |
754 | =pod |
755 | |
a15dff8d |
756 | =head1 SYNOPSIS |
757 | |
758 | use Moose::Util::TypeConstraints; |
759 | |
04eec387 |
760 | subtype 'Natural', |
761 | as 'Int', |
762 | where { $_ > 0 }; |
e85d2a5d |
763 | |
04eec387 |
764 | subtype 'NaturalLessThanTen', |
765 | as 'Natural', |
766 | where { $_ < 10 }, |
767 | message { "This number ($_) is not less than ten!" }; |
e85d2a5d |
768 | |
04eec387 |
769 | coerce 'Num', |
770 | from 'Str', |
771 | via { 0+$_ }; |
e85d2a5d |
772 | |
00954dd1 |
773 | class_type 'DateTimeClass', { class => 'DateTime' }; |
83aa5247 |
774 | |
775 | role_type 'Barks', { role => 'Some::Library::Role::Barks' }; |
776 | |
04eec387 |
777 | enum 'RGBColors', [qw(red green blue)]; |
a15dff8d |
778 | |
74dccf76 |
779 | union 'StringOrArray', [qw( String Array )]; |
780 | |
e7fcb7b2 |
781 | no Moose::Util::TypeConstraints; |
782 | |
a15dff8d |
783 | =head1 DESCRIPTION |
784 | |
e85d2a5d |
785 | This module provides Moose with the ability to create custom type |
6549b0d1 |
786 | constraints to be used in attribute definition. |
e522431d |
787 | |
6ba6d68c |
788 | =head2 Important Caveat |
789 | |
e85d2a5d |
790 | This is B<NOT> a type system for Perl 5. These are type constraints, |
791 | and they are not used by Moose unless you tell it to. No type |
e7fcb7b2 |
792 | inference is performed, expressions are not typed, etc. etc. etc. |
6ba6d68c |
793 | |
e7fcb7b2 |
794 | A type constraint is at heart a small "check if a value is valid" |
795 | function. A constraint can be associated with an attribute. This |
796 | simplifies parameter validation, and makes your code clearer to read, |
797 | because you can refer to constraints by name. |
6ba6d68c |
798 | |
2c0cbef7 |
799 | =head2 Slightly Less Important Caveat |
800 | |
e7fcb7b2 |
801 | It is B<always> a good idea to quote your type names. |
004222dc |
802 | |
e7fcb7b2 |
803 | This prevents Perl from trying to execute the call as an indirect |
804 | object call. This can be an issue when you have a subtype with the |
805 | same name as a valid class. |
2c0cbef7 |
806 | |
e7fcb7b2 |
807 | For instance: |
e85d2a5d |
808 | |
2c0cbef7 |
809 | subtype DateTime => as Object => where { $_->isa('DateTime') }; |
810 | |
e7fcb7b2 |
811 | will I<just work>, while this: |
2c0cbef7 |
812 | |
813 | use DateTime; |
814 | subtype DateTime => as Object => where { $_->isa('DateTime') }; |
815 | |
e85d2a5d |
816 | will fail silently and cause many headaches. The simple way to solve |
817 | this, as well as future proof your subtypes from classes which have |
e7fcb7b2 |
818 | yet to have been created, is to quote the type name: |
2c0cbef7 |
819 | |
820 | use DateTime; |
04eec387 |
821 | subtype 'DateTime', as 'Object', where { $_->isa('DateTime') }; |
2c0cbef7 |
822 | |
6ba6d68c |
823 | =head2 Default Type Constraints |
e522431d |
824 | |
e606ae5f |
825 | This module also provides a simple hierarchy for Perl 5 types, here is |
004222dc |
826 | that hierarchy represented visually. |
e522431d |
827 | |
828 | Any |
e85d2a5d |
829 | Item |
5a4c5493 |
830 | Bool |
7e4e1ad4 |
831 | Maybe[`a] |
f65cb534 |
832 | Undef |
833 | Defined |
5a4c5493 |
834 | Value |
5a4c5493 |
835 | Str |
f1bbe1e1 |
836 | Num |
837 | Int |
fcb5b0cd |
838 | ClassName |
839 | RoleName |
5a4c5493 |
840 | Ref |
2c29c0e7 |
841 | ScalarRef[`a] |
7e4e1ad4 |
842 | ArrayRef[`a] |
843 | HashRef[`a] |
5a4c5493 |
844 | CodeRef |
845 | RegexpRef |
3f7376b0 |
846 | GlobRef |
94ab1609 |
847 | FileHandle |
e85d2a5d |
848 | Object |
e522431d |
849 | |
4ab662d6 |
850 | B<NOTE:> Any type followed by a type parameter C<[`a]> can be |
7e4e1ad4 |
851 | parameterized, this means you can say: |
852 | |
757e07ef |
853 | ArrayRef[Int] # an array of integers |
7e4e1ad4 |
854 | HashRef[CodeRef] # a hash of str to CODE ref mappings |
2c29c0e7 |
855 | ScalarRef[Int] # a reference to an integer |
7e4e1ad4 |
856 | Maybe[Str] # value may be a string, may be undefined |
857 | |
4e8a0f64 |
858 | If Moose finds a name in brackets that it does not recognize as an |
859 | existing type, it assumes that this is a class name, for example |
860 | C<ArrayRef[DateTime]>. |
861 | |
e7fcb7b2 |
862 | B<NOTE:> Unless you parameterize a type, then it is invalid to include |
863 | the square brackets. I.e. C<ArrayRef[]> will be treated as a new type |
864 | name, I<not> as a parameterization of C<ArrayRef>. |
e606ae5f |
865 | |
4ab662d6 |
866 | B<NOTE:> The C<Undef> type constraint for the most part works |
867 | correctly now, but edge cases may still exist, please use it |
6549b0d1 |
868 | sparingly. |
703e92fb |
869 | |
7e4e1ad4 |
870 | B<NOTE:> The C<ClassName> type constraint does a complex package |
e7fcb7b2 |
871 | existence check. This means that your class B<must> be loaded for this |
872 | type constraint to pass. |
9af1d28b |
873 | |
e7fcb7b2 |
874 | B<NOTE:> The C<RoleName> constraint checks a string is a I<package |
4831e2de |
875 | name> which is a role, like C<'MyApp::Role::Comparable'>. |
ed87d4fd |
876 | |
e606ae5f |
877 | =head2 Type Constraint Naming |
004222dc |
878 | |
eee1a213 |
879 | Type name declared via this module can only contain alphanumeric |
880 | characters, colons (:), and periods (.). |
881 | |
e606ae5f |
882 | Since the types created by this module are global, it is suggested |
883 | that you namespace your types just as you would namespace your |
e7fcb7b2 |
884 | modules. So instead of creating a I<Color> type for your |
885 | B<My::Graphics> module, you would call the type |
886 | I<My::Graphics::Types::Color> instead. |
004222dc |
887 | |
703e92fb |
888 | =head2 Use with Other Constraint Modules |
889 | |
e7fcb7b2 |
890 | This module can play nicely with other constraint modules with some |
891 | slight tweaking. The C<where> clause in types is expected to be a |
69229b40 |
892 | C<CODE> reference which checks its first argument and returns a |
e7fcb7b2 |
893 | boolean. Since most constraint modules work in a similar way, it |
894 | should be simple to adapt them to work with Moose. |
703e92fb |
895 | |
e85d2a5d |
896 | For instance, this is how you could use it with |
897 | L<Declare::Constraints::Simple> to declare a completely new type. |
703e92fb |
898 | |
9e856c83 |
899 | type 'HashOfArrayOfObjects', |
04eec387 |
900 | where { |
901 | IsHashRef( |
902 | -keys => HasLength, |
903 | -values => IsArrayRef(IsObject) |
904 | )->(@_); |
905 | }; |
703e92fb |
906 | |
2c739d1a |
907 | For more examples see the F<t/examples/example_w_DCS.t> test |
e7fcb7b2 |
908 | file. |
703e92fb |
909 | |
69229b40 |
910 | Here is an example of using L<Test::Deep> and its non-test |
e85d2a5d |
911 | related C<eq_deeply> function. |
703e92fb |
912 | |
04eec387 |
913 | type 'ArrayOfHashOfBarsAndRandomNumbers', |
914 | where { |
e85d2a5d |
915 | eq_deeply($_, |
703e92fb |
916 | array_each(subhashof({ |
917 | bar => isa('Bar'), |
918 | random_number => ignore() |
e85d2a5d |
919 | }))) |
703e92fb |
920 | }; |
921 | |
e606ae5f |
922 | For a complete example see the |
2c739d1a |
923 | F<t/examples/example_w_TestDeep.t> test file. |
e85d2a5d |
924 | |
32549612 |
925 | =head2 Error messages |
926 | |
927 | Type constraints can also specify custom error messages, for when they fail to |
928 | validate. This is provided as just another coderef, which receives the invalid |
929 | value in C<$_>, as in: |
930 | |
931 | subtype 'PositiveInt', |
932 | as 'Int', |
933 | where { $_ > 0 }, |
934 | message { "$_ is not a positive integer!" }; |
935 | |
936 | If no message is specified, a default message will be used, which indicates |
937 | which type constraint was being used and what value failed. If |
938 | L<Devel::PartialDump> (version 0.14 or higher) is installed, it will be used to |
939 | display the invalid value, otherwise it will just be printed as is. |
940 | |
a15dff8d |
941 | =head1 FUNCTIONS |
942 | |
943 | =head2 Type Constraint Constructors |
944 | |
e7fcb7b2 |
945 | The following functions are used to create type constraints. They |
946 | will also register the type constraints your create in a global |
947 | registry that is used to look types up by name. |
a15dff8d |
948 | |
cec39889 |
949 | See the L</SYNOPSIS> for an example of how to use these. |
a15dff8d |
950 | |
6ba6d68c |
951 | =over 4 |
a15dff8d |
952 | |
04eec387 |
953 | =item B<< subtype 'Name', as 'Parent', where { } ... >> |
182134e8 |
954 | |
e85d2a5d |
955 | This creates a named subtype. |
d6e2d9a1 |
956 | |
dba9208a |
957 | If you provide a parent that Moose does not recognize, it will |
958 | automatically create a new class type constraint for this name. |
959 | |
9e856c83 |
960 | When creating a named type, the C<subtype> function should either be |
961 | called with the sugar helpers (C<where>, C<message>, etc), or with a |
962 | name and a hashref of parameters: |
963 | |
964 | subtype( 'Foo', { where => ..., message => ... } ); |
965 | |
966 | The valid hashref keys are C<as> (the parent), C<where>, C<message>, |
967 | and C<optimize_as>. |
9a63faba |
968 | |
04eec387 |
969 | =item B<< subtype as 'Parent', where { } ... >> |
182134e8 |
970 | |
e85d2a5d |
971 | This creates an unnamed subtype and will return the type |
972 | constraint meta-object, which will be an instance of |
973 | L<Moose::Meta::TypeConstraint>. |
a15dff8d |
974 | |
9e856c83 |
975 | When creating an anonymous type, the C<subtype> function should either |
976 | be called with the sugar helpers (C<where>, C<message>, etc), or with |
977 | just a hashref of parameters: |
978 | |
979 | subtype( { where => ..., message => ... } ); |
980 | |
620db045 |
981 | =item B<class_type ($class, ?$options)> |
3fef8ce8 |
982 | |
ed87d4fd |
983 | Creates a new subtype of C<Object> with the name C<$class> and the |
984 | metaclass L<Moose::Meta::TypeConstraint::Class>. |
3fef8ce8 |
985 | |
83aa5247 |
986 | # Create a type called 'Box' which tests for objects which ->isa('Box') |
987 | class_type 'Box'; |
988 | |
00954dd1 |
989 | By default, the name of the type and the name of the class are the same, but |
990 | you can specify both separately. |
83aa5247 |
991 | |
992 | # Create a type called 'Box' which tests for objects which ->isa('ObjectLibrary::Box'); |
993 | class_type 'Box', { class => 'ObjectLibrary::Box' }; |
994 | |
620db045 |
995 | =item B<role_type ($role, ?$options)> |
996 | |
ed87d4fd |
997 | Creates a C<Role> type constraint with the name C<$role> and the |
998 | metaclass L<Moose::Meta::TypeConstraint::Role>. |
620db045 |
999 | |
83aa5247 |
1000 | # Create a type called 'Walks' which tests for objects which ->does('Walks') |
1001 | role_type 'Walks'; |
1002 | |
00954dd1 |
1003 | By default, the name of the type and the name of the role are the same, but |
1004 | you can specify both separately. |
83aa5247 |
1005 | |
1006 | # Create a type called 'Walks' which tests for objects which ->does('MooseX::Role::Walks'); |
1007 | role_type 'Walks', { role => 'MooseX::Role::Walks' }; |
1008 | |
1b2c9bda |
1009 | =item B<maybe_type ($type)> |
1010 | |
1011 | Creates a type constraint for either C<undef> or something of the |
1012 | given type. |
1013 | |
bce5d4a5 |
1014 | =item B<duck_type ($name, \@methods)> |
e451e855 |
1015 | |
88b68372 |
1016 | This will create a subtype of Object and test to make sure the value |
bce5d4a5 |
1017 | C<can()> do the methods in C<\@methods>. |
88b68372 |
1018 | |
1019 | This is intended as an easy way to accept non-Moose objects that |
1020 | provide a certain interface. If you're using Moose classes, we |
1021 | recommend that you use a C<requires>-only Role instead. |
e451e855 |
1022 | |
1023 | =item B<duck_type (\@methods)> |
1024 | |
bce5d4a5 |
1025 | If passed an ARRAY reference as the only parameter instead of the |
1026 | C<$name>, C<\@methods> pair, this will create an unnamed duck type. |
1027 | This can be used in an attribute definition like so: |
e451e855 |
1028 | |
88b68372 |
1029 | has 'cache' => ( |
1030 | is => 'ro', |
1031 | isa => duck_type( [qw( get_set )] ), |
1032 | ); |
e451e855 |
1033 | |
bce5d4a5 |
1034 | =item B<enum ($name, \@values)> |
fcec2383 |
1035 | |
e85d2a5d |
1036 | This will create a basic subtype for a given set of strings. |
1037 | The resulting constraint will be a subtype of C<Str> and |
bce5d4a5 |
1038 | will match any of the items in C<\@values>. It is case sensitive. |
cec39889 |
1039 | See the L</SYNOPSIS> for a simple example. |
2c0cbef7 |
1040 | |
6549b0d1 |
1041 | B<NOTE:> This is not a true proper enum type, it is simply |
1042 | a convenient constraint builder. |
2c0cbef7 |
1043 | |
9f4334a1 |
1044 | =item B<enum (\@values)> |
1045 | |
bce5d4a5 |
1046 | If passed an ARRAY reference as the only parameter instead of the |
1047 | C<$name>, C<\@values> pair, this will create an unnamed enum. This |
1048 | can then be used in an attribute definition like so: |
9f4334a1 |
1049 | |
1050 | has 'sort_order' => ( |
1051 | is => 'ro', |
4ab662d6 |
1052 | isa => enum([qw[ ascending descending ]]), |
9f4334a1 |
1053 | ); |
1054 | |
74dccf76 |
1055 | =item B<union ($name, \@constraints)> |
1056 | |
1057 | This will create a basic subtype where any of the provided constraints |
1058 | may match in order to satisfy this constraint. |
1059 | |
1060 | =item B<union (\@constraints)> |
1061 | |
1062 | If passed an ARRAY reference as the only parameter instead of the |
1063 | C<$name>, C<\@constraints> pair, this will create an unnamed union. |
1064 | This can then be used in an attribute definition like so: |
1065 | |
1066 | has 'items' => ( |
1067 | is => 'ro', |
1068 | isa => union([qw[ Str ArrayRef ]]), |
1069 | ); |
1070 | |
1071 | This is similar to the existing string union: |
1072 | |
1073 | isa => 'Str|ArrayRef' |
1074 | |
1075 | except that it supports anonymous elements as child constraints: |
1076 | |
1077 | has 'color' => ( |
1078 | isa => 'ro', |
1079 | isa => union([ 'Int', enum([qw[ red green blue ]]) ]), |
1080 | ); |
1081 | |
e7fcb7b2 |
1082 | =item B<as 'Parent'> |
a15dff8d |
1083 | |
6ba6d68c |
1084 | This is just sugar for the type constraint construction syntax. |
a15dff8d |
1085 | |
e7fcb7b2 |
1086 | It takes a single argument, which is the name of a parent type. |
1087 | |
1088 | =item B<where { ... }> |
a15dff8d |
1089 | |
6ba6d68c |
1090 | This is just sugar for the type constraint construction syntax. |
76d37e5a |
1091 | |
e7fcb7b2 |
1092 | It takes a subroutine reference as an argument. When the type |
1093 | constraint is tested, the reference is run with the value to be tested |
1094 | in C<$_>. This reference should return true or false to indicate |
1095 | whether or not the constraint check passed. |
e606ae5f |
1096 | |
e7fcb7b2 |
1097 | =item B<message { ... }> |
76d37e5a |
1098 | |
1099 | This is just sugar for the type constraint construction syntax. |
a15dff8d |
1100 | |
e7fcb7b2 |
1101 | It takes a subroutine reference as an argument. When the type |
1102 | constraint fails, then the code block is run with the value provided |
1103 | in C<$_>. This reference should return a string, which will be used in |
1104 | the text of the exception thrown. |
e606ae5f |
1105 | |
7142d232 |
1106 | =item B<inline_as { ... }> |
1107 | |
1108 | This can be used to define a "hand optimized" inlinable version of your type |
1109 | constraint. |
1110 | |
1111 | You provide a subroutine which will be called I<as a method> on a |
1112 | L<Moose::Meta::TypeConstraint> object. It will receive a single parameter, the |
1113 | name of the variable to check, typically something like C<"$_"> or C<"$_[0]">. |
1114 | |
1115 | The subroutine should return a code string suitable for inlining. You can |
297899d1 |
1116 | assume that the check will be wrapped in parentheses when it is inlined. |
7142d232 |
1117 | |
01062d8a |
1118 | The inlined code should include any checks that your type's parent types |
0578d5ce |
1119 | do. For example, the C<Value> type's inlining sub looks like this: |
7142d232 |
1120 | |
1121 | sub { |
0578d5ce |
1122 | 'defined(' . $_[1] . ')' |
1123 | . ' && !ref(' . $_[1] . ')' |
7142d232 |
1124 | } |
1125 | |
0578d5ce |
1126 | Note that it checks if the variable is defined, since it is a subtype of |
1127 | the C<Defined> type. However, to avoid repeating code, this can be optimized as: |
1128 | |
1129 | sub { |
1130 | $_[0]->parent()->_inline_check($_[1]) |
1131 | . ' && !ref(' . $_[1] . ')' |
1132 | } |
7142d232 |
1133 | |
e7fcb7b2 |
1134 | =item B<optimize_as { ... }> |
8ecb1fa0 |
1135 | |
7142d232 |
1136 | B<This feature is deprecated, use C<inline_as> instead.> |
1137 | |
e85d2a5d |
1138 | This can be used to define a "hand optimized" version of your |
d44714be |
1139 | type constraint which can be used to avoid traversing a subtype |
6549b0d1 |
1140 | constraint hierarchy. |
d44714be |
1141 | |
b0f8f0ec |
1142 | B<NOTE:> You should only use this if you know what you are doing. |
1143 | All the built in types use this, so your subtypes (assuming they |
d44714be |
1144 | are shallow) will not likely need to use this. |
1145 | |
04eec387 |
1146 | =item B<< type 'Name', where { } ... >> |
e7fcb7b2 |
1147 | |
1148 | This creates a base type, which has no parent. |
1149 | |
1150 | The C<type> function should either be called with the sugar helpers |
1151 | (C<where>, C<message>, etc), or with a name and a hashref of |
1152 | parameters: |
1153 | |
1154 | type( 'Foo', { where => ..., message => ... } ); |
1155 | |
7142d232 |
1156 | The valid hashref keys are C<where>, C<message>, and C<inlined_as>. |
e7fcb7b2 |
1157 | |
6ba6d68c |
1158 | =back |
a15dff8d |
1159 | |
0d29b772 |
1160 | =head2 Type Constraint Utilities |
1161 | |
1162 | =over 4 |
1163 | |
1164 | =item B<< match_on_type $value => ( $type => \&action, ... ?\&default ) >> |
1165 | |
1a15f4a8 |
1166 | This is a utility function for doing simple type based dispatching similar to |
2ae1457e |
1167 | match/case in OCaml and case/of in Haskell. It is not as featureful as those |
1a15f4a8 |
1168 | languages, nor does not it support any kind of automatic destructuring |
1169 | bind. Here is a simple Perl pretty printer dispatching over the core Moose |
1170 | types. |
0d29b772 |
1171 | |
1172 | sub ppprint { |
1173 | my $x = shift; |
1a15f4a8 |
1174 | match_on_type $x => ( |
1175 | HashRef => sub { |
0d29b772 |
1176 | my $hash = shift; |
1a15f4a8 |
1177 | '{ ' |
1178 | . ( |
1179 | join ", " => map { $_ . ' => ' . ppprint( $hash->{$_} ) } |
1180 | sort keys %$hash |
1181 | ) . ' }'; |
1182 | }, |
1183 | ArrayRef => sub { |
0d29b772 |
1184 | my $array = shift; |
1a15f4a8 |
1185 | '[ ' . ( join ", " => map { ppprint($_) } @$array ) . ' ]'; |
1186 | }, |
1187 | CodeRef => sub {'sub { ... }'}, |
1188 | RegexpRef => sub { 'qr/' . $_ . '/' }, |
1189 | GlobRef => sub { '*' . B::svref_2object($_)->NAME }, |
0d29b772 |
1190 | Object => sub { $_->can('to_string') ? $_->to_string : $_ }, |
1a15f4a8 |
1191 | ScalarRef => sub { '\\' . ppprint( ${$_} ) }, |
1192 | Num => sub {$_}, |
1193 | Str => sub { '"' . $_ . '"' }, |
1194 | Undef => sub {'undef'}, |
1195 | => sub { die "I don't know what $_ is" } |
1196 | ); |
0d29b772 |
1197 | } |
1198 | |
e7597637 |
1199 | Or a simple JSON serializer: |
1200 | |
1201 | sub to_json { |
1202 | my $x = shift; |
1a15f4a8 |
1203 | match_on_type $x => ( |
1204 | HashRef => sub { |
e7597637 |
1205 | my $hash = shift; |
1a15f4a8 |
1206 | '{ ' |
1207 | . ( |
1208 | join ", " => |
1209 | map { '"' . $_ . '" : ' . to_json( $hash->{$_} ) } |
1210 | sort keys %$hash |
1211 | ) . ' }'; |
1212 | }, |
1213 | ArrayRef => sub { |
e7597637 |
1214 | my $array = shift; |
1a15f4a8 |
1215 | '[ ' . ( join ", " => map { to_json($_) } @$array ) . ' ]'; |
1216 | }, |
1217 | Num => sub {$_}, |
1218 | Str => sub { '"' . $_ . '"' }, |
1219 | Undef => sub {'null'}, |
1220 | => sub { die "$_ is not acceptable json type" } |
1221 | ); |
e7597637 |
1222 | } |
1223 | |
1a15f4a8 |
1224 | The matcher is done by mapping a C<$type> to an C<\&action>. The C<$type> can |
1225 | be either a string type or a L<Moose::Meta::TypeConstraint> object, and |
1226 | C<\&action> is a subroutine reference. This function will dispatch on the |
1227 | first match for C<$value>. It is possible to have a catch-all by providing an |
1228 | additional subroutine reference as the final argument to C<match_on_type>. |
0d29b772 |
1229 | |
1230 | =back |
1231 | |
6ba6d68c |
1232 | =head2 Type Coercion Constructors |
a15dff8d |
1233 | |
e7fcb7b2 |
1234 | You can define coercions for type constraints, which allow you to |
1235 | automatically transform values to something valid for the type |
1236 | constraint. If you ask your accessor to coerce, then Moose will run |
1237 | the type-coercion code first, followed by the type constraint |
1238 | check. This feature should be used carefully as it is very powerful |
1239 | and could easily take off a limb if you are not careful. |
a15dff8d |
1240 | |
cec39889 |
1241 | See the L</SYNOPSIS> for an example of how to use these. |
a15dff8d |
1242 | |
6ba6d68c |
1243 | =over 4 |
a15dff8d |
1244 | |
04eec387 |
1245 | =item B<< coerce 'Name', from 'OtherName', via { ... } >> |
a15dff8d |
1246 | |
e7fcb7b2 |
1247 | This defines a coercion from one type to another. The C<Name> argument |
1248 | is the type you are coercing I<to>. |
1249 | |
f55dd47f |
1250 | To define multiple coercions, supply more sets of from/via pairs: |
1251 | |
04eec387 |
1252 | coerce 'Name', |
1253 | from 'OtherName', via { ... }, |
1254 | from 'ThirdName', via { ... }; |
f55dd47f |
1255 | |
e7fcb7b2 |
1256 | =item B<from 'OtherName'> |
a15dff8d |
1257 | |
6ba6d68c |
1258 | This is just sugar for the type coercion construction syntax. |
1259 | |
e7fcb7b2 |
1260 | It takes a single type name (or type object), which is the type being |
1261 | coerced I<from>. |
1262 | |
1263 | =item B<via { ... }> |
a15dff8d |
1264 | |
6ba6d68c |
1265 | This is just sugar for the type coercion construction syntax. |
a15dff8d |
1266 | |
e7fcb7b2 |
1267 | It takes a subroutine reference. This reference will be called with |
1268 | the value to be coerced in C<$_>. It is expected to return a new value |
1269 | of the proper type for the coercion. |
1270 | |
a15dff8d |
1271 | =back |
1272 | |
e7fcb7b2 |
1273 | =head2 Creating and Finding Type Constraints |
1274 | |
1275 | These are additional functions for creating and finding type |
1276 | constraints. Most of these functions are not available for |
1277 | importing. The ones that are importable as specified. |
004222dc |
1278 | |
1279 | =over 4 |
1280 | |
e7fcb7b2 |
1281 | =item B<find_type_constraint($type_name)> |
eb4c4e82 |
1282 | |
e7fcb7b2 |
1283 | This function can be used to locate the L<Moose::Meta::TypeConstraint> |
1284 | object for a named type. |
eb4c4e82 |
1285 | |
e7fcb7b2 |
1286 | This function is importable. |
004222dc |
1287 | |
e7fcb7b2 |
1288 | =item B<register_type_constraint($type_object)> |
004222dc |
1289 | |
e7fcb7b2 |
1290 | This function will register a L<Moose::Meta::TypeConstraint> with the |
1291 | global type registry. |
004222dc |
1292 | |
e7fcb7b2 |
1293 | This function is importable. |
004222dc |
1294 | |
e7fcb7b2 |
1295 | =item B<normalize_type_constraint_name($type_constraint_name)> |
004222dc |
1296 | |
e7fcb7b2 |
1297 | This method takes a type constraint name and returns the normalized |
1298 | form. This removes any whitespace in the string. |
004222dc |
1299 | |
e7fcb7b2 |
1300 | =item B<create_type_constraint_union($pipe_separated_types | @type_constraint_names)> |
004222dc |
1301 | |
2dae61ad |
1302 | =item B<create_named_type_constraint_union($name, $pipe_separated_types | @type_constraint_names)> |
1303 | |
e7fcb7b2 |
1304 | This can take a union type specification like C<'Int|ArrayRef[Int]'>, |
1305 | or a list of names. It returns a new |
1306 | L<Moose::Meta::TypeConstraint::Union> object. |
004222dc |
1307 | |
e7fcb7b2 |
1308 | =item B<create_parameterized_type_constraint($type_name)> |
620db045 |
1309 | |
e7fcb7b2 |
1310 | Given a C<$type_name> in the form of C<'BaseType[ContainerType]'>, |
1311 | this will create a new L<Moose::Meta::TypeConstraint::Parameterized> |
1312 | object. The C<BaseType> must exist already exist as a parameterizable |
1313 | type. |
620db045 |
1314 | |
e7fcb7b2 |
1315 | =item B<create_class_type_constraint($class, $options)> |
dabed765 |
1316 | |
e7fcb7b2 |
1317 | Given a class name this function will create a new |
1318 | L<Moose::Meta::TypeConstraint::Class> object for that class name. |
004222dc |
1319 | |
e7fcb7b2 |
1320 | The C<$options> is a hash reference that will be passed to the |
1321 | L<Moose::Meta::TypeConstraint::Class> constructor (as a hash). |
620db045 |
1322 | |
e7fcb7b2 |
1323 | =item B<create_role_type_constraint($role, $options)> |
620db045 |
1324 | |
e7fcb7b2 |
1325 | Given a role name this function will create a new |
1326 | L<Moose::Meta::TypeConstraint::Role> object for that role name. |
620db045 |
1327 | |
e7fcb7b2 |
1328 | The C<$options> is a hash reference that will be passed to the |
1329 | L<Moose::Meta::TypeConstraint::Role> constructor (as a hash). |
620db045 |
1330 | |
8a6c8c47 |
1331 | =item B<create_enum_type_constraint($name, $values)> |
1332 | |
1333 | Given a enum name this function will create a new |
1334 | L<Moose::Meta::TypeConstraint::Enum> object for that enum name. |
1335 | |
0a6bff54 |
1336 | =item B<create_duck_type_constraint($name, $methods)> |
1337 | |
1338 | Given a duck type name this function will create a new |
1339 | L<Moose::Meta::TypeConstraint::DuckType> object for that enum name. |
1340 | |
e7fcb7b2 |
1341 | =item B<find_or_parse_type_constraint($type_name)> |
620db045 |
1342 | |
ec4b72d2 |
1343 | Given a type name, this first attempts to find a matching constraint |
e7fcb7b2 |
1344 | in the global registry. |
620db045 |
1345 | |
e7fcb7b2 |
1346 | If the type name is a union or parameterized type, it will create a |
1347 | new object of the appropriate, but if given a "regular" type that does |
1348 | not yet exist, it simply returns false. |
620db045 |
1349 | |
e7fcb7b2 |
1350 | When given a union or parameterized type, the member or base type must |
1351 | already exist. |
620db045 |
1352 | |
e7fcb7b2 |
1353 | If it creates a new union or parameterized type, it will add it to the |
1354 | global registry. |
004222dc |
1355 | |
e7fcb7b2 |
1356 | =item B<find_or_create_isa_type_constraint($type_name)> |
004222dc |
1357 | |
e7fcb7b2 |
1358 | =item B<find_or_create_does_type_constraint($type_name)> |
004222dc |
1359 | |
e7fcb7b2 |
1360 | These functions will first call C<find_or_parse_type_constraint>. If |
72042ad7 |
1361 | that function does not return a type, a new type object will |
e7fcb7b2 |
1362 | be created. |
004222dc |
1363 | |
e7fcb7b2 |
1364 | The C<isa> variant will use C<create_class_type_constraint> and the |
1365 | C<does> variant will use C<create_role_type_constraint>. |
004222dc |
1366 | |
1367 | =item B<get_type_constraint_registry> |
1368 | |
e7fcb7b2 |
1369 | Returns the L<Moose::Meta::TypeConstraint::Registry> object which |
004222dc |
1370 | keeps track of all type constraints. |
1371 | |
1372 | =item B<list_all_type_constraints> |
1373 | |
e7fcb7b2 |
1374 | This will return a list of type constraint names in the global |
1375 | registry. You can then fetch the actual type object using |
1376 | C<find_type_constraint($type_name)>. |
004222dc |
1377 | |
1378 | =item B<list_all_builtin_type_constraints> |
1379 | |
e7fcb7b2 |
1380 | This will return a list of builtin type constraints, meaning those |
1381 | which are defined in this module. See the L<Default Type Constraints> |
1382 | section for a complete list. |
004222dc |
1383 | |
1384 | =item B<export_type_constraints_as_functions> |
1385 | |
e7fcb7b2 |
1386 | This will export all the current type constraints as functions into |
1387 | the caller's namespace (C<Int()>, C<Str()>, etc). Right now, this is |
1388 | mostly used for testing, but it might prove useful to others. |
004222dc |
1389 | |
1390 | =item B<get_all_parameterizable_types> |
1391 | |
e7fcb7b2 |
1392 | This returns all the parameterizable types that have been registered, |
1393 | as a list of type objects. |
004222dc |
1394 | |
e7fcb7b2 |
1395 | =item B<add_parameterizable_type($type)> |
004222dc |
1396 | |
1397 | Adds C<$type> to the list of parameterizable types |
1398 | |
1399 | =back |
1400 | |
a15dff8d |
1401 | =head1 BUGS |
1402 | |
d4048ef3 |
1403 | See L<Moose/BUGS> for details on reporting bugs. |
a15dff8d |
1404 | |
81dc201f |
1405 | =cut |