package Mouse::Util::TypeConstraints; use Mouse::Util qw(does_role not_supported); # enables strict and warnings use Carp qw(confess); use Scalar::Util qw/blessed looks_like_number openhandle/; use Mouse::Meta::TypeConstraint; use Mouse::Exporter; Mouse::Exporter->setup_import_methods( as_is => [qw( as where message optimize_as from via type subtype coerce class_type role_type enum find_type_constraint )], ); my %TYPE; sub as ($) { (as => $_[0]) } sub where (&) { (where => $_[0]) } sub message (&) { (message => $_[0]) } sub optimize_as (&) { (optimize_as => $_[0]) } sub from { @_ } sub via (&) { $_[0] } BEGIN { my %builtins = ( Any => undef, # null check Item => undef, # null check Maybe => undef, # null check Bool => sub { $_[0] ? $_[0] eq '1' : 1 }, Undef => sub { !defined($_[0]) }, Defined => sub { defined($_[0]) }, Value => sub { defined($_[0]) && !ref($_[0]) }, Num => sub { !ref($_[0]) && looks_like_number($_[0]) }, Int => sub { defined($_[0]) && !ref($_[0]) && $_[0] =~ /^-?[0-9]+$/ }, Str => sub { defined($_[0]) && !ref($_[0]) }, Ref => sub { ref($_[0]) }, ScalarRef => sub { ref($_[0]) eq 'SCALAR' }, ArrayRef => sub { ref($_[0]) eq 'ARRAY' }, HashRef => sub { ref($_[0]) eq 'HASH' }, CodeRef => sub { ref($_[0]) eq 'CODE' }, RegexpRef => sub { ref($_[0]) eq 'Regexp' }, GlobRef => sub { ref($_[0]) eq 'GLOB' }, FileHandle => sub { ref($_[0]) eq 'GLOB' && openhandle($_[0]) or blessed($_[0]) && $_[0]->isa("IO::Handle") }, Object => sub { blessed($_[0]) && blessed($_[0]) ne 'Regexp' }, ClassName => sub { Mouse::Util::is_class_loaded($_[0]) }, RoleName => sub { (Mouse::Util::find_meta($_[0]) || return 0)->isa('Mouse::Meta::Role') }, ); while (my ($name, $code) = each %builtins) { $TYPE{$name} = Mouse::Meta::TypeConstraint->new( name => $name, optimized => $code, ); } sub optimized_constraints { # DEPRECATED Carp::cluck('optimized_constraints() has been deprecated'); return \%TYPE; } my @builtins = keys %TYPE; sub list_all_builtin_type_constraints { @builtins } sub list_all_type_constraints { keys %TYPE } } sub _create_type{ my $mode = shift; my $name; my %args; if(@_ == 1 && ref $_[0]){ # @_ : { name => $name, where => ... } %args = %{$_[0]}; } elsif(@_ == 2 && ref $_[1]){ # @_ : $name => { where => ... } $name = $_[0]; %args = %{$_[1]}; } elsif(@_ % 2){ # @_ : $name => ( where => ... ) ($name, %args) = @_; } else{ # @_ : (name => $name, where => ...) %args = @_; } if(!defined $name){ if(!defined($name = $args{name})){ $name = '__ANON__'; } } $args{name} = $name; my $parent; if($mode eq 'subtype'){ $parent = delete $args{as}; if(!$parent){ $parent = delete $args{name}; $name = '__ANON__'; } } my $package_defined_in = $args{package_defined_in} ||= caller(1); my $existing = $TYPE{$name}; if($existing && $existing->{package_defined_in} ne $package_defined_in){ confess("The type constraint '$name' has already been created in " . "$existing->{package_defined_in} and cannot be created again in $package_defined_in"); } $args{constraint} = delete $args{where} if exists $args{where}; $args{optimized} = delete $args{optimized_as} if exists $args{optimized_as}; my $constraint; if($mode eq 'subtype'){ $constraint = find_or_create_isa_type_constraint($parent)->create_child_type(%args); } else{ $constraint = Mouse::Meta::TypeConstraint->new(%args); } return $TYPE{$name} = $constraint; } sub type { return _create_type('type', @_); } sub subtype { return _create_type('subtype', @_); } sub coerce { my $type_name = shift; my $type = find_type_constraint($type_name) or confess("Cannot find type '$type_name', perhaps you forgot to load it."); $type->_add_type_coercions(@_); return; } sub class_type { my($name, $conf) = @_; if ($conf && $conf->{class}) { # No, you're using this wrong warn "class_type() should be class_type(ClassName). Perhaps you're looking for subtype $name => as '$conf->{class}'?"; _create_type 'type', $name => ( as => $conf->{class}, type => 'Class', ); } else { _create_type 'type', $name => ( optimized_as => sub { blessed($_[0]) && $_[0]->isa($name) }, type => 'Class', ); } } sub role_type { my($name, $conf) = @_; my $role = ($conf && $conf->{role}) ? $conf->{role} : $name; _create_type 'type', $name => ( optimized_as => sub { blessed($_[0]) && does_role($_[0], $role) }, type => 'Role', ); } sub typecast_constraints { # DEPRECATED my($class, $pkg, $type, $value) = @_; Carp::croak("wrong arguments count") unless @_ == 4; Carp::cluck("typecast_constraints() has been deprecated, which was an internal utility anyway"); return $type->coerce($value); } sub enum { my($name, %valid); # enum ['small', 'medium', 'large'] if (ref($_[0]) eq 'ARRAY') { %valid = map{ $_ => undef } @{ $_[0] }; $name = sprintf '(%s)', join '|', sort @{$_[0]}; } # enum size => 'small', 'medium', 'large' else{ $name = shift; %valid = map{ $_ => undef } @_; } return _create_type 'type', $name => ( optimized_as => sub{ defined($_[0]) && !ref($_[0]) && exists $valid{$_[0]} }, type => 'Enum', ); } sub _find_or_create_regular_type{ my($spec) = @_; return $TYPE{$spec} if exists $TYPE{$spec}; my $meta = Mouse::Util::get_metaclass_by_name($spec); if(!$meta){ return; } my $check; my $type; if($meta->isa('Mouse::Meta::Role')){ $check = sub{ return blessed($_[0]) && $_[0]->does($spec); }; $type = 'Role'; } else{ $check = sub{ return blessed($_[0]) && $_[0]->isa($spec); }; $type = 'Class'; } return $TYPE{$spec} = Mouse::Meta::TypeConstraint->new( name => $spec, optimized => $check, type => $type, ); } $TYPE{ArrayRef}{constraint_generator} = sub { my($type_parameter) = @_; my $check = $type_parameter->_compiled_type_constraint; return sub{ foreach my $value (@{$_}) { return undef unless $check->($value); } return 1; } }; $TYPE{HashRef}{constraint_generator} = sub { my($type_parameter) = @_; my $check = $type_parameter->_compiled_type_constraint; return sub{ foreach my $value(values %{$_}){ return undef unless $check->($value); } return 1; }; }; # 'Maybe' type accepts 'Any', so it requires parameters $TYPE{Maybe}{constraint_generator} = sub { my($type_parameter) = @_; my $check = $type_parameter->_compiled_type_constraint; return sub{ return !defined($_) || $check->($_); }; }; sub _find_or_create_parameterized_type{ my($base, $param) = @_; my $name = sprintf '%s[%s]', $base->name, $param->name; $TYPE{$name} ||= do{ my $generator = $base->{constraint_generator}; if(!$generator){ confess("The $name constraint cannot be used, because $param doesn't subtype from a parameterizable type"); } Mouse::Meta::TypeConstraint->new( name => $name, parent => $base, constraint => $generator->($param), type => 'Parameterized', ); } } sub _find_or_create_union_type{ my @types = sort{ $a cmp $b } map{ $_->{type_constraints} ? @{$_->{type_constraints}} : $_ } @_; my $name = join '|', @types; $TYPE{$name} ||= do{ return Mouse::Meta::TypeConstraint->new( name => $name, type_constraints => \@types, type => 'Union', ); }; } # The type parser sub _parse_type{ my($spec, $start) = @_; my @list; my $subtype; my $len = length $spec; my $i; for($i = $start; $i < $len; $i++){ my $char = substr($spec, $i, 1); if($char eq '['){ my $base = _find_or_create_regular_type( substr($spec, $start, $i - $start) ) or return; ($i, $subtype) = _parse_type($spec, $i+1) or return; $start = $i+1; # reset push @list, _find_or_create_parameterized_type($base => $subtype); } elsif($char eq ']'){ $len = $i+1; last; } elsif($char eq '|'){ my $type = _find_or_create_regular_type( substr($spec, $start, $i - $start) ); if(!defined $type){ # XXX: Mouse creates a new class type, but Moose does not. $type = class_type( substr($spec, $start, $i - $start) ); } push @list, $type; ($i, $subtype) = _parse_type($spec, $i+1) or return; $start = $i+1; # reset push @list, $subtype; } } if($i - $start){ my $type = _find_or_create_regular_type( substr $spec, $start, $i - $start ); if(defined $type){ push @list, $type; } elsif($start != 0) { # RT #50421 # create a new class type push @list, class_type( substr $spec, $start, $i - $start ); } } if(@list == 0){ return; } elsif(@list == 1){ return ($len, $list[0]); } else{ return ($len, _find_or_create_union_type(@list)); } } sub find_type_constraint { my($spec) = @_; return $spec if blessed($spec) && $spec->isa('Mouse::Meta::TypeConstraint'); $spec =~ s/\s+//g; return $TYPE{$spec}; } sub find_or_parse_type_constraint { my($spec) = @_; return $spec if blessed($spec) && $spec->isa('Mouse::Meta::TypeConstraint'); $spec =~ s/\s+//g; return $TYPE{$spec} || do{ my($pos, $type) = _parse_type($spec, 0); $type; }; } sub find_or_create_does_type_constraint{ return find_or_parse_type_constraint(@_) || role_type(@_); } sub find_or_create_isa_type_constraint { return find_or_parse_type_constraint(@_) || class_type(@_); } 1; __END__ =head1 NAME Mouse::Util::TypeConstraints - Type constraint system for Mouse =head1 VERSION This document describes Mouse version 0.40 =head2 SYNOPSIS use Mouse::Util::TypeConstraints; subtype 'Natural' => as 'Int' => where { $_ > 0 }; subtype 'NaturalLessThanTen' => as 'Natural' => where { $_ < 10 } => message { "This number ($_) is not less than ten!" }; coerce 'Num' => from 'Str' => via { 0+$_ }; enum 'RGBColors' => qw(red green blue); no Mouse::Util::TypeConstraints; =head1 DESCRIPTION This module provides Mouse with the ability to create custom type constraints to be used in attribute definition. =head2 Important Caveat This is B a type system for Perl 5. These are type constraints, and they are not used by Mouse unless you tell it to. No type inference is performed, expressions are not typed, etc. etc. etc. A type constraint is at heart a small "check if a value is valid" function. A constraint can be associated with an attribute. This simplifies parameter validation, and makes your code clearer to read, because you can refer to constraints by name. =head2 Slightly Less Important Caveat It is B a good idea to quote your type names. This prevents Perl from trying to execute the call as an indirect object call. This can be an issue when you have a subtype with the same name as a valid class. For instance: subtype DateTime => as Object => where { $_->isa('DateTime') }; will I, while this: use DateTime; subtype DateTime => as Object => where { $_->isa('DateTime') }; will fail silently and cause many headaches. The simple way to solve this, as well as future proof your subtypes from classes which have yet to have been created, is to quote the type name: use DateTime; subtype 'DateTime' => as 'Object' => where { $_->isa('DateTime') }; =head2 Default Type Constraints This module also provides a simple hierarchy for Perl 5 types, here is that hierarchy represented visually. Any Item Bool Maybe[`a] Undef Defined Value Num Int Str ClassName RoleName Ref ScalarRef ArrayRef[`a] HashRef[`a] CodeRef RegexpRef GlobRef FileHandle Object B Any type followed by a type parameter C<[`a]> can be parameterized, this means you can say: ArrayRef[Int] # an array of integers HashRef[CodeRef] # a hash of str to CODE ref mappings Maybe[Str] # value may be a string, may be undefined If Mouse finds a name in brackets that it does not recognize as an existing type, it assumes that this is a class name, for example C. B Unless you parameterize a type, then it is invalid to include the square brackets. I.e. C will be treated as a new type name, I as a parameterization of C. B The C type constraint for the most part works correctly now, but edge cases may still exist, please use it sparingly. B The C type constraint does a complex package existence check. This means that your class B be loaded for this type constraint to pass. B The C constraint checks a string is a I which is a role, like C<'MyApp::Role::Comparable'>. The C constraint checks that an I the named role. =head2 Type Constraint Naming Type name declared via this module can only contain alphanumeric characters, colons (:), and periods (.). Since the types created by this module are global, it is suggested that you namespace your types just as you would namespace your modules. So instead of creating a I type for your B module, you would call the type I instead. =head2 Use with Other Constraint Modules This module can play nicely with other constraint modules with some slight tweaking. The C clause in types is expected to be a C reference which checks it's first argument and returns a boolean. Since most constraint modules work in a similar way, it should be simple to adapt them to work with Mouse. For instance, this is how you could use it with L to declare a completely new type. type 'HashOfArrayOfObjects', { where => IsHashRef( -keys => HasLength, -values => IsArrayRef(IsObject) ) }; Here is an example of using L and it's non-test related C function. type 'ArrayOfHashOfBarsAndRandomNumbers' => where { eq_deeply($_, array_each(subhashof({ bar => isa('Bar'), random_number => ignore() }))) }; =head1 METHODS =head2 C<< list_all_builtin_type_constraints -> (Names) >> Returns the names of builtin type constraints. =head2 C<< list_all_type_constraints -> (Names) >> Returns the names of all the type constraints. =head1 FUNCTIONS =over 4 =item C<< subtype 'Name' => as 'Parent' => where { } ... -> Mouse::Meta::TypeConstraint >> =item C<< subtype as 'Parent' => where { } ... -> Mouse::Meta::TypeConstraint >> =item C<< class_type ($class, ?$options) -> Mouse::Meta::TypeConstraint >> =item C<< role_type ($role, ?$options) -> Mouse::Meta::TypeConstraint >> =item C<< enum (\@values) -> Mouse::Meta::TypeConstraint >> =back =over 4 =item C<< find_type_constraint(Type) -> Mouse::Meta::TypeConstraint >> =back =head1 THANKS Much of this documentation was taken from C =head1 SEE ALSO L =cut