} elsif(!defined($self->attributes->{Args}[0])) {
# When its 'Args' that internal cue for 'unlimited'
return undef;
- } elsif(looks_like_number($self->attributes->{Args}[0])) {
- # 'Old school' numberd args (is allowed to be undef as well)
+ } elsif(
+ scalar(@{$self->attributes->{Args}}) == 1 &&
+ looks_like_number($self->attributes->{Args}[0])
+ ) {
+ # 'Old school' numbered args (is allowed to be undef as well)
return $self->attributes->{Args}[0];
} else {
# New hotness named arg constraints
return defined($_[0]->number_of_args) ? $_[0]->number_of_args : ~0;
}
+has number_of_args_constraints => (
+ is=>'ro',
+ isa=>'Int|Undef',
+ init_arg=>undef,
+ required=>1,
+ lazy=>1,
+ builder=>'_build_number_of_args_constraints');
+
+ sub _build_number_of_args_constraints {
+ my $self = shift;
+ return unless $self->has_args_constraints;
+
+ # If there is one constraint and its a ref, we need to decide
+ # if this number 'unknown' number or if the ref allows us to
+ # determine a length.
+
+ if(scalar @{$self->args_constraints} == 1) {
+ my $tc = $self->args_constraints->[0];
+ if(
+ $tc->can('is_strictly_a_type_of') &&
+ $tc->is_strictly_a_type_of('Tuple'))
+ {
+ my @parameters = @{ $tc->parameters||[]};
+ if( defined($parameters[-1]) and exists($parameters[-1]->{slurpy})) {
+ return undef;
+ } else {
+ return my $total_params = scalar(@parameters);
+ }
+ } elsif($tc->is_a_type_of('Ref')) {
+ return undef;
+ } else {
+ return 1; # Its a normal 1 arg type constraint.
+ }
+ } else {
+ # We need to loop thru and error on ref types. We don't allow a ref type
+ # in the middle.
+ my $total = 0;
+ foreach my $tc( @{$self->args_constraints}) {
+ if($tc->is_a_type_of('Ref')) {
+ die "$tc is a Ref type constraint. You cannot mix Ref and non Ref type constraints in Args for action ${\$self->reverse}";
+ } else {
+ ++$total;
+ }
+ }
+ return $total;
+ }
+ }
+
has args_constraints => (
is=>'ro',
init_arg=>undef,
builder=>'_build_args_constraints',
handles => {
has_args_constraints => 'count',
- number_of_args_constraints => 'count',
+ args_constraint_count => 'count',
});
sub _build_args_constraints {
my @arg_protos = @{$self->attributes->{Args}||[]};
return [] unless scalar(@arg_protos);
+ return [] unless defined($arg_protos[0]);
+
# If there is only one arg and it looks like a number
# we assume its 'classic' and the number is the number of
# constraints.
) {
return \@args;
} else {
- @args = map { Moose::Util::TypeConstraints::find_or_parse_type_constraint($_) || die "$_ is not a constraint!" } @arg_protos;
+ @args =
+ map { my @tc = $self->resolve_type_constraint($_); scalar(@tc) ? @tc : die "$_ is not a constraint!" }
+ @arg_protos;
+ }
+ return \@args;
+ }
+
+has number_of_captures_constraints => (
+ is=>'ro',
+ isa=>'Int|Undef',
+ init_arg=>undef,
+ required=>1,
+ lazy=>1,
+ builder=>'_build_number_of_capture_constraints');
+
+ sub _build_number_of_capture_constraints {
+ my $self = shift;
+ return unless $self->has_captures_constraints;
+
+ # If there is one constraint and its a ref, we need to decide
+ # if this number 'unknown' number or if the ref allows us to
+ # determine a length.
+
+ if(scalar @{$self->captures_constraints} == 1) {
+ my $tc = $self->captures_constraints->[0];
+ if(
+ $tc->can('is_strictly_a_type_of') &&
+ $tc->is_strictly_a_type_of('Tuple'))
+ {
+ my @parameters = @{ $tc->parameters||[]};
+ if( defined($parameters[-1]) and exists($parameters[-1]->{slurpy})) {
+ return undef;
+ } else {
+ return my $total_params = scalar(@parameters);
+ }
+ } elsif($tc->is_a_type_of('Ref')) {
+ die "You cannot use CaptureArgs($tc) in ${\$self->reverse} because we cannot determined the number of its parameters";
+ } else {
+ return 1; # Its a normal 1 arg type constraint.
+ }
+ } else {
+ # We need to loop thru and error on ref types. We don't allow a ref type
+ # in the middle.
+ my $total = 0;
+ foreach my $tc( @{$self->captures_constraints}) {
+ if($tc->is_a_type_of('Ref')) {
+ die "$tc is a Ref type constraint. You cannot mix Ref and non Ref type constraints in CaptureArgs for action ${\$self->reverse}";
+ } else {
+ ++$total;
+ }
+ }
+ return $total;
+ }
+ }
+
+has captures_constraints => (
+ is=>'ro',
+ init_arg=>undef,
+ traits=>['Array'],
+ isa=>'ArrayRef',
+ required=>1,
+ lazy=>1,
+ builder=>'_build_captures_constraints',
+ handles => {
+ has_captures_constraints => 'count',
+ captures_constraints_count => 'count',
+ });
+
+ sub _build_captures_constraints {
+ my $self = shift;
+ my @arg_protos = @{$self->attributes->{CaptureArgs}||[]};
+
+ return [] unless scalar(@arg_protos);
+ return [] unless defined($arg_protos[0]);
+ # If there is only one arg and it looks like a number
+ # we assume its 'classic' and the number is the number of
+ # constraints.
+ my @args = ();
+ if(
+ scalar(@arg_protos) == 1 &&
+ looks_like_number($arg_protos[0])
+ ) {
+ return \@args;
+ } else {
+ @args =
+ map { my @tc = $self->resolve_type_constraint($_); scalar(@tc) ? @tc : die "$_ is not a constraint!" }
+ @arg_protos;
}
return \@args;
}
+sub resolve_type_constraint {
+ my ($self, $name) = @_;
+ my @tc = eval "package ${\$self->class}; $name" or die "'$name' not a type constraint in ${\$self->private_path}";
+ if($tc[0]) {
+ return map { ref($_) ? $_ : Moose::Util::TypeConstraints::find_or_parse_type_constraint($_) } @tc;
+ } else {
+ return;
+ }
+}
+
+has number_of_captures => (
+ is=>'ro',
+ init_arg=>undef,
+ isa=>'Int',
+ required=>1,
+ lazy=>1,
+ builder=>'_build_number_of_captures');
+
+ sub _build_number_of_captures {
+ my $self = shift;
+ if( ! exists $self->attributes->{CaptureArgs} ) {
+ # If there are no defined capture args, thats considered 0.
+ return 0;
+ } elsif(!defined($self->attributes->{CaptureArgs}[0])) {
+ # If you fail to give a defined value, that's also 0
+ return 0;
+ } elsif(
+ scalar(@{$self->attributes->{CaptureArgs}}) == 1 &&
+ looks_like_number($self->attributes->{CaptureArgs}[0])
+ ) {
+ # 'Old school' numbered captures
+ return $self->attributes->{CaptureArgs}[0];
+ } else {
+ # New hotness named arg constraints
+ return $self->number_of_captures_constraints;
+ }
+ }
+
+
use overload (
# Stringify to reverse for debug output etc.
sub match {
my ( $self, $c ) = @_;
+ return $self->match_args($c, $c->req->args);
+}
- # If infinite args, we always match
- return 1 if $self->normalized_arg_number == ~0;
+sub match_args {
+ my ($self, $c, $args) = @_;
+ my @args = @{$args||[]};
# There there are arg constraints, we must see to it that the constraints
# check positive for each arg in the list.
if($self->has_args_constraints) {
- for my $i($#{ $c->req->args }) {
- $self->args_constraints->[$i]->check($c->req->args->[$i]) || return 0;
+ # If there is only one type constraint, and its a Ref or subtype of Ref,
+ # That means we expect a reference, so use the full args arrayref.
+ if(
+ $self->args_constraint_count == 1 &&
+ (
+ $self->args_constraints->[0]->is_a_type_of('Ref') ||
+ $self->args_constraints->[0]->is_a_type_of('ClassName')
+ )
+ ) {
+ # Ok, the the type constraint is a ref type, which is allowed to have
+ # any number of args. We need to check the arg length, if one is defined.
+ # If we had a ref type constraint that allowed us to determine the allowed
+ # number of args, we need to match that number. Otherwise if there was an
+ # undetermined number (~0) then we allow all the args. This is more of an
+ # Optimization since Tuple[Int, Int] would fail on 3,4,5 anyway, but this
+ # way we can avoid calling the constraint when the arg length is incorrect.
+ if(
+ $self->normalized_arg_number == ~0 ||
+ scalar( @args ) == $self->normalized_arg_number
+ ) {
+ return $self->args_constraints->[0]->check($args);
+ } else {
+ return 0;
+ }
+ # Removing coercion stuff for the first go
+ #if($self->args_constraints->[0]->coercion && $self->attributes->{Coerce}) {
+ # my $coerced = $self->args_constraints->[0]->coerce($c) || return 0;
+ # $c->req->args([$coerced]);
+ # return 1;
+ #}
+ } else {
+ # Because of the way chaining works, we can expect args that are totally not
+ # what you'd expect length wise. When they don't match length, thats a fail
+ return 0 unless scalar( @args ) == $self->normalized_arg_number;
+
+ for my $i(0..$#args) {
+ $self->args_constraints->[$i]->check($args[$i]) || return 0;
+ }
+ return 1;
}
- return 1;
} else {
+ # If infinite args with no constraints, we always match
+ return 1 if $self->normalized_arg_number == ~0;
+
# Otherwise, we just need to match the number of args.
- return scalar( @{ $c->req->args } ) == $self->normalized_arg_number;
+ return scalar( @args ) == $self->normalized_arg_number;
}
}
-sub match_captures { 1 }
+sub match_captures {
+ my ($self, $c, $captures) = @_;
+ my @captures = @{$captures||[]};
+
+ return 1 unless scalar(@captures); # If none, just say its ok
+ return $self->has_captures_constraints ?
+ $self->match_captures_constraints($c, $captures) : 1;
+
+ return 1;
+}
+
+sub match_captures_constraints {
+ my ($self, $c, $captures) = @_;
+ my @captures = @{$captures||[]};
+
+ # Match is positive if you don't have any.
+ return 1 unless $self->has_captures_constraints;
+
+ if(
+ $self->captures_constraints_count == 1 &&
+ (
+ $self->captures_constraints->[0]->is_a_type_of('Ref') ||
+ $self->captures_constraints->[0]->is_a_type_of('ClassName')
+ )
+ ) {
+ return $self->captures_constraints->[0]->check($captures);
+ } else {
+ for my $i(0..$#captures) {
+ $self->captures_constraints->[$i]->check($captures[$i]) || return 0;
+ }
+ return 1;
+ }
-sub compare {
- my ($a1, $a2) = @_;
- return $a1->normalized_arg_number <=> $a2->normalized_arg_number;
}
-sub number_of_captures {
- my ( $self ) = @_;
- return 0 unless exists $self->attributes->{CaptureArgs};
- return $self->attributes->{CaptureArgs}[0] || 0;
+sub compare {
+ my ($a1, $a2) = @_;
+ return $a1->normalized_arg_number <=> $a2->normalized_arg_number;
}
sub scheme {
sub list_extra_info {
my $self = shift;
return {
- Args => $self->attributes->{Args}[0],
+ Args => $self->normalized_arg_number,
CaptureArgs => $self->number_of_captures,
}
}
Returning true from this method causes the chain match to continue, returning
makes the chain not match (and alternate, less preferred chains will be attempted).
+=head2 match_captures_constraints ($c, \@captures);
+
+Does the \@captures given match any constraints (if any constraints exist). Returns
+true if you ask but there are no constraints.
+
+=head2 match_args($c, $args)
+
+Does the Args match or not?
+
+=head2 resolve_type_constraint
+
+Trys to find a type constraint if you have on on a type constrained method.
=head2 compare