sub match {
my ( $self, $c ) = @_;
+ return $self->match_args($c, $c->req->args);
+}
+
+sub match_args {
+ my ($self, $c, $args) = @_;
+ my @args = @{$args||[]};
# If infinite args, we always match
return 1 if $self->normalized_arg_number == ~0;
$self->args_constraints->[0]->is_a_type_of('ClassName')
)
) {
- return $self->args_constraints->[0]->check($c->req->args);
+ return $self->args_constraints->[0]->check($args);
# 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;
} 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( @{ $c->req->args } ) == $self->normalized_arg_number;
+ return 0 unless scalar( @args ) == $self->normalized_arg_number;
- for my $i(0..$#{ $c->req->args }) {
- $self->args_constraints->[$i]->check($c->req->args->[$i]) || return 0;
+ for my $i(0..$#args) {
+ $self->args_constraints->[$i]->check($args[$i]) || return 0;
}
return 1;
}
} else {
# Otherwise, we just need to match the number of args.
- return scalar( @{ $c->req->args } ) == $self->normalized_arg_number;
+ return scalar( @args ) == $self->normalized_arg_number;
}
}
Returning true from this method causes the chain match to continue, returning
makes the chain not match (and alternate, less preferred chains will be attempted).
+=head2 match_args($c, $args)
+
+Underlying feature that does the 'match' work, but doesn't require a context to
+work (like 'match' does.).
+
=head2 resolve_type_constraint
Trys to find a type constraint if you have on on a type constrained method.