package Catalyst::Dispatcher;
use Moose;
use Class::MOP;
use Catalyst::Exception;
use Catalyst::Utils;
use Catalyst::Action;
use Catalyst::ActionContainer;
use Catalyst::DispatchType::Default;
use Catalyst::DispatchType::Index;
use Text::SimpleTable;
use Tree::Simple;
use Tree::Simple::Visitor::FindByPath;
use Scalar::Util ();
#do these belong as package vars or should we build these via a builder method?
# Preload these action types
our @PRELOAD = qw/Index Path Regex/;
# Postload these action types
our @POSTLOAD = qw/Default/;
has _tree => (is => 'rw');
has _dispatch_types => (is => 'rw', default => sub { [] }, required => 1, lazy => 1);
has _registered_dispatch_types => (is => 'rw', default => sub { {} }, required => 1, lazy => 1);
has _method_action_class => (is => 'rw', default => 'Catalyst::Action');
has _action_container_class => (is => 'rw', default => 'Catalyst::ActionContainer');
has preload_dispatch_types => (is => 'rw', required => 1, lazy => 1, default => sub { [@PRELOAD] });
has postload_dispatch_types => (is => 'rw', required => 1, lazy => 1, default => sub { [@POSTLOAD] });
has _action_hash => (is => 'rw', required => 1, lazy => 1, default => sub { {} });
has _container_hash => (is => 'rw', required => 1, lazy => 1, default => sub { {} });
no Moose;
=head1 NAME
Catalyst::Dispatcher - The Catalyst Dispatcher
=head1 SYNOPSIS
See L<Catalyst>.
=head1 DESCRIPTION
This is the class that maps public urls to actions in your Catalyst
application based on the attributes you set.
=head1 METHODS
=head2 new
Construct a new dispatcher.
=cut
sub BUILD {
my ($self, $params) = @_;
my $container =
Catalyst::ActionContainer->new( { part => '/', actions => {} } );
$self->_tree( Tree::Simple->new( $container, Tree::Simple->ROOT ) );
}
=head2 $self->preload_dispatch_types
An arrayref of pre-loaded dispatchtype classes
Entries are considered to be available as C<Catalyst::DispatchType::CLASS>
To use a custom class outside the regular C<Catalyst> namespace, prefix
it with a C<+>, like so:
+My::Dispatch::Type
=head2 $self->postload_dispatch_types
An arrayref of post-loaded dispatchtype classes
Entries are considered to be available as C<Catalyst::DispatchType::CLASS>
To use a custom class outside the regular C<Catalyst> namespace, prefix
it with a C<+>, like so:
+My::Dispatch::Type
=head2 $self->detach( $c, $command [, \@arguments ] )
Documented in L<Catalyst>
=cut
sub detach {
my ( $self, $c, $command, @args ) = @_;
$c->forward( $command, @args ) if $command;
die $Catalyst::DETACH;
}
=head2 $self->dispatch($c)
Delegate the dispatch to the action that matched the url, or return a
message about unknown resource
=cut
sub dispatch {
my ( $self, $c ) = @_;
if ( my $action = $c->action ) {
$c->forward( join( '/', '', $action->namespace, '_DISPATCH' ) );
}
else {
my $path = $c->req->path;
my $error = $path
? qq/Unknown resource "$path"/
: "No default action defined";
$c->log->error($error) if $c->debug;
$c->error($error);
}
}
# $self->_command2action( $c, $command [, \@arguments ] )
# Search for an action, from the command and returns C<($action, $args)> on
# success. Returns C<(0)> on error.
sub _command2action {
my ( $self, $c, $command, @extra_params ) = @_;
unless ($command) {
$c->log->debug('Nothing to go to') if $c->debug;
return 0;
}
my @args;
if ( ref( $extra_params[-1] ) eq 'ARRAY' ) {
@args = @{ pop @extra_params }
} else {
# this is a copy, it may take some abuse from
# ->_invoke_as_path if the path had trailing parts
@args = @{ $c->request->arguments };
}
my $action;
# go to a string path ("/foo/bar/gorch")
# or action object which stringifies to that
$action = $self->_invoke_as_path( $c, "$command", \@args );
# go to a component ( "MyApp::*::Foo" or $c->component("...")
# - a path or an object)
unless ($action) {
my $method = @extra_params ? $extra_params[0] : "process";
$action = $self->_invoke_as_component( $c, $command, $method );
}
return $action, \@args;
}
=head2 $self->visit( $c, $command [, \@arguments ] )
Documented in L<Catalyst>
=cut
sub visit {
my $self = shift;
$self->_do_visit(@_, 'visit');
}
sub _do_visit {
my $self = shift;
my $opname = pop;
my ( $c, $command ) = @_;
my ( $action, $args ) = $self->_command2action(@_);
my $error = qq/Couldn't $opname("$command"): /;
if (!$action) {
$error .= qq/Invalid action or component./;
}
elsif (!defined $action->namespace) {
$error .= qq/Action has no namespace: cannot $opname() to a plain /
.qq/method or component, must be a :Action or some sort./
}
elsif (!$action->class->can('_DISPATCH')) {
$error .= qq/Action cannot _DISPATCH. /
.qq/Did you try to $opname() a non-controller action?/;
}
else {
$error = q();
}
if($error) {
$c->error($error);
$c->log->debug($error) if $c->debug;
return 0;
}
$action = $self->expand_action($action);
local $c->request->{arguments} = $args;
local $c->{namespace} = $action->{'namespace'};
local $c->{action} = $action;
$self->dispatch($c);
}
=head2 $self->go( $c, $command [, \@arguments ] )
Documented in L<Catalyst>
=cut
sub go {
my $self = shift;
$self->_do_visit(@_, 'go');
die $Catalyst::GO;
}
=head2 $self->forward( $c, $command [, \@arguments ] )
Documented in L<Catalyst>
=cut
sub forward {
my $self = shift;
my ( $c, $command ) = @_;
my ( $action, $args ) = $self->_command2action(@_);
unless ($action) {
my $error =
qq/Couldn't forward to command "$command": /
. qq/Invalid action or component./;
$c->error($error);
$c->log->debug($error) if $c->debug;
return 0;
}
#push @$args, @_;
no warnings 'recursion';
my $orig_args = $c->request->arguments();
$c->request->arguments($args);
$action->dispatch( $c );
$c->request->arguments($orig_args);
return $c->state;
}
sub _action_rel2abs {
my ( $self, $c, $path ) = @_;
unless ( $path =~ m#^/# ) {
my $namespace = $c->stack->[-1]->namespace;
$path = "$namespace/$path";
}
$path =~ s#^/##;
return $path;
}
sub _invoke_as_path {
my ( $self, $c, $rel_path, $args ) = @_;
my $path = $self->_action_rel2abs( $c, $rel_path );
my ( $tail, @extra_args );
while ( ( $path, $tail ) = ( $path =~ m#^(?:(.*)/)?(\w+)?$# ) )
{ # allow $path to be empty
if ( my $action = $c->get_action( $tail, $path ) ) {
push @$args, @extra_args;
return $action;
}
else {
return
unless $path
; # if a match on the global namespace failed then the whole lookup failed
}
unshift @extra_args, $tail;
}
}
sub _find_component_class {
my ( $self, $c, $component ) = @_;
return ref($component)
|| ref( $c->component($component) )
|| $c->component($component);
}
sub _invoke_as_component {
my ( $self, $c, $component, $method ) = @_;
my $class = $self->_find_component_class( $c, $component ) || return 0;
if ( my $code = $class->can($method) ) {
return $self->_method_action_class->new(
{
name => $method,
code => $code,
reverse => "$class->$method",
class => $class,
namespace => Catalyst::Utils::class2prefix(
$class, $c->config->{case_sensitive}
),
}
);
}
else {
my $error =
qq/Couldn't forward to "$class". Does not implement "$method"/;
$c->error($error);
$c->log->debug($error)
if $c->debug;
return 0;
}
}
=head2 $self->prepare_action($c)
Find an dispatch type that matches $c->req->path, and set args from it.
=cut
sub prepare_action {
my ( $self, $c ) = @_;
my $req = $c->req;
my $path = $req->path;
my @path = split /\//, $req->path;
$req->args( \my @args );
unshift( @path, '' ); # Root action
DESCEND: while (@path) {
$path = join '/', @path;
$path =~ s#^/##;
$path = '' if $path eq '/'; # Root action
# Check out dispatch types to see if any will handle the path at
# this level
foreach my $type ( @{ $self->_dispatch_types } ) {
last DESCEND if $type->match( $c, $path );
}
# If not, move the last part path to args
my $arg = pop(@path);
$arg =~ s/%([0-9A-Fa-f]{2})/chr(hex($1))/eg;
unshift @args, $arg;
}
s/%([0-9A-Fa-f]{2})/chr(hex($1))/eg for grep { defined } @{$req->captures||[]};
$c->log->debug( 'Path is "' . $req->match . '"' )
if ( $c->debug && length $req->match );
$c->log->debug( 'Arguments are "' . join( '/', @args ) . '"' )
if ( $c->debug && @args );
}
=head2 $self->get_action( $action, $namespace )
returns a named action from a given namespace.
=cut
sub get_action {
my ( $self, $name, $namespace ) = @_;
return unless $name;
$namespace = join( "/", grep { length } split '/', ( defined $namespace ? $namespace : "" ) );
return $self->_action_hash->{"${namespace}/${name}"};
}
=head2 $self->get_action_by_path( $path );
Returns the named action by its full path.
=cut
sub get_action_by_path {
my ( $self, $path ) = @_;
$path =~ s/^\///;
$path = "/$path" unless $path =~ /\//;
$self->_action_hash->{$path};
}
=head2 $self->get_actions( $c, $action, $namespace )
=cut
sub get_actions {
my ( $self, $c, $action, $namespace ) = @_;
return [] unless $action;
$namespace = join( "/", grep { length } split '/', $namespace || "" );
my @match = $self->get_containers($namespace);
return map { $_->get_action($action) } @match;
}
=head2 $self->get_containers( $namespace )
Return all the action containers for a given namespace, inclusive
=cut
sub get_containers {
my ( $self, $namespace ) = @_;
$namespace ||= '';
$namespace = '' if $namespace eq '/';
my @containers;
if ( length $namespace ) {
do {
push @containers, $self->_container_hash->{$namespace};
} while ( $namespace =~ s#/[^/]+$## );
}
return reverse grep { defined } @containers, $self->_container_hash->{''};
#return (split '/', $namespace); # isnt this more clear?
my @parts = split '/', $namespace;
}
=head2 $self->uri_for_action($action, \@captures)
Takes a Catalyst::Action object and action parameters and returns a URI
part such that if $c->req->path were this URI part, this action would be
dispatched to with $c->req->captures set to the supplied arrayref.
If the action object is not available for external dispatch or the dispatcher
cannot determine an appropriate URI, this method will return undef.
=cut
sub uri_for_action {
my ( $self, $action, $captures) = @_;
$captures ||= [];
foreach my $dispatch_type ( @{ $self->_dispatch_types } ) {
my $uri = $dispatch_type->uri_for_action( $action, $captures );
return( $uri eq '' ? '/' : $uri )
if defined($uri);
}
return undef;
}
sub expand_action {
my ($self, $action) = @_;
foreach my $dispatch_type (@{ $self->_dispatch_types }) {
my $expanded = $dispatch_type->expand_action($action);
return $expanded if $expanded;
}
return $action;
}
=head2 $self->register( $c, $action )
Make sure all required dispatch types for this action are loaded, then
pass the action to our dispatch types so they can register it if required.
Also, set up the tree with the action containers.
=cut
sub register {
my ( $self, $c, $action ) = @_;
my $registered = $self->_registered_dispatch_types;
#my $priv = 0; #seems to be unused
foreach my $key ( keys %{ $action->attributes } ) {
next if $key eq 'Private';
my $class = "Catalyst::DispatchType::$key";
unless ( $registered->{$class} ) {
#some error checking rethrowing here wouldn't hurt.
eval { Class::MOP::load_class($class) };
push( @{ $self->_dispatch_types }, $class->new ) unless $@;
$registered->{$class} = 1;
}
}
# Pass the action to our dispatch types so they can register it if reqd.
foreach my $type ( @{ $self->_dispatch_types } ) {
$type->register( $c, $action );
}
my $namespace = $action->namespace;
my $name = $action->name;
my $container = $self->_find_or_create_action_container($namespace);
# Set the method value
$container->add_action($action);
$self->_action_hash->{"$namespace/$name"} = $action;
$self->_container_hash->{$namespace} = $container;
}
sub _find_or_create_action_container {
my ( $self, $namespace ) = @_;
my $tree ||= $self->_tree;
return $tree->getNodeValue unless $namespace;
my @namespace = split '/', $namespace;
return $self->_find_or_create_namespace_node( $tree, @namespace )
->getNodeValue;
}
sub _find_or_create_namespace_node {
my ( $self, $parent, $part, @namespace ) = @_;
return $parent unless $part;
my $child =
( grep { $_->getNodeValue->part eq $part } $parent->getAllChildren )[0];
unless ($child) {
my $container = Catalyst::ActionContainer->new($part);
$parent->addChild( $child = Tree::Simple->new($container) );
}
$self->_find_or_create_namespace_node( $child, @namespace );
}
=head2 $self->setup_actions( $class, $context )
=cut
sub setup_actions {
my ( $self, $c ) = @_;
my @classes =
$self->_load_dispatch_types( @{ $self->preload_dispatch_types } );
@{ $self->_registered_dispatch_types }{@classes} = (1) x @classes;
foreach my $comp ( values %{ $c->components } ) {
$comp->register_actions($c) if $comp->can('register_actions');
}
$self->_load_dispatch_types( @{ $self->postload_dispatch_types } );
return unless $c->debug;
my $privates = Text::SimpleTable->new(
[ 20, 'Private' ],
[ 36, 'Class' ],
[ 12, 'Method' ]
);
my $has_private = 0;
my $walker = sub {
my ( $walker, $parent, $prefix ) = @_;
$prefix .= $parent->getNodeValue || '';
$prefix .= '/' unless $prefix =~ /\/$/;
my $node = $parent->getNodeValue->actions;
for my $action ( keys %{$node} ) {
my $action_obj = $node->{$action};
next
if ( ( $action =~ /^_.*/ )
&& ( !$c->config->{show_internal_actions} ) );
$privates->row( "$prefix$action", $action_obj->class, $action );
$has_private = 1;
}
$walker->( $walker, $_, $prefix ) for $parent->getAllChildren;
};
$walker->( $walker, $self->_tree, '' );
$c->log->debug( "Loaded Private actions:\n" . $privates->draw . "\n" )
if $has_private;
# List all public actions
$_->list($c) for @{ $self->_dispatch_types };
}
sub _load_dispatch_types {
my ( $self, @types ) = @_;
my @loaded;
# Preload action types
for my $type (@types) {
my $class =
( $type =~ /^\+(.*)$/ ) ? $1 : "Catalyst::DispatchType::${type}";
eval { Class::MOP::load_class($class) };
Catalyst::Exception->throw( message => qq/Couldn't load "$class"/ )
if $@;
push @{ $self->_dispatch_types }, $class->new;
push @loaded, $class;
}
return @loaded;
}
no Moose;
__PACKAGE__->meta->make_immutable;
=head2 meta
Provided by Moose
=head1 AUTHORS
Catalyst Contributors, see Catalyst.pm
=head1 COPYRIGHT
This program is free software, you can redistribute it and/or modify it under
the same terms as Perl itself.
=cut
1;
