use strict; ## no critic RequireUseWarnings package Return::Value; # vi:et:sw=4 ts=4 use vars qw[$VERSION @EXPORT]; ## no critic Export $VERSION = '1.302'; @EXPORT = qw[success failure]; use base qw[Exporter]; use Carp (); =head1 NAME Return::Value - Polymorphic Return Values =head1 VERSION version 1.302 $Id: /my/cs/projects/return/trunk/lib/Return/Value.pm 28007 2006-11-14T22:21:03.864745Z rjbs $ =head1 SYNOPSIS Used with basic function-call interface: use Return::Value; sub send_over_network { my ($net, $send) = @_: if ( $net->transport( $send ) ) { return success; } else { return failure "Was not able to transport info."; } } my $result = $net->send_over_network( "Data" ); # boolean unless ( $result ) { # string print $result; } Or, build your Return::Value as an object: sub build_up_return { my $return = failure; if ( ! foo() ) { $return->string("Can't foo!"); return $return; } if ( ! bar() ) { $return->string("Can't bar"); $return->prop(failures => \@bars); return $return; } # we're okay if we made it this far. $return++; return $return; # success! } =head1 DESCRIPTION Polymorphic return values are really useful. Often, we just want to know if something worked or not. Other times, we'd like to know what the error text was. Still others, we may want to know what the error code was, and what the error properties were. We don't want to handle objects or data structures for every single return value, but we do want to check error conditions in our code because that's what good programmers do. When functions are successful they may return true, or perhaps some useful data. In the quest to provide consistent return values, this gets confusing between complex, informational errors and successful return values. This module provides these features with a simple API that should get you what you're looking for in each contex a return value is used in. =head2 Attributes All return values have a set of attributes that package up the information returned. All attributes can be accessed or changed via methods of the same name, unless otherwise noted. Many can also be accessed via overloaded operations on the object, as noted below. =over 4 =item type A value's type is either "success" or "failure" and (obviously) reflects whether the value is returning success or failure. =item errno The errno attribute stores the error number of the return value. For success-type results, it is by default undefined. For other results, it defaults to 1. =item string The value's string attribute is a simple message describing the value. =item data The data attribute stores a reference to a hash or array, and can be used as a simple way to return extra data. Data stored in the data attribute can be accessed by dereferencing the return value itself. (See below.) =item prop The most generic attribute of all, prop is a hashref that can be used to pass an arbitrary number of data structures, just like the data attribute. Unlike the data attribute, though, these structures must be retrived via method calls. =back =head1 FUNCTIONS The functional interface is highly recommended for use within functions that are using C for return values. It's simple and straightforward, and builds the entire return value in one statement. =over 4 =cut # This hack probably impacts performance more than I'd like to know, but it's # needed to have a hashref object that can deref into a different hash. # _ah($self,$key, [$value) sets or returns the value for the given key on the # $self blessed-ref sub _ah { my ($self, $key, $value) = @_; my $class = ref $self; bless $self => "ain't::overloaded"; $self->{$key} = $value if @_ > 2; my $return = $self->{$key}; bless $self => $class; return $return; } sub _builder { my %args = (type => shift); $args{string} = shift if (@_ % 2); %args = (%args, @_); $args{string} = $args{type} unless defined $args{string}; $args{errno} = ($args{type} eq 'success' ? undef : 1) unless defined $args{errno}; __PACKAGE__->new(%args); } =item success The C function returns a C with the type "success". Additional named parameters may be passed to set the returned object's attributes. The first, optional, parameter is the string attribute and does not need to be named. All other parameters must be passed by name. # simplest possible case return success; =cut sub success { _builder('success', @_) } =pod =item failure C is identical to C, but returns an object with the type "failure" =cut sub failure { _builder('failure', @_) } =pod =back =head1 METHODS The object API is useful in code that is catching C objects. =over 4 =item new my $return = Return::Value->new( type => 'failure', string => "YOU FAIL", prop => { failed_objects => \@objects, }, ); Creates a new C object. Named parameters can be used to set the object's attributes. =cut sub new { my $class = shift; bless { type => 'failure', string => q{}, prop => {}, @_ } => $class; } =pod =item bool print "it worked" if $result->bool; Returns the result in boolean context: true for success, false for failure. =item prop printf "%s: %s', $result->string, join ' ', @{$result->prop('strings')} unless $result->bool; Returns the return value's properties. Accepts the name of a property retured, or returns the properties hash reference if given no name. =item other attribute accessors Simple accessors exist for the object's other attributes: C, C, C, and C. =cut sub bool { _ah($_[0],'type') eq 'success' ? 1 : 0 } sub type { my ($self, $value) = @_; return _ah($self, 'type') unless @_ > 1; Carp::croak "invalid result type: $value" unless $value eq 'success' or $value eq 'failure'; return _ah($self, 'type', $value); }; foreach my $name ( qw[errno string data] ) { ## no critic (ProhibitNoStrict) no strict 'refs'; *{$name} = sub { my ($self, $value) = @_; return _ah($self, $name) unless @_ > 1; return _ah($self, $name, $value); }; } sub prop { my ($self, $name, $value) = @_; return _ah($self, 'prop') unless $name; return _ah($self, 'prop')->{$name} unless @_ > 2; return _ah($self, 'prop')->{$name} = $value; } =pod =back =head2 Overloading Several operators are overloaded for C objects. They are listed here. =over 4 =item Stringification print "$result\n"; Stringifies to the string attribute. =item Boolean print $result unless $result; Returns the C representation. =item Numeric Also returns the C value. =item Dereference Dereferencing the value as a hash or array will return the value of the data attribute, if it matches that type, or an empty reference otherwise. You can check C<< ref $result->data >> to determine what kind of data (if any) was passed. =cut use overload '""' => sub { shift->string }, 'bool' => sub { shift->bool }, '==' => sub { shift->bool == shift }, '!=' => sub { shift->bool != shift }, '>' => sub { shift->bool > shift }, '<' => sub { shift->bool < shift }, 'eq' => sub { shift->string eq shift }, 'ne' => sub { shift->string ne shift }, 'gt' => sub { shift->string gt shift }, 'lt' => sub { shift->string lt shift }, '++' => sub { _ah(shift,'type','success') }, '--' => sub { _ah(shift,'type','failure') }, '${}' => sub { my $data = _ah($_[0],'data'); $data ? \$data : \undef }, '%{}' => sub { ref _ah($_[0],'data') eq 'HASH' ? _ah($_[0],'data') : {} }, '@{}' => sub { ref _ah($_[0],'data') eq 'ARRAY' ? _ah($_[0],'data') : [] }, fallback => 1; =pod =back =head1 TODO No plans! =head1 AUTHORS Casey West, >. Ricardo Signes, >. =head1 COPYRIGHT Copyright (c) 2004-2006 Casey West and Ricardo SIGNES. All rights reserved. This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut "This return value is true."; __END__