# PODNAME: Sub::Exporter::Tutorial # ABSTRACT: a friendly guide to exporting with Sub::Exporter #pod =head1 DESCRIPTION #pod #pod =head2 What's an Exporter? #pod #pod When you C a module, first it is required, then its C method is #pod called. The Perl documentation tells us that the following two lines are #pod equivalent: #pod #pod use Module LIST; #pod #pod BEGIN { require Module; Module->import(LIST); } #pod #pod The method named C is the module's I, it exports #pod functions and variables into its caller's namespace. #pod #pod =head2 The Basics of Sub::Exporter #pod #pod Sub::Exporter builds a custom exporter which can then be installed into your #pod module. It builds this method based on configuration passed to its #pod C method. #pod #pod A very basic use case might look like this: #pod #pod package Addition; #pod use Sub::Exporter; #pod Sub::Exporter::setup_exporter({ exports => [ qw(plus) ]}); #pod #pod sub plus { my ($x, $y) = @_; return $x + $y; } #pod #pod This would mean that when someone used your Addition module, they could have #pod its C routine imported into their package: #pod #pod use Addition qw(plus); #pod #pod my $z = plus(2, 2); # this works, because now plus is in the main package #pod #pod That syntax to set up the exporter, above, is a little verbose, so for the #pod simple case of just naming some exports, you can write this: #pod #pod use Sub::Exporter -setup => { exports => [ qw(plus) ] }; #pod #pod ...which is the same as the original example -- except that now the exporter is #pod built and installed at compile time. Well, that and you typed less. #pod #pod =head2 Using Export Groups #pod #pod You can specify whole groups of things that should be exportable together. #pod These are called groups. L calls these tags. To specify groups, you #pod just pass a C key in your exporter configuration: #pod #pod package Food; #pod use Sub::Exporter -setup => { #pod exports => [ qw(apple banana beef fluff lox rabbit) ], #pod groups => { #pod fauna => [ qw(beef lox rabbit) ], #pod flora => [ qw(apple banana) ], #pod } #pod }; #pod #pod Now, to import all that delicious foreign meat, your consumer needs only to #pod write: #pod #pod use Food qw(:fauna); #pod use Food qw(-fauna); #pod #pod Either one of the above is acceptable. A colon is more traditional, but #pod barewords with a leading colon can't be enquoted by a fat arrow. We'll see why #pod that matters later on. #pod #pod Groups can contain other groups. If you include a group name (with the leading #pod dash or colon) in a group definition, it will be expanded recursively when the #pod exporter is called. The exporter will B recurse into the same group twice #pod while expanding groups. #pod #pod There are two special groups: C and C. The C group is #pod defined for you and contains all exportable subs. You can redefine it, #pod if you want to export only a subset when all exports are requested. The #pod C group is the set of routines to export when nothing specific is #pod requested. By default, there is no C group. #pod #pod =head2 Renaming Your Imports #pod #pod Sometimes you want to import something, but you don't like the name as which #pod it's imported. Sub::Exporter can rename your imports for you. If you wanted #pod to import C from the Food package, but you don't like the name, you could #pod write this: #pod #pod use Food lox => { -as => 'salmon' }; #pod #pod Now you'd get the C routine, but it would be called salmon in your #pod package. You can also rename entire groups by using the C option: #pod #pod use Food -fauna => { -prefix => 'cute_little_' }; #pod #pod Now you can call your C routine. (You can also call #pod C, but that hardly seems as enticing.) #pod #pod When you define groups, you can include renaming. #pod #pod use Sub::Exporter -setup => { #pod exports => [ qw(apple banana beef fluff lox rabbit) ], #pod groups => { #pod fauna => [ qw(beef lox), rabbit => { -as => 'coney' } ], #pod } #pod }; #pod #pod A prefix on a group like that does the right thing. This is when it's useful #pod to use a dash instead of a colon to indicate a group: you can put a fat arrow #pod between the group and its arguments, then. #pod #pod use Food -fauna => { -prefix => 'lovely_' }; #pod #pod eat( lovely_coney ); # this works #pod #pod Prefixes also apply recursively. That means that this code works: #pod #pod use Sub::Exporter -setup => { #pod exports => [ qw(apple banana beef fluff lox rabbit) ], #pod groups => { #pod fauna => [ qw(beef lox), rabbit => { -as => 'coney' } ], #pod allowed => [ -fauna => { -prefix => 'willing_' }, 'banana' ], #pod } #pod }; #pod #pod ... #pod #pod use Food -allowed => { -prefix => 'any_' }; #pod #pod $dinner = any_willing_coney; # yum! #pod #pod Groups can also be passed a C<-suffix> argument. #pod #pod Finally, if the C<-as> argument to an exported routine is a reference to a #pod scalar, a reference to the routine will be placed in that scalar. #pod #pod =head2 Building Subroutines to Order #pod #pod Sometimes, you want to export things that you don't have on hand. You might #pod want to offer customized routines built to the specification of your consumer; #pod that's just good business! With Sub::Exporter, this is easy. #pod #pod To offer subroutines to order, you need to provide a generator when you set up #pod your exporter. A generator is just a routine that returns a new routine. #pod L is talking about these when it discusses closures and function #pod templates. The canonical example of a generator builds a unique incrementor; #pod here's how you'd do that with Sub::Exporter; #pod #pod package Package::Counter; #pod use Sub::Exporter -setup => { #pod exports => [ counter => sub { my $i = 0; sub { $i++ } } ], #pod groups => { default => [ qw(counter) ] }, #pod }; #pod #pod Now anyone can use your Package::Counter module and he'll receive a C #pod in his package. It will count up by one, and will never interfere with anyone #pod else's counter. #pod #pod This isn't very useful, though, unless the consumer can explain what he wants. #pod This is done, in part, by supplying arguments when importing. The following #pod example shows how a generator can take and use arguments: #pod #pod package Package::Counter; #pod #pod sub _build_counter { #pod my ($class, $name, $arg) = @_; #pod $arg ||= {}; #pod my $i = $arg->{start} || 0; #pod return sub { $i++ }; #pod } #pod #pod use Sub::Exporter -setup => { #pod exports => [ counter => \'_build_counter' ], #pod groups => { default => [ qw(counter) ] }, #pod }; #pod #pod Now, the consumer can (if he wants) specify a starting value for his counter: #pod #pod use Package::Counter counter => { start => 10 }; #pod #pod Arguments to a group are passed along to the generators of routines in that #pod group, but Sub::Exporter arguments -- anything beginning with a dash -- are #pod never passed in. When groups are nested, the arguments are merged as the #pod groups are expanded. #pod #pod Notice, too, that in the example above, we gave a reference to a method I #pod rather than a method I. By giving the name rather than the #pod subroutine, we make it possible for subclasses of our "Package::Counter" module #pod to replace the C<_build_counter> method. #pod #pod When a generator is called, it is passed four parameters: #pod #pod =over #pod #pod =item * the invocant on which the exporter was called #pod #pod =item * the name of the export being generated (not the name it's being installed as) #pod #pod =item * the arguments supplied for the routine #pod #pod =item * the collection of generic arguments #pod #pod =back #pod #pod The fourth item is the last major feature that hasn't been covered. #pod #pod =head2 Argument Collectors #pod #pod Sometimes you will want to accept arguments once that can then be available to #pod any subroutine that you're going to export. To do this, you specify #pod collectors, like this: #pod #pod package Menu::Airline #pod use Sub::Exporter -setup => { #pod exports => ... , #pod groups => ... , #pod collectors => [ qw(allergies ethics) ], #pod }; #pod #pod Collectors look like normal exports in the import call, but they don't do #pod anything but collect data which can later be passed to generators. If the #pod module was used like this: #pod #pod use Menu::Airline allergies => [ qw(peanuts) ], ethics => [ qw(vegan) ]; #pod #pod ...the consumer would get a salad. Also, all the generators would be passed, #pod as their fourth argument, something like this: #pod #pod { allerges => [ qw(peanuts) ], ethics => [ qw(vegan) ] } #pod #pod Generators may have arguments in their definition, as well. These must be code #pod refs that perform validation of the collected values. They are passed the #pod collection value and may return true or false. If they return false, the #pod exporter will throw an exception. #pod #pod =head2 Generating Many Routines in One Scope #pod #pod Sometimes it's useful to have multiple routines generated in one scope. This #pod way they can share lexical data which is otherwise unavailable. To do this, #pod you can supply a generator for a group which returns a hashref of names and #pod code references. This generator is passed all the usual data, and the group #pod may receive the usual C<-prefix> or C<-suffix> arguments. #pod #pod =head1 SEE ALSO #pod #pod =for :list #pod * L for complete documentation and references to other exporters __END__ =pod =encoding UTF-8 =head1 NAME Sub::Exporter::Tutorial - a friendly guide to exporting with Sub::Exporter =head1 VERSION version 0.991 =head1 DESCRIPTION =head2 What's an Exporter? When you C a module, first it is required, then its C method is called. The Perl documentation tells us that the following two lines are equivalent: use Module LIST; BEGIN { require Module; Module->import(LIST); } The method named C is the module's I, it exports functions and variables into its caller's namespace. =head2 The Basics of Sub::Exporter Sub::Exporter builds a custom exporter which can then be installed into your module. It builds this method based on configuration passed to its C method. A very basic use case might look like this: package Addition; use Sub::Exporter; Sub::Exporter::setup_exporter({ exports => [ qw(plus) ]}); sub plus { my ($x, $y) = @_; return $x + $y; } This would mean that when someone used your Addition module, they could have its C routine imported into their package: use Addition qw(plus); my $z = plus(2, 2); # this works, because now plus is in the main package That syntax to set up the exporter, above, is a little verbose, so for the simple case of just naming some exports, you can write this: use Sub::Exporter -setup => { exports => [ qw(plus) ] }; ...which is the same as the original example -- except that now the exporter is built and installed at compile time. Well, that and you typed less. =head2 Using Export Groups You can specify whole groups of things that should be exportable together. These are called groups. L calls these tags. To specify groups, you just pass a C key in your exporter configuration: package Food; use Sub::Exporter -setup => { exports => [ qw(apple banana beef fluff lox rabbit) ], groups => { fauna => [ qw(beef lox rabbit) ], flora => [ qw(apple banana) ], } }; Now, to import all that delicious foreign meat, your consumer needs only to write: use Food qw(:fauna); use Food qw(-fauna); Either one of the above is acceptable. A colon is more traditional, but barewords with a leading colon can't be enquoted by a fat arrow. We'll see why that matters later on. Groups can contain other groups. If you include a group name (with the leading dash or colon) in a group definition, it will be expanded recursively when the exporter is called. The exporter will B recurse into the same group twice while expanding groups. There are two special groups: C and C. The C group is defined for you and contains all exportable subs. You can redefine it, if you want to export only a subset when all exports are requested. The C group is the set of routines to export when nothing specific is requested. By default, there is no C group. =head2 Renaming Your Imports Sometimes you want to import something, but you don't like the name as which it's imported. Sub::Exporter can rename your imports for you. If you wanted to import C from the Food package, but you don't like the name, you could write this: use Food lox => { -as => 'salmon' }; Now you'd get the C routine, but it would be called salmon in your package. You can also rename entire groups by using the C option: use Food -fauna => { -prefix => 'cute_little_' }; Now you can call your C routine. (You can also call C, but that hardly seems as enticing.) When you define groups, you can include renaming. use Sub::Exporter -setup => { exports => [ qw(apple banana beef fluff lox rabbit) ], groups => { fauna => [ qw(beef lox), rabbit => { -as => 'coney' } ], } }; A prefix on a group like that does the right thing. This is when it's useful to use a dash instead of a colon to indicate a group: you can put a fat arrow between the group and its arguments, then. use Food -fauna => { -prefix => 'lovely_' }; eat( lovely_coney ); # this works Prefixes also apply recursively. That means that this code works: use Sub::Exporter -setup => { exports => [ qw(apple banana beef fluff lox rabbit) ], groups => { fauna => [ qw(beef lox), rabbit => { -as => 'coney' } ], allowed => [ -fauna => { -prefix => 'willing_' }, 'banana' ], } }; ... use Food -allowed => { -prefix => 'any_' }; $dinner = any_willing_coney; # yum! Groups can also be passed a C<-suffix> argument. Finally, if the C<-as> argument to an exported routine is a reference to a scalar, a reference to the routine will be placed in that scalar. =head2 Building Subroutines to Order Sometimes, you want to export things that you don't have on hand. You might want to offer customized routines built to the specification of your consumer; that's just good business! With Sub::Exporter, this is easy. To offer subroutines to order, you need to provide a generator when you set up your exporter. A generator is just a routine that returns a new routine. L is talking about these when it discusses closures and function templates. The canonical example of a generator builds a unique incrementor; here's how you'd do that with Sub::Exporter; package Package::Counter; use Sub::Exporter -setup => { exports => [ counter => sub { my $i = 0; sub { $i++ } } ], groups => { default => [ qw(counter) ] }, }; Now anyone can use your Package::Counter module and he'll receive a C in his package. It will count up by one, and will never interfere with anyone else's counter. This isn't very useful, though, unless the consumer can explain what he wants. This is done, in part, by supplying arguments when importing. The following example shows how a generator can take and use arguments: package Package::Counter; sub _build_counter { my ($class, $name, $arg) = @_; $arg ||= {}; my $i = $arg->{start} || 0; return sub { $i++ }; } use Sub::Exporter -setup => { exports => [ counter => \'_build_counter' ], groups => { default => [ qw(counter) ] }, }; Now, the consumer can (if he wants) specify a starting value for his counter: use Package::Counter counter => { start => 10 }; Arguments to a group are passed along to the generators of routines in that group, but Sub::Exporter arguments -- anything beginning with a dash -- are never passed in. When groups are nested, the arguments are merged as the groups are expanded. Notice, too, that in the example above, we gave a reference to a method I rather than a method I. By giving the name rather than the subroutine, we make it possible for subclasses of our "Package::Counter" module to replace the C<_build_counter> method. When a generator is called, it is passed four parameters: =over =item * the invocant on which the exporter was called =item * the name of the export being generated (not the name it's being installed as) =item * the arguments supplied for the routine =item * the collection of generic arguments =back The fourth item is the last major feature that hasn't been covered. =head2 Argument Collectors Sometimes you will want to accept arguments once that can then be available to any subroutine that you're going to export. To do this, you specify collectors, like this: package Menu::Airline use Sub::Exporter -setup => { exports => ... , groups => ... , collectors => [ qw(allergies ethics) ], }; Collectors look like normal exports in the import call, but they don't do anything but collect data which can later be passed to generators. If the module was used like this: use Menu::Airline allergies => [ qw(peanuts) ], ethics => [ qw(vegan) ]; ...the consumer would get a salad. Also, all the generators would be passed, as their fourth argument, something like this: { allerges => [ qw(peanuts) ], ethics => [ qw(vegan) ] } Generators may have arguments in their definition, as well. These must be code refs that perform validation of the collected values. They are passed the collection value and may return true or false. If they return false, the exporter will throw an exception. =head2 Generating Many Routines in One Scope Sometimes it's useful to have multiple routines generated in one scope. This way they can share lexical data which is otherwise unavailable. To do this, you can supply a generator for a group which returns a hashref of names and code references. This generator is passed all the usual data, and the group may receive the usual C<-prefix> or C<-suffix> arguments. =head1 PERL VERSION This library should run on perls released even a long time ago. It should work on any version of perl released in the last five years. Although it may work on older versions of perl, no guarantee is made that the minimum required version will not be increased. The version may be increased for any reason, and there is no promise that patches will be accepted to lower the minimum required perl. =head1 SEE ALSO =over 4 =item * L for complete documentation and references to other exporters =back =head1 AUTHOR Ricardo Signes =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2007 by Ricardo Signes. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =cut