package PPI::Statement::Include; =pod =head1 NAME PPI::Statement::Include - Statements that include other code =head1 SYNOPSIS # The following are all includes use 5.006; use strict; use My::Module; use constant FOO => 'Foo'; require Foo::Bar; require "Foo/Bar.pm"; require $foo if 1; no strict 'refs'; =head1 INHERITANCE PPI::Statement::Include isa PPI::Statement isa PPI::Node isa PPI::Element =head1 DESCRIPTION Despite its name, the C class covers a number of different types of statement that cover all statements starting with C, C and C. But basically, they cover three situations. Firstly, a dependency on a particular version of perl (for which the C method returns true), a pragma (for which the C method returns true), or the loading (and unloading via no) of modules. =head1 METHODS C has a number of methods in addition to the standard L, L and L methods. =cut use strict; use PPI::Statement (); use PPI::Statement::Include::Perl6 (); use vars qw{$VERSION @ISA}; BEGIN { $VERSION = '1.236'; @ISA = 'PPI::Statement'; } =pod =head2 type The C method returns the general type of statement (C<'use'>, C<'no'> or C<'require'>). Returns the type as a string, or C if the type cannot be detected. =cut sub type { my $self = shift; my $keyword = $self->schild(0) or return undef; $keyword->isa('PPI::Token::Word') and $keyword->content; } =pod =head2 module The C method returns the module name specified in any include statement. This C pragma names, because pragma are implemented as modules. (And lets face it, the definition of a pragma can be fuzzy at the best of times in any case) This covers all of these... use strict; use My::Module; no strict; require My::Module; ...but does not cover any of these... use 5.006; require 5.005; require "explicit/file/name.pl"; Returns the module name as a string, or C if the include does not specify a module name. =cut sub module { my $self = shift; my $module = $self->schild(1) or return undef; $module->isa('PPI::Token::Word') and $module->content; } =pod =head2 module_version The C method returns the minimum version of the module required by the statement, if there is one. =cut sub module_version { my $self = shift; my $argument = $self->schild(3); if ( $argument and $argument->isa('PPI::Token::Operator') ) { return undef; } my $version = $self->schild(2) or return undef; return undef unless $version->isa('PPI::Token::Number'); return $version; } =pod =head2 pragma The C method checks for an include statement's use as a pragma, and returns it if so. Or at least, it claims to. In practice it's a lot harder to say exactly what is or isn't a pragma, because the definition is fuzzy. The C of a pragma is to modify the way in which the parser works. This is done though the use of modules that do various types of internals magic. For now, PPI assumes that any "module name" that is only a set of lowercase letters (and perhaps numbers, like C). This behaviour is expected to change, most likely to something that knows the specific names of the various "pragmas". Returns the name of the pragma, or false ('') if the include is not a pragma. =cut sub pragma { my $self = shift; my $module = $self->module or return ''; $module =~ /^[a-z][a-z\d]*$/ ? $module : ''; } =pod =head2 version The C method checks for an include statement that introduces a dependency on the version of C the code is compatible with. This covers two specific statements. use 5.006; require 5.006; Currently the version is returned as a string, although in future the version may be returned as a L object. If you want a numeric representation, use C. Returns false if the statement is not a version dependency. =cut sub version { my $self = shift; my $version = $self->schild(1) or return undef; $version->isa('PPI::Token::Number') ? $version->content : ''; } =pod =head2 version_literal The C method has the same behavior as C, but the version is returned as a numeric literal. Returns false if the statement is not a version dependency. =cut sub version_literal { my $self = shift; my $version = $self->schild(1) or return undef; $version->isa('PPI::Token::Number') ? $version->literal : ''; } =pod =head2 arguments The C method gives you the rest of the statement after the module/pragma and module version, i.e. the stuff that will be used to construct what gets passed to the module's C subroutine. This does include the comma, etc. operators, but doesn't include non-significant direct children or any final semicolon. =cut sub arguments { my $self = shift; my @args = $self->schildren; # Remove the "use", "no" or "require" shift @args; # Remove the statement terminator if ( $args[-1]->isa('PPI::Token::Structure') and $args[-1]->content eq ';' ) { pop @args; } # Remove the module or perl version. shift @args; return unless @args; if ( $args[0]->isa('PPI::Token::Number') ) { my $after = $args[1] or return; $after->isa('PPI::Token::Operator') or shift @args; } return @args; } 1; =pod =head1 TO DO - Write specific unit tests for this package =head1 SUPPORT See the L in the main module. =head1 AUTHOR Adam Kennedy Eadamk@cpan.orgE =head1 COPYRIGHT Copyright 2001 - 2011 Adam Kennedy. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. The full text of the license can be found in the LICENSE file included with this module. =cut