use v5.8.0; use strict; use warnings; package Sub::Install; # ABSTRACT: install subroutines into packages easily $Sub::Install::VERSION = '0.929'; use Carp; use Scalar::Util (); #pod =head1 SYNOPSIS #pod #pod use Sub::Install; #pod #pod Sub::Install::install_sub({ #pod code => sub { ... }, #pod into => $package, #pod as => $subname #pod }); #pod #pod =head1 DESCRIPTION #pod #pod This module makes it easy to install subroutines into packages without the #pod unsightly mess of C or typeglobs lying about where just anyone can #pod see them. #pod #pod =func install_sub #pod #pod Sub::Install::install_sub({ #pod code => \&subroutine, #pod into => "Finance::Shady", #pod as => 'launder', #pod }); #pod #pod This routine installs a given code reference into a package as a normal #pod subroutine. The above is equivalent to: #pod #pod no strict 'refs'; #pod *{"Finance::Shady" . '::' . "launder"} = \&subroutine; #pod #pod If C is not given, the sub is installed into the calling package. #pod #pod If C is not a code reference, it is looked for as an existing sub in the #pod package named in the C parameter. If C is not given, it will look #pod in the calling package. #pod #pod If C is not given, and if C is a name, C will default to C. #pod If C is not given, but if C is a code ref, Sub::Install will try to #pod find the name of the given code ref and use that as C. #pod #pod That means that this code: #pod #pod Sub::Install::install_sub({ #pod code => 'twitch', #pod from => 'Person::InPain', #pod into => 'Person::Teenager', #pod as => 'dance', #pod }); #pod #pod is the same as: #pod #pod package Person::Teenager; #pod #pod Sub::Install::install_sub({ #pod code => Person::InPain->can('twitch'), #pod as => 'dance', #pod }); #pod #pod =func reinstall_sub #pod #pod This routine behaves exactly like C>, but does not emit a #pod warning if warnings are on and the destination is already defined. #pod #pod =cut sub _name_of_code { my ($code) = @_; require B; my $name = B::svref_2object($code)->GV->NAME; return $name unless $name =~ /\A__ANON__/; return; } # See also Params::Util, to which this code was donated. sub _CODELIKE { (Scalar::Util::reftype($_[0])||'') eq 'CODE' || Scalar::Util::blessed($_[0]) && (overload::Method($_[0],'&{}') ? $_[0] : undef); } # do the heavy lifting sub _build_public_installer { my ($installer) = @_; sub { my ($arg) = @_; my ($calling_pkg) = caller(0); # I'd rather use ||= but I'm whoring for Devel::Cover. for (qw(into from)) { $arg->{$_} = $calling_pkg unless $arg->{$_} } # This is the only absolutely required argument, in many cases. Carp::croak "named argument 'code' is not optional" unless $arg->{code}; if (_CODELIKE($arg->{code})) { $arg->{as} ||= _name_of_code($arg->{code}); } else { Carp::croak "couldn't find subroutine named $arg->{code} in package $arg->{from}" unless my $code = $arg->{from}->can($arg->{code}); $arg->{as} = $arg->{code} unless $arg->{as}; $arg->{code} = $code; } Carp::croak "couldn't determine name under which to install subroutine" unless $arg->{as}; $installer->(@$arg{qw(into as code) }); } } # do the ugly work my $_misc_warn_re; my $_redef_warn_re; BEGIN { $_misc_warn_re = qr/ Prototype\ mismatch:\ sub\ .+? | Constant subroutine .+? redefined /x; $_redef_warn_re = qr/Subroutine\ .+?\ redefined/x; } my $eow_re; BEGIN { $eow_re = qr/ at .+? line \d+\.\Z/ }; sub _do_with_warn { my ($arg) = @_; my $code = delete $arg->{code}; my $wants_code = sub { my $code = shift; sub { my $warn = $SIG{__WARN__} ? $SIG{__WARN__} : sub { warn @_ }; ## no critic local $SIG{__WARN__} = sub { my ($error) = @_; for (@{ $arg->{suppress} }) { return if $error =~ $_; } for (@{ $arg->{croak} }) { if (my ($base_error) = $error =~ /\A($_) $eow_re/x) { Carp::croak $base_error; } } for (@{ $arg->{carp} }) { if (my ($base_error) = $error =~ /\A($_) $eow_re/x) { return $warn->(Carp::shortmess $base_error); } } ($arg->{default} || $warn)->($error); }; $code->(@_); }; }; return $wants_code->($code) if $code; return $wants_code; } sub _installer { sub { my ($pkg, $name, $code) = @_; no strict 'refs'; ## no critic ProhibitNoStrict *{"$pkg\::$name"} = $code; return $code; } } BEGIN { *_ignore_warnings = _do_with_warn({ carp => [ $_misc_warn_re, $_redef_warn_re ] }); *install_sub = _build_public_installer(_ignore_warnings(_installer)); *_carp_warnings = _do_with_warn({ carp => [ $_misc_warn_re ], suppress => [ $_redef_warn_re ], }); *reinstall_sub = _build_public_installer(_carp_warnings(_installer)); *_install_fatal = _do_with_warn({ code => _installer, croak => [ $_redef_warn_re ], }); } #pod =func install_installers #pod #pod This routine is provided to allow Sub::Install compatibility with #pod Sub::Installer. It installs C and C methods into #pod the package named by its argument. #pod #pod Sub::Install::install_installers('Code::Builder'); # just for us, please #pod Code::Builder->install_sub({ name => $code_ref }); #pod #pod Sub::Install::install_installers('UNIVERSAL'); # feeling lucky, punk? #pod Anything::At::All->install_sub({ name => $code_ref }); #pod #pod The installed installers are similar, but not identical, to those provided by #pod Sub::Installer. They accept a single hash as an argument. The key/value pairs #pod are used as the C and C parameters to the C routine #pod detailed above. The package name on which the method is called is used as the #pod C parameter. #pod #pod Unlike Sub::Installer's C will not eval strings into code, but #pod will look for named code in the calling package. #pod #pod =cut sub install_installers { my ($into) = @_; for my $method (qw(install_sub reinstall_sub)) { my $code = sub { my ($package, $subs) = @_; my ($caller) = caller(0); my $return; for (my ($name, $sub) = %$subs) { $return = Sub::Install->can($method)->({ code => $sub, from => $caller, into => $package, as => $name }); } return $return; }; install_sub({ code => $code, into => $into, as => $method }); } } #pod =head1 EXPORTS #pod #pod Sub::Install exports C and C only if they are #pod requested. #pod #pod =head2 exporter #pod #pod Sub::Install has a never-exported subroutine called C, which is used #pod to implement its C routine. It takes a hashref of named arguments, #pod only one of which is currently recognize: C. This must be an arrayref #pod of subroutines to offer for export. #pod #pod This routine is mainly for Sub::Install's own consumption. Instead, consider #pod L. #pod #pod =cut sub exporter { my ($arg) = @_; my %is_exported = map { $_ => undef } @{ $arg->{exports} }; sub { my $class = shift; my $target = caller; for (@_) { Carp::croak "'$_' is not exported by $class" if !exists $is_exported{$_}; install_sub({ code => $_, from => $class, into => $target }); } } } BEGIN { *import = exporter({ exports => [ qw(install_sub reinstall_sub) ] }); } #pod =head1 SEE ALSO #pod #pod =over #pod #pod =item L #pod #pod This module is (obviously) a reaction to Damian Conway's Sub::Installer, which #pod does the same thing, but does it by getting its greasy fingers all over #pod UNIVERSAL. I was really happy about the idea of making the installation of #pod coderefs less ugly, but I couldn't bring myself to replace the ugliness of #pod typeglobs and loosened strictures with the ugliness of UNIVERSAL methods. #pod #pod =item L #pod #pod This is a complete Exporter.pm replacement, built atop Sub::Install. #pod #pod =back #pod #pod =head1 EXTRA CREDITS #pod #pod Several of the tests are adapted from tests that shipped with Damian Conway's #pod Sub-Installer distribution. #pod #pod =cut 1; __END__ =pod =encoding UTF-8 =head1 NAME Sub::Install - install subroutines into packages easily =head1 VERSION version 0.929 =head1 SYNOPSIS use Sub::Install; Sub::Install::install_sub({ code => sub { ... }, into => $package, as => $subname }); =head1 DESCRIPTION This module makes it easy to install subroutines into packages without the unsightly mess of C or typeglobs lying about where just anyone can see them. =head1 PERL VERSION This library should run on perls released even an extremely long time ago. It should work on any version of perl released in the last ten 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 FUNCTIONS =head2 install_sub Sub::Install::install_sub({ code => \&subroutine, into => "Finance::Shady", as => 'launder', }); This routine installs a given code reference into a package as a normal subroutine. The above is equivalent to: no strict 'refs'; *{"Finance::Shady" . '::' . "launder"} = \&subroutine; If C is not given, the sub is installed into the calling package. If C is not a code reference, it is looked for as an existing sub in the package named in the C parameter. If C is not given, it will look in the calling package. If C is not given, and if C is a name, C will default to C. If C is not given, but if C is a code ref, Sub::Install will try to find the name of the given code ref and use that as C. That means that this code: Sub::Install::install_sub({ code => 'twitch', from => 'Person::InPain', into => 'Person::Teenager', as => 'dance', }); is the same as: package Person::Teenager; Sub::Install::install_sub({ code => Person::InPain->can('twitch'), as => 'dance', }); =head2 reinstall_sub This routine behaves exactly like C>, but does not emit a warning if warnings are on and the destination is already defined. =head2 install_installers This routine is provided to allow Sub::Install compatibility with Sub::Installer. It installs C and C methods into the package named by its argument. Sub::Install::install_installers('Code::Builder'); # just for us, please Code::Builder->install_sub({ name => $code_ref }); Sub::Install::install_installers('UNIVERSAL'); # feeling lucky, punk? Anything::At::All->install_sub({ name => $code_ref }); The installed installers are similar, but not identical, to those provided by Sub::Installer. They accept a single hash as an argument. The key/value pairs are used as the C and C parameters to the C routine detailed above. The package name on which the method is called is used as the C parameter. Unlike Sub::Installer's C will not eval strings into code, but will look for named code in the calling package. =head1 EXPORTS Sub::Install exports C and C only if they are requested. =head2 exporter Sub::Install has a never-exported subroutine called C, which is used to implement its C routine. It takes a hashref of named arguments, only one of which is currently recognize: C. This must be an arrayref of subroutines to offer for export. This routine is mainly for Sub::Install's own consumption. Instead, consider L. =head1 SEE ALSO =over =item L This module is (obviously) a reaction to Damian Conway's Sub::Installer, which does the same thing, but does it by getting its greasy fingers all over UNIVERSAL. I was really happy about the idea of making the installation of coderefs less ugly, but I couldn't bring myself to replace the ugliness of typeglobs and loosened strictures with the ugliness of UNIVERSAL methods. =item L This is a complete Exporter.pm replacement, built atop Sub::Install. =back =head1 EXTRA CREDITS Several of the tests are adapted from tests that shipped with Damian Conway's Sub-Installer distribution. =head1 AUTHOR Ricardo SIGNES =head1 CONTRIBUTORS =for stopwords Chad Granum David Steinbrunner Ricardo SIGNES Signes =over 4 =item * Chad Granum =item * David Steinbrunner =item * Ricardo SIGNES =item * Ricardo Signes =back =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2005 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