package Symbol; =head1 NAME Symbol - manipulate Perl symbols and their names =head1 SYNOPSIS use Symbol; $sym = gensym; open($sym, "filename"); $_ = <$sym>; # etc. ungensym $sym; # no effect print qualify("x"), "\n"; # "Test::x" print qualify("x", "FOO"), "\n" # "FOO::x" print qualify("BAR::x"), "\n"; # "BAR::x" print qualify("BAR::x", "FOO"), "\n"; # "BAR::x" print qualify("STDOUT", "FOO"), "\n"; # "main::STDOUT" (global) print qualify(\*x), "\n"; # returns \*x print qualify(\*x, "FOO"), "\n"; # returns \*x use strict refs; print { qualify_to_ref $fh } "foo!\n"; $ref = qualify_to_ref $name, $pkg; use Symbol qw(delete_package); delete_package('Foo::Bar'); print "deleted\n" unless exists $Foo::{'Bar::'}; =head1 DESCRIPTION C creates an anonymous glob and returns a reference to it. Such a glob reference can be used as a file or directory handle. For backward compatibility with older implementations that didn't support anonymous globs, C is also provided. But it doesn't do anything. C turns unqualified symbol names into qualified variable names (e.g. "myvar" -E "MyPackage::myvar"). If it is given a second parameter, C uses it as the default package; otherwise, it uses the package of its caller. Regardless, global variable names (e.g. "STDOUT", "ENV", "SIG") are always qualified with "main::". Qualification applies only to symbol names (strings). References are left unchanged under the assumption that they are glob references, which are qualified by their nature. C is just like C except that it returns a glob ref rather than a symbol name, so you can use the result even if C is in effect. C wipes out a whole package namespace. Note this routine is not exported by default--you may want to import it explicitly. =cut BEGIN { require 5.002; } require Exporter; @ISA = qw(Exporter); @EXPORT = qw(gensym ungensym qualify qualify_to_ref); @EXPORT_OK = qw(delete_package); $VERSION = 1.03; my $genpkg = "Symbol::"; my $genseq = 0; my %global = map {$_ => 1} qw(ARGV ARGVOUT ENV INC SIG STDERR STDIN STDOUT); # # Note that we never _copy_ the glob; we just make a ref to it. # If we did copy it, then SVf_FAKE would be set on the copy, and # glob-specific behaviors (e.g. C<*$ref = \&func>) wouldn't work. # sub gensym () { my $name = "GEN" . $genseq++; my $ref = \*{$genpkg . $name}; delete $$genpkg{$name}; $ref; } sub ungensym ($) {} sub qualify ($;$) { my ($name) = @_; if (!ref($name) && index($name, '::') == -1 && index($name, "'") == -1) { my $pkg; # Global names: special character, "^x", or other. if ($name =~ /^([^a-z])|(\^[a-z])$/i || $global{$name}) { $pkg = "main"; } else { $pkg = (@_ > 1) ? $_[1] : caller; } $name = $pkg . "::" . $name; } $name; } sub qualify_to_ref ($;$) { return \*{ qualify $_[0], @_ > 1 ? $_[1] : caller }; } # # of Safe.pm lineage # sub delete_package ($) { my $pkg = shift; # expand to full symbol table name if needed unless ($pkg =~ /^main::.*::$/) { $pkg = "main$pkg" if $pkg =~ /^::/; $pkg = "main::$pkg" unless $pkg =~ /^main::/; $pkg .= '::' unless $pkg =~ /::$/; } my($stem, $leaf) = $pkg =~ m/(.*::)(\w+::)$/; my $stem_symtab = *{$stem}{HASH}; return unless defined $stem_symtab and exists $stem_symtab->{$leaf}; # free all the symbols in the package my $leaf_symtab = *{$stem_symtab->{$leaf}}{HASH}; foreach my $name (keys %$leaf_symtab) { undef *{$pkg . $name}; } # delete the symbol table %$leaf_symtab = (); delete $stem_symtab->{$leaf}; } 1;