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package IO::Wrap; use strict; use Exporter; use FileHandle; use Carp; our $VERSION = '2.113'; our @ISA = qw(Exporter); our @EXPORT = qw(wraphandle); #------------------------------ # wraphandle RAW #------------------------------ sub wraphandle { my $raw = shift; new IO::Wrap $raw; } #------------------------------ # new STREAM #------------------------------ sub new { my ($class, $stream) = @_; no strict 'refs'; ### Convert raw scalar to globref: ref($stream) or $stream = \*$stream; ### Wrap globref and incomplete objects: if ((ref($stream) eq 'GLOB') or ### globref (ref($stream) eq 'FileHandle') && !defined(&FileHandle::read)) { return bless \$stream, $class; } $stream; ### already okay! } #------------------------------ # I/O methods... #------------------------------ sub close { my $self = shift; return close($$self); } sub fileno { my $self = shift; my $fh = $$self; return fileno($fh); } sub getline { my $self = shift; my $fh = $$self; return scalar(<$fh>); } sub getlines { my $self = shift; wantarray or croak("Can't call getlines in scalar context!"); my $fh = $$self; <$fh>; } sub print { my $self = shift; print { $$self } @_; } sub read { my $self = shift; return read($$self, $_[0], $_[1]); } sub seek { my $self = shift; return seek($$self, $_[0], $_[1]); } sub tell { my $self = shift; return tell($$self); } 1; __END__ =head1 NAME IO::Wrap - Wrap raw filehandles in the IO::Handle interface =head1 SYNOPSIS use strict; use warnings; use IO::Wrap; # this is a fairly senseless use case as IO::Handle already does this. my $wrap_fh = IO::Wrap->new(\*STDIN); my $line = $wrap_fh->getline(); # Do stuff with any kind of filehandle (including a bare globref), or # any kind of blessed object that responds to a print() message. # already have a globref? a FileHandle? a scalar filehandle name? $wrap_fh = IO::Wrap->new($some_unknown_thing); # At this point, we know we have an IO::Handle-like object! YAY $wrap_fh->print("Hey there!"); You can also do this using a convenience wrapper function use strict; use warnings; use IO::Wrap qw(wraphandle); # this is a fairly senseless use case as IO::Handle already does this. my $wrap_fh = wraphandle(\*STDIN); my $line = $wrap_fh->getline(); # Do stuff with any kind of filehandle (including a bare globref), or # any kind of blessed object that responds to a print() message. # already have a globref? a FileHandle? a scalar filehandle name? $wrap_fh = wraphandle($some_unknown_thing); # At this point, we know we have an IO::Handle-like object! YAY $wrap_fh->print("Hey there!"); =head1 DESCRIPTION Let's say you want to write some code which does I/O, but you don't want to force the caller to provide you with a L<FileHandle> or L<IO::Handle> object. You want them to be able to say: do_stuff(\*STDOUT); do_stuff('STDERR'); do_stuff($some_FileHandle_object); do_stuff($some_IO_Handle_object); And even: do_stuff($any_object_with_a_print_method); Sure, one way to do it is to force the caller to use C<tiehandle()>. But that puts the burden on them. Another way to do it is to use B<IO::Wrap>. Clearly, when wrapping a raw external filehandle (like C<\*STDOUT>), I didn't want to close the file descriptor when the wrapper object is destroyed; the user might not appreciate that! Hence, there's no C<DESTROY> method in this class. When wrapping a L<FileHandle> object, however, I believe that Perl will invoke the C<FileHandle::DESTROY> when the last reference goes away, so in that case, the filehandle is closed if the wrapped L<FileHandle> really was the last reference to it. =head1 FUNCTIONS L<IO::Wrap> makes the following functions available. =head2 wraphandle # wrap a filehandle glob my $fh = wraphandle(\*STDIN); # wrap a raw filehandle glob by name $fh = wraphandle('STDIN'); # wrap a handle in an object $fh = wraphandle('Class::HANDLE'); # wrap a blessed FileHandle object use FileHandle; my $fho = FileHandle->new("/tmp/foo.txt", "r"); $fh = wraphandle($fho); # wrap any other blessed object that shares IO::Handle's interface $fh = wraphandle($some_object); This function is simply a wrapper to the L<IO::Wrap/"new"> constructor method. =head1 METHODS L<IO::Wrap> implements the following methods. =head2 close $fh->close(); The C<close> method will attempt to close the system file descriptor. For a more complete description, read L<perlfunc/close>. =head2 fileno my $int = $fh->fileno(); The C<fileno> method returns the file descriptor for the wrapped filehandle. See L<perlfunc/fileno> for more information. =head2 getline my $data = $fh->getline(); The C<getline> method mimics the function by the same name in L<IO::Handle>. It's like calling C<< my $data = <$fh>; >> but only in scalar context. =head2 getlines my @data = $fh->getlines(); The C<getlines> method mimics the function by the same name in L<IO::Handle>. It's like calling C<< my @data = <$fh>; >> but only in list context. Calling this method in scalar context will result in a croak. =head2 new # wrap a filehandle glob my $fh = IO::Wrap->new(\*STDIN); # wrap a raw filehandle glob by name $fh = IO::Wrap->new('STDIN'); # wrap a handle in an object $fh = IO::Wrap->new('Class::HANDLE'); # wrap a blessed FileHandle object use FileHandle; my $fho = FileHandle->new("/tmp/foo.txt", "r"); $fh = IO::Wrap->new($fho); # wrap any other blessed object that shares IO::Handle's interface $fh = IO::Wrap->new($some_object); The C<new> constructor method takes in a single argument and decides to wrap it or not it based on what it seems to be. A raw scalar file handle name, like C<"STDOUT"> or C<"Class::HANDLE"> can be wrapped, returning an L<IO::Wrap> object instance. A raw filehandle glob, like C<\*STDOUT> can also be wrapped, returning an L<IO::Wrawp> object instance. A blessed L<FileHandle> object can also be wrapped. This is a special case where an L<IO::Wrap> object instance will only be returned in the case that your L<FileHandle> object doesn't support the C<read> method. Also, any other kind of blessed object that conforms to the L<IO::Handle> interface can be passed in. In this case, you just get back that object. In other words, we only wrap it into an L<IO::Wrap> object when what you've supplied doesn't already conform to the L<IO::Handle> interface. If you get back an L<IO::Wrap> object, it will obey a basic subset of the C<IO::> interface. It will do so with object B<methods>, not B<operators>. =head3 CAVEATS This module does not allow you to wrap filehandle names which are given as strings that lack the package they were opened in. That is, if a user opens FOO in package Foo, they must pass it to you either as C<\*FOO> or as C<"Foo::FOO">. However, C<"STDIN"> and friends will work just fine. =head2 print $fh->print("Some string"); $fh->print("more", " than one", " string"); The C<print> method will attempt to print a string or list of strings to the filehandle. For a more complete description, read L<perlfunc/print>. =head2 read my $buffer; # try to read 30 chars into the buffer starting at the # current cursor position. my $num_chars_read = $fh->read($buffer, 30); The L<read> method attempts to read a number of characters, starting at the filehandle's current cursor position. It returns the number of characters actually read. See L<perlfunc/read> for more information. =head2 seek use Fcntl qw(:seek); # import the SEEK_CUR, SEEK_SET, SEEK_END constants # seek to the position in bytes $fh->seek(0, SEEK_SET); # seek to the position in bytes from the current position $fh->seek(22, SEEK_CUR); # seek to the EOF plus bytes $fh->seek(0, SEEK_END); The C<seek> method will attempt to set the cursor to a given position in bytes for the wrapped file handle. See L<perlfunc/seek> for more information. =head2 tell my $bytes = $fh->tell(); The C<tell> method will attempt to return the current position of the cursor in bytes for the wrapped file handle. See L<perlfunc/tell> for more information. =head1 AUTHOR Eryq (F<eryq@zeegee.com>). President, ZeeGee Software Inc (F<http://www.zeegee.com>). =head1 CONTRIBUTORS Dianne Skoll (F<dfs@roaringpenguin.com>). =head1 COPYRIGHT & LICENSE Copyright (c) 1997 Erik (Eryq) Dorfman, ZeeGee Software, Inc. All rights reserved. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut