SYNOPSIS

First of all, you'll need tie(), so:

   require 5.004;

Function interface (experimental). Use this with any existing class...

use IO::WrapTie; use FooHandle; ### implements TIEHANDLE interface

### Suppose we want a "FooHandle->new(&FOO_RDWR, 2)". ### We can instead say...

$FH = wraptie('FooHandle', &FOO_RDWR, 2);

### Now we can use... print $FH "Hello, "; ### traditional operator syntax... $FH->print("world!\n"); ### ...and OO syntax as well!

\s-1OO\s0 interface (preferred). You can inherit from the IO::WrapTie::Slave mixin to get a nifty \*(C`new_tie()\*(C' constructor...

#------------------------------ package FooHandle; ### a class which can TIEHANDLE

use IO::WrapTie; @ISA = qw(IO::WrapTie::Slave); ### inherit new_tie() ...

#------------------------------ package main;

$FH = FooHandle->new_tie(&FOO_RDWR, 2); ### $FH is an IO::WrapTie::Master print $FH "Hello, "; ### traditional operator syntax $FH->print("world!\n"); ### OO syntax

See IO::Scalar as an example. It also shows you how to create classes which work both with and without 5.004.

DESCRIPTION

Suppose you have a class \*(C`FooHandle\*(C', where...

  • FooHandle does not inherit from IO::Handle; that is, it performs filehandle-like I/O, but to something other than an underlying file descriptor. Good examples are IO::Scalar (for printing to a string) and IO::Lines (for printing to an array of lines).

  • FooHandle implements the \s-1TIEHANDLE\s0 interface (see perltie); that is, it provides methods \s-1TIEHANDLE\s0, \s-1GETC\s0, \s-1PRINT\s0, \s-1PRINTF\s0, \s-1READ\s0, and \s-1READLINE\s0.

  • FooHandle implements the traditional \s-1OO\s0 interface of FileHandle and IO::Handle; i.e., it contains methods like getline(), read(), print(), seek(), tell(), eof(), etc.

Normally, users of your class would have two options:

  • Use only \s-1OO\s0 syntax, and forsake named I/O operators like 'print'.

  • Use with tie, and forsake treating it as a first-class object (i.e., class-specific methods can only be invoked through the underlying object via tied()... giving the object a \*(L"split personality\*(R").

But now with IO::WrapTie, you can say:

$WT = wraptie('FooHandle', &FOO_RDWR, 2); $WT->print("Hello, world\n"); ### OO syntax print $WT "Yes!\n"; ### Named operator syntax too! $WT->weird_stuff; ### Other methods!

And if you're authoring a class like FooHandle, just have it inherit from \*(C`IO::WrapTie::Slave\*(C' and that first line becomes even prettier:

$WT = FooHandle->new_tie(&FOO_RDWR, 2);

The bottom line: now, almost any class can look and work exactly like an IO::Handle... and be used both with \s-1OO\s0 and non-OO filehandle syntax.

HOW IT ALL WORKS

The data structures

Consider this example code, using classes in this distribution:

use IO::Scalar; use IO::WrapTie;

$WT = wraptie('IO::Scalar',\$s); print $WT "Hello, "; $WT->print("world!\n");

In it, the wraptie() function creates a data structure as follows:

* $WT is a blessed reference to a tied filehandle $WT glob; that glob is tied to the "Slave" object. | * You would do all your i/o with $WT directly. | | | ,---isa--> IO::WrapTie::Master >--isa--> IO::Handle V / .-------------. | | | | * Perl i/o operators work on the tied object, | "Master" | invoking the TIEHANDLE methods. | | * Method invocations are delegated to the tied | | slave. `-------------' | tied(*$WT) | .---isa--> IO::WrapTie::Slave V / .-------------. | | | "Slave" | * Instance of FileHandle-like class which doesn't | | actually use file descriptors, like IO::Scalar. | IO::Scalar | * The slave can be any kind of object. | | * Must implement the TIEHANDLE interface. `-------------'

\s-1NOTE:\s0 just as an IO::Handle is really just a blessed reference to a traditional filehandle glob... so also, an IO::WrapTie::Master is really just a blessed reference to a filehandle glob which has been tied to some \*(L"slave\*(R" class.

How \fIwraptie()\fP works

1.

The call to function \*(C`wraptie(SLAVECLASS, TIEARGS...)\*(C' is passed onto \*(C`IO::WrapTie::Master::new()\*(C'. Note that class IO::WrapTie::Master is a subclass of IO::Handle.

2.

The \*(C`IO::WrapTie::Master::new\*(C' method creates a new IO::Handle object, reblessed into class IO::WrapTie::Master. This object is the master, which will be returned from the constructor. At the same time...

3.

The \*(C`new\*(C' method also creates the slave: this is an instance of \s-1SLAVECLASS\s0 which is created by tying the master's IO::Handle to \s-1SLAVECLASS\s0 via \*(C`tie(HANDLE, SLAVECLASS, TIEARGS...)\*(C'. This call to \*(C`tie()\*(C' creates the slave in the following manner:

4.

Class \s-1SLAVECLASS\s0 is sent the message \*(C`TIEHANDLE(TIEARGS...)\*(C'; it will usually delegate this to \*(C`SLAVECLASS::new(TIEARGS...)\*(C', resulting in a new instance of \s-1SLAVECLASS\s0 being created and returned.

5.

Once both master and slave have been created, the master is returned to the caller.

How I/O operators work (on the master)

Consider using an i/o operator on the master:

print $WT "Hello, world!\n";

Since the master ($WT) is really a [blessed] reference to a glob, the normal Perl i/o operators like \*(C`print\*(C' may be used on it. They will just operate on the symbol part of the glob.

Since the glob is tied to the slave, the slave's \s-1PRINT\s0 method (part of the \s-1TIEHANDLE\s0 interface) will be automatically invoked.

If the slave is an IO::Scalar, that means IO::Scalar::PRINT will be invoked, and that method happens to delegate to the \*(C`print()\*(C' method of the same class. So the real work is ultimately done by IO::Scalar::print().

How methods work (on the master)

Consider using a method on the master:

$WT->print("Hello, world!\n");

Since the master ($WT) is blessed into the class IO::WrapTie::Master, Perl first attempts to find a \*(C`print()\*(C' method there. Failing that, Perl next attempts to find a \*(C`print()\*(C' method in the superclass, IO::Handle. It just so happens that there is such a method; that method merely invokes the \*(C`print\*(C' i/o operator on the self object... and for that, see above!

But let's suppose we're dealing with a method which isn't part of IO::Handle... for example:

my $sref = $WT->sref;

In this case, the intuitive behavior is to have the master delegate the method invocation to the slave (now do you see where the designations come from?). This is indeed what happens: IO::WrapTie::Master contains an \s-1AUTOLOAD\s0 method which performs the delegation.

So: when \*(C`sref()\*(C' can't be found in IO::Handle, the \s-1AUTOLOAD\s0 method of IO::WrapTie::Master is invoked, and the standard behavior of delegating the method to the underlying slave (here, an IO::Scalar) is done.

Sometimes, to get this to work properly, you may need to create a subclass of IO::WrapTie::Master which is an effective master for your class, and do the delegation there.

NOTES

Why not simply use the object's \s-1OO\s0 interface?

    Because that means forsaking the use of named operators

like print(), and you may need to pass the object to a subroutine which will attempt to use those operators:

$O = FooHandle->new(&FOO_RDWR, 2); $O->print("Hello, world\n"); ### OO syntax is okay, BUT....

sub nope { print $_[0] "Nope!\n" } X nope($O); ### ERROR!!! (not a glob ref)

Why not simply use tie()?

    Because (1) you have to use tied() to invoke methods in the

object's public interface (yuck), and (2) you may need to pass the tied symbol to another subroutine which will attempt to treat it in an OO-way... and that will break it:

tie *T, 'FooHandle', &FOO_RDWR, 2; print T "Hello, world\n"; ### Operator is okay, BUT...

tied(*T)->other_stuff; ### yuck! AND...

sub nope { shift->print("Nope!\n") } X nope(\*T); ### ERROR!!! (method "print" on unblessed ref)

Why a master and slave?

  Why not simply write FooHandle to inherit from IO::Handle?
    I tried this, with an implementation similar to that of IO::Socket.

The problem is that the whole point is to use this with objects that don't have an underlying file/socket descriptor.. Subclassing IO::Handle will work fine for the \s-1OO\s0 stuff, and fine with named operators if you tie()... but if you just attempt to say:

$IO = FooHandle->new(&FOO_RDWR, 2); print $IO "Hello!\n";

you get a warning from Perl like:

Filehandle GEN001 never opened

because it's trying to do system-level i/o on an (unopened) file descriptor. To avoid this, you apparently have to tie() the handle... which brings us right back to where we started! At least the IO::WrapTie mixin lets us say:

$IO = FooHandle->new_tie(&FOO_RDWR, 2); print $IO "Hello!\n";

and so is not too bad. \*(C`:-)\*(C'

WARNINGS

Remember: this stuff is for doing FileHandle-like i/o on things without underlying file descriptors. If you have an underlying file descriptor, you're better off just inheriting from IO::Handle.

Be aware that new_tie() always returns an instance of a kind of IO::WrapTie::Master... it does not return an instance of the i/o class you're tying to!

Invoking some methods on the master object causes \s-1AUTOLOAD\s0 to delegate them to the slave object... so it looks like you're manipulating a \*(L"FooHandle\*(R" object directly, but you're not.

I have not explored all the ramifications of this use of tie(). Here there be dragons.

VERSION

$Id: WrapTie.pm,v 1.2 2005/02/10 21:21:53 dfs Exp $

AUTHOR

Primary Maintainer

David F. Skoll ([email protected]).

Original Author

Eryq ([email protected]). President, ZeeGee Software Inc (http://www.zeegee.com).