Hi,

during last six months I've studied a language construct called Traits.
It is a construct to allow fine-grained code reuse and in my opinon
this would be a nice feature for PHP, which I did like to propose here.
The following RFC deals with the questions what Traits are, how they are
used, why they are usefull and how they do look like in PHP.
A patch implementing this new language construct is available, too.

Thank you for your attention and I'm looking forward to hear your comments
:)

Kind Regards
Stefan



Request for Comments: Traits for PHP
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

:HTML: http://www.stefan-marr.de/artikel/rfc-traits-for-php.html

... contents::

This RFC will discuss at first the motivation for Traits describing the
rationals
and presenting a short real world use case. The main part will describe the
concept of Traits in detail using the syntax for Traits implemented in a
patch
which is part of this proposal. In the end, the URL of the patch and 
additional resources about Traits are given.

Introduction
============

*Traits* is a mechanism for code reuse in single inheritance languages such
as PHP. A Trait is intended to reduce some limitations of single inheritance
by enabeling a developer to reuse sets of methods freely in several
independent
classes living in different class hierarchies.
The semantics of the combination of Traits and classes is defined in a way,
which reduces complexity and avoids the typical problems associated with
multiple
inheritance and Mixins.

They are recognized for their potential in supporting better composition
and reuse, hence their integration in newer versions of languages 
such as Perl 6, Squeak, Scala, Slate and Fortress.
Traits have also been ported to Java and C#.


Why do we need Traits?
----------------------

Code reuse is one of the main goals that object-oriented languages try to
achieve
with inheritance. Unfortunately, single inheritance often forces the
developer
to take a decision in favor for either code reuse *or* conceptual clean
class
hierarchies. To achieve code reuse, methods have either to be duplicated or
to be moved near the root of the class hierarchy, but this hampers
understandability and maintainability of code.

To circumvent this problems multiple inheritance and Mixins have been
invented.
But both of them are complex and hard to understand. PHP5
has been explicitly designed with the clean and successful model of Java in
mind: single inheritance, but multiple interfaces. This decision has been
taken
to avoid the known problems of for example C++.
Traits have been invented to avoid those problems, too. They enable designer
to build
conceptually clean class hierarchies without the need to consider code reuse
or
complexity problems, but focusing on the real problem domain and
maintainability
instead.

Traits: A Mechanism for Fine-grained Reuse
==========================================

A Trait is a unit of reuse much like a class, but only intended to group
functionality in a fine-grained and consistent way. It is not possible to
instantiate a Trait on its own. It is an addition to traditional inheritance
and enables horizontal composition of behavior.

The following code illustrates the current implementation of an extended
version of the PHP reflection API which provides detailed access to doc
comment
blocks.

ReflectionMethod and ReflectionFunction are classes from the reflection API
and
have to be extended with exactly the same code. In some situations it
would be possible to add a common base class, but in this case it is
impossible, because the extended classes are not under our control, i.e.,
they
are implemented in third party code or even in C, like it is the case here.
::

 <?php
 class ezcReflectionMethod extends ReflectionMethod {
   /* ... */
   function getReturnType() { /*1*/ }
   function getReturnDescription() { /*2*/ }
   /* ... */
 }

 class ezcReflectionFunction extends ReflectionFunction {
   /* ... */
   function getReturnType() { /*1*/ }
   function getReturnDescription() { /*2*/ }
   /* ... */
 }
 ?>

With Traits it is possible to refactor this redundant code out.
::

 <?php
 trait ezcReflectionReturnInfo {
   function getReturnType() { /*1*/ }
   function getReturnDescription() { /*2*/ }
 }

 class ezcReflectionMethod extends ReflectionMethod {
   use ezcReflectionReturnInfo;
   /* ... */
 }

 class ezcReflectionFunction extends ReflectionFunction {
   use ezcReflectionReturnInfo;
   /* ... */
 }
 ?> 

This is just a small example of what Traits are useful for.
The next sections will discuss on more advanced techniques and describe how
the
current implementation of Traits for PHP works.

The Flattening Property
-----------------------

As already mentioned, multiple inheritance and Mixins are complex
mechanisms.
Traits are an alternative which have been designed to impose no
additional semantics on classes. Traits are only entities of the literal
code
written in your source files. There is no notion about Traits at runtime.
They are used to group methods and reuse code and are totally flattened 
into the classes composed from them. It is almost like a language supported
and
failsafe copy'n'paste mechanism to build classes.

Precedence Order
""""""""""""""""

Flattening is achieved by applying some simple rules on the composition
mechanism. Instead of implementing a fancy and awkward algorithm to solve
problems, the entire control about the composition is left in the hand of
the
developer and fits nicely into the known inheritance model of PHP.
The following examples illustrate the semantics of Traits and their relation
to methods defined in classes.
::

 <?php
 class Base {
   public function sayHello() {
     echo 'Hello ';
   }
 }
 
 trait SayWorld {
   public function sayHello() {
     parent::sayHello();
     echo 'World!';
   }
 }

 class MyHelloWorld extends Base {
   use SayWorld;
 }

 $o = new MyHelloWorld();
 $o->sayHello(); // echos Hello World!
 ?>

As shown in the above code, an inherited method from a base class is
overridden
by the method inserted into ``MyHelloWorld`` from the ``SayWorld`` Trait.
The behavior is the same for methods defined in the ``MyHelloWorld`` class.
The precedence order is that methods from the current class override Trait
methods,
which in return override methods from the base class.
::

 <?php
 trait HelloWorld {
   public function sayHello() {
     echo 'Hello World!';
   }
 }

 class TheWorldIsNotEnough {
   use HelloWorld;
   public function sayHello() {
     echo 'Hello Universe!';
   }
 }

 $o = new TheWorldIsNotEnough();
 $o->sayHello(); // echos Hello Universe!
 ?>

Multiple Traits Usage
"""""""""""""""""""""

To keep things simple in the beginning, there has only one Trait being used
at
a time, but obviously a class could use multiple Traits at the same time.
::

 <?php
 trait Hello {
   public function sayHello() {
     echo 'Hello ';
   }
 }

 trait World {
   public function sayWorld() {
     echo ' World';
   }
 }
 
 class MyHelloWorld {
   use Hello;
   use World;
   public function sayExclamationMark() {
     echo '!';
   }
 }
 
 $o = new MyHelloWorld();
 $o->sayHello();
 $o->sayWorld();
 $o->sayExclamationMark();
 // Results eventually in: Hello World!

Conflict Resolution
"""""""""""""""""""

But now a problem will occur, if different Traits provide methods with the
same name.
::

 <?php
 trait A {
   public function smallTalk() {
     echo 'a';
   }
   public function bigTalk() {
     echo 'A';
   }
 }

 trait B {
   public function smallTalk() {
     echo 'b';
   }
   public function bigTalk() {
     echo 'B';
   }
 }
 ?>

Both classes have to be used in a class named ``Talker``. Multiple
inheritance
and Mixins define an algorithm to resolve this conflict. Traits don't.
Conflicts
aren't solved implicitly by any kind of precedence. Instead, to avoid
implicit
complexity, the developer has full control over class composition.
::

 <?php
 class Talker {
   use A;
   use B;
 }
 ?>
 
In case of the above definition of ``Talker``, PHP will show a notice that
there
have been conflicts and name the methods ``smallTalk()`` and ``bigTalk()`` 
as the reason of this conflict. Therefore, neither of the given
implementations
will be available in the class.

Instead, the developer can exactly define which methods are used and how the
conflict is resolved.
::

 <?php
 class Talker {
   use A { !smallTalk }
   use B { !bigTalk }
 }
 ?>

This definition will result in the exclusion of ``smallTalk()`` from the
Trait A
and ``bigTalk()`` from Trait B. Therefore, the resulting class Talker would 
echo ``'b'`` for ``smallTalk()`` and ``'A'`` for ``bigTalk().``
But simple exclusion of methods is not the best choice for all situations.
::

 <?php
 class Talker {
   use A { !smallTalk }
   use B { !bigTalk, talk => bigTalk }
 }
 ?>
 
Beside the exclusion an alias operation is available, too. This alias
operation, notated like a ``key => value`` for arrays even has a similar 
semantics like the array notation. The definition ``talk => bigTalk`` 
lets the new name ``talk`` refer to the method body of ``bigTalk``
of the Trait B. The resulting ``Talker`` class will consist of following
three methods:

* ``bigTalk() { echo 'A'; }``
* ``smallTalk() { echo 'b'; }``
* ``talk() { echo 'B'; }``

Since the alias operation adds a new name to an existing method body, the
``bigTalk`` method still has to be excluded. Otherwise, PHP would print
a notice that two methods from Traits have a conflict and are excluded.
Aliasing is not renaming and references in methods to a given method name
aren't changed either. On the first look this may sound strange, but it
provides the opportunity to build Traits and even hierarchies of Traits
which
fit together very well.

Traits Composed from Traits
"""""""""""""""""""""""""""

Not explicitly mentioned jet, but implied by the flattening property is the
composition of Traits from Traits.
Since Traits are fully flattened away at compile time it is possible to use
Traits to compose Traits without any additional impact on the semantics.
The following code illustrates this::

 <?php
 trait Hello {
   public function sayHello() {
     echo 'Hello ';
   }
 }

 trait World {
   public function sayWorld() {
     echo 'World!';
   }
 }

 trait HelloWorld {
   use Hello;
   use World;
 }

 class MyHelloWorld {
   use HelloWorld;
 }

 $o = new MyHelloWorld();
 $o->sayHello();
 $o->sayWorld();
 // Results eventually in: Hello World!
 ?>

Traits itself can take part in arbitrary compositions, but Traits are not
part
of the inheritance tree i.e., it is not possible to inherit from a Trait to
avoid confusion and misuse of Traits.

Traits Semantics Summarized
---------------------------

1. Traits do not add runtime semantics, they only take part in the process
of
   building a class.
2. Traits integrate into the precedence order of method overriding.
3. To avoid complexity, conflicts between Trait methods have to be solved
   explicitly. Otherwise a notice is generated and the conflicting methods
   are excluded.
4. Specific methods can be excluded from a composition to handle conflicts.
5. Aliases can be defined for methods to enable reuse of conflicting
methods.
6. Traits can be composed from Traits.

As a result of this semantics, at runtime, classes build using Traits are
not distinguishable 
from classes not using Traits but traditional code duplication instead.
Semantics of ``parent`` and ``$this`` hasn't changed, too. Used in a Trait
method, they behave exactly the same as if the method has been defined in
the
class directly.

Visibility and Interfaces
-------------------------

Visibility modifiers have not been discussed so far. Since Traits are meant
as
units of reuse, modifiers should be changeable easily in the context of a
composed class. Therefore, the aliasing operation is able to change the
visibility modifier of a method, too.
::

 <?php
 trait HelloWorld {
   public function sayHello() {
     echo 'Hello World!';
   }
 }

 class MyClass1 {
   use HelloWorld { protected sayHello }
 }

 class MyClass2 {
   use HelloWorld { private doHelloWorld => sayHello }
 }
 ?>

The abstract and final modifiers are supported, too. Abstract methods in
Traits are commonly used to define requirements a Trait needs to have
implemented by a class. The static modifier is not supported, because it
would
change the methods semantics and references to ``$this`` would break.

Another important feature of PHP is the support of interfaces. A often used
metaphor to describe Traits is *Traits are interfaces with implementation*.
Traits can be utilized to provide the implementation for a specific
interface
and since an interface is a guarantee that some methods are available it
fits
in the concept of Traits which provides those methods very well.

To underpin this relationship, it is possible to declare that a Trait
implements an interface like this::

 <?php
 interface IHello {
   public function sayHello();
 }
 
 trait SayHello implements IHello {
   public function sayHello() {
     echo 'Hello World!';
   }
 }

 class MyHelloWorld {
   use SayHello;
 }
 
 $o = new MyHelloWorld();
 var_dump($o instanceof IHello);  // bool(true)

If a Trait implements an interface, this definition is propagated to the
class
using the Trait. Therefore, it is possible to provide implementations for an
interface
and reuse them in different classes.

Proposal and Patch
==================

This Request for Comments proposes a new language feature for PHP named
Traits.
Traits are a nice approach to enhance the capabilities to design conceptual
consistent class hierarchies and avoid code duplication.

The patch against the PHP_5_2 branch is available at
http://toolslave.net/snapshots/traits/traits.patch
The written test cases are located here:
http://toolslave.net/snapshots/traits/traits-tests.zip
Additionally, the SVN repo used for developing this patch is located at
https://instantsvc.svn.sourceforge.net/svnroot/instantsvc/branches/php-exten
sion/traits-php/ 

Alternative Syntax Proposals
----------------------------

This section collects proposals for alternative Traits syntaxes.

Traits Use Definition in the Class Header
"""""""""""""""""""""""""""""""""""""""""

Instead of declaring the Trait composition in the class body, it could be
defined in the class prologue like this::
 
 <?php
 trait Hello {
   public function sayHello() {}
 }


 class MyHelloWorld extends BaseClass
   uses Hello (hello => sayHello, !sayHello) 
 {
   public function foo() {}
 }
 ?>

The drawback of this notation is the implied notation of Traits as some kind
of
a type changing construct. Since they do not influence the type as their
major
feature, this notion would be misleading. Furthermore, this notation seams
to
have readability problems. Complex compositions are not as clearly arranged
as
they are with the *In-Body* notation.
A patch implementing this notation is available at:
http://toolslave.net/snapshots/traits/traits-head-syntax.patch


More about Traits
-----------------

As already mentioned, Traits is not a totally new concept, but the semantics
used in this proposal has been fully defined at first in 2003. For
scientific
information and papers about Traits
http://www.iam.unibe.ch/~scg/Research/Traits/
is a good starting point. Since it isn't a purely academic concepts, there
are
already languages supporting Traits out there. Squeak, Perl6, Scala, Slate,
Fortress and even for C#/Rotor implementation are available.

A detailed technical report has been published at 
http://www.iam.unibe.ch/~scg/Archive/Papers/Duca06bTOPLASTraits.pdf
It explains Traits and gives some formal proves about the soundness of
Traits, too.

Last but not least, in this Phd thesis
http://www.iam.unibe.ch/~scg/Archive/PhD/schaerli-phd.pdf
two case studies have been publish illustrating the benefits Traits are
providing.

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