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I've been trying to study up on PHP lately, and I find myself getting hung up on traits. I understand the concept of horizontal code reuse and not wanting to necessarily inherit from an abstract class. What I don't understand is what is the crucial difference between using traits versus interfaces?

I've tried searching for a decent blog post or article explaining when to use one or the other, but the examples I've found so far seem so similar as to be identical.

Could anyone out there share their opinion/view on this?

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4  
interface do not have any code in the function bodies. they actually do not have any function bodies. –  hakre Aug 16 '12 at 18:37
2  
Despite my much-upvoted answer, I'd like it stated for the record that I'm generally anti-trait/mixin. Check this chat transcript to read how traits often undermine solid OOP practices. –  rdlowrey Dec 1 '12 at 7:11
    
I'd argue to the contrary. Having worked with PHP for years before and since the advent of traits, I think it's easy to prove their worth. Just read through this practical example which enables 'image models' to also walk and talk like Imagick objects, less all the bloat needed in the old days before traits. –  quickshiftin Nov 30 at 0:53

8 Answers 8

up vote 79 down vote accepted

An interface defines a set of methods that the implementing class must implement.

When a trait is use'd the implementations of the methods come along too--which doesn't happen in an Interface.

That is the biggest difference.

From the Traits rfc:

A often used metaphor to describe Traits is Traits are interfaces with implementation.

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2  
@JREAM In practice, nothing. In reality, much more. –  Alec Gorge May 9 '12 at 11:22
38  
Except that traits are not interfaces at all. Interfaces are specification that can be checked against. Traits cannot be checked against, hence they are implementation only. They are the exact opposite of interfaces. That line in the RFC is simply wrong... –  ircmaxell May 9 '12 at 12:23
56  
Traits are essentially language assisted copy and paste. –  Shahid Nov 14 '12 at 5:58
3  
That's not a metaphor. That's butchering the meaning of a word. It's like describing a box as a surface with volume. –  cleong Nov 27 '12 at 8:02
3  
To expand on ircmaxell's and Shadi's comments: You can check whether an object implements an interface (via instanceof), and you can ensure that a method argument implements an interface via a type hint in the method signature. You can't perform corresponding checks for traits. –  Brian D'Astous Dec 24 '13 at 1:30
up vote 224 down vote
+500

Public Service Announcement:

I want to state for the record that I believe traits are almost always a code smell and should be avoided in favor of composition. It's my opinion that single inheritance is frequently abused to the appoint of being an anti-pattern and multiple inheritance only compounds this problem. You'll be much better served in most cases by favoring composition over inheritance (be it single or multiple). If you're still interested in traits and their relationship to interfaces, read on ...


Let's start by saying this:

Object-Oriented Programming (OOP) can be a difficult paradigm to grasp. Just because you're using classes doesn't mean your code is Object-Oriented (OO).

To write OO code you need to understand that OOP is really about the capabilities of your objects. You've got to think about classes in terms of what they can do instead of what they actually do. This is in stark contrast to traditional procedural programming where the focus is on making a bit of code "do something."

If OOP code is about planning and design, an interface is the blueprint and an object the fully constructed house. Meanwhile, traits are simply a way to help build the house laid out by the blueprint (the interface).

Interfaces

So why should we use interfaces? Quite simply, interfaces make our code less brittle. If you doubt this statement, ask anyone who's been forced to maintain legacy code that wasn't written against interfaces.

The interface is a contract between the programmer and his/her code. The interface says, "As long as you play by my rules you can implement me however you like and I promise I won't break your other code."

So as an example, consider a real-world scenario (no cars or widgets):

You want to implement a caching system for a web application to cut down on server load

You start out by writing a class to cache request responses using APC:

class ApcCacher
{
  public function fetch($key) {
    return apc_fetch($key);
  }
  public function store($key, $data) {
    return apc_store($key, $data);
  }
  public function delete($key) {
    return apc_delete($key);
  }
}

Then, in your http response object, you check for a cache hit before doing all the work to generate the actual response:

class Controller
{
  protected $req;
  protected $resp;
  protected $cacher;

  public function __construct(Request $req, Response $resp, ApcCacher $cacher=NULL) {
    $this->req    = $req;
    $this->resp   = $resp;
    $this->cacher = $cacher;

    $this->buildResponse();
  }

  public function buildResponse() {
    if (NULL !== $this->cacher && $response = $this->cacher->fetch($this->req->uri()) {
      $this->resp = $response;
    } else {
      // build the response manually
    }
  }

  public function getResponse() {
    return $this->resp;
  }
}

This approach works great. But maybe a few weeks later you decide you want to use a file-based cache system instead of APC. Now you have to change your controller code because you've programmed your controller to work with the functionality of the ApcCacher class rather than to an interface that expresses the capabilities of the ApcCacher class. Let's say instead of the above you had made the Controller class reliant on a CacherInterface instead of the concrete ApcCacher like so:

// your controller's constructor using the interface as a dependency
public function __construct(Request $req, Response $resp, CacherInterface $cacher=NULL)

To go along with that you define your interface like so:

interface CacherInterface
{
  public function fetch($key);
  public function store($key, $data);
  public function delete($key);
}

In turn you have both your ApcCacher and your new FileCacher classes implement the CacherInterface and you program your Controller class to use the capabilities required by the interface.

This example (hopefully) demonstrates how programming to an interface allows you to change the internal implementation of your classes without worrying if the changes will break your other code.

Traits

Traits, on the other hand, are simply a method for re-using code. Interfaces should not be thought of as a mutually exclusive alternative to traits. In fact, creating traits that fulfill the capabilities required by an interface is the ideal use case.

You should only use traits when multiple classes share the same functionality (likely dictated by the same interface). There's no sense in using a trait to provide functionality for a single class: that only obfuscates what the class does and a better design would move the trait's functionality into the relevant class.

Consider the following trait implementation:

interface Person
{
    public function greet();
    public function eat($food);
}

trait EatingTrait
{
    public function eat($food)
    {
        $this->putInMouth($food);
    }

    private function putInMouth($food)
    {
        // digest delicious food
    }
}

class NicePerson implements Person
{
    use EatingTrait;

    public function greet()
    {
        echo 'Good day, good sir!';
    }
}

class MeanPerson implements Person
{
    use EatingTrait;

    public function greet()
    {
        echo 'Your mother was a hamster!';
    }
}

A more concrete example: imagine both your FileCacher and your ApcCacher from the interface discussion use the same method to determine whether a cache entry is stale and should be deleted (obviously this isn't the case in real life, but go with it). You could write a trait and allow both classes to use it to for the common interface requirement.

One final word of caution: be careful not to go overboard with traits. Often traits are used as a crutch for poor design when unique class implementations would suffice. You should limit traits to fulfilling interface requirements for best code design.

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23  
I was really looking for the quick simple answer that was provided above, but I have to say that you gave an excellent in-depth answer that will help make the distinction clearer for others, kudos. –  datguywhowanders Feb 9 '12 at 14:56
12  
"[C]reating traits that fulfill the capabilities required by an interface in a given class is an ideal use case". Exactly: +1 –  Alec Gorge Feb 9 '12 at 20:38
3  
Would it be fair to say that traits in PHP are similar to mixins in other languages? –  Eno Jul 5 '12 at 15:22
4  
@rdlowrey one of the best answers on SO. thanks. –  johnny Aug 20 '12 at 19:44
3  
@igorpan For all intents and purposes I would say PHP's trait implementation is the same as multiple inheritance. It's worth noting that if a trait in PHP specifies static properties then each class using the trait will have its own copy of the static property. More importantly ... seeing how this post is now extremely high on the SERPs when querying for traits I'm going to add a public service announcement to the top of the page. You should read it. –  rdlowrey Apr 1 '13 at 17:07

A trait is essentially PHP's implementation of a mixin, and is effectively a set of extension methods which can be added to any class through the addition of the trait. The methods then become part of that class' implementation, but without using inheritance.

From the PHP Manual (emphasis mine):

Traits are a mechanism for code reuse in single inheritance languages such as PHP. ... It is an addition to traditional inheritance and enables horizontal composition of behavior; that is, the application of class members without requiring inheritance.

An example:

trait myTrait {
    function foo() { return "Foo!"; }
    function bar() { return "Bar!"; }
}

With the above trait defined, I can now do the following:

class MyClass extends SomeBaseClass {
    use myTrait; // Inclusion of the trait myTrait
}

At this point, when I create an instance of class MyClass, it has two methods, called foo() and bar() - which come from myTrait. And - notice that the trait-defined methods already have a method body - which an Interface-defined method can't.

Additionally - PHP, like many other languages, uses a single inheritance model - meaning that a class can derive from multiple interfaces, but not multiple classes. However, a PHP class can have multiple trait inclusions - which allows the programmer to include reusable pieces - as they might if including multiple base classes.

A few things to note:

                      -----------------------------------------------
                      |   Interface   |  Base Class   |    Trait    |
                      ===============================================
> 1 per class         |      Yes      |       No      |     Yes     |
---------------------------------------------------------------------
Define Method Body    |      No       |       Yes     |     Yes     |
---------------------------------------------------------------------
Polymorphism          |      Yes      |       Yes     |     No      |
---------------------------------------------------------------------

Polymorphism:

In the earlier example, where MyClass extends SomeBaseClass, MyClass is an instance of SomeBaseClass. In other words, an array such as SomeBaseClass[] bases can contain instances of MyClass. Similarly, if MyClass extended IBaseInterface, an array of IBaseInterface[] bases could contain instances of MyClass. There is no such polymorphic construct available with a trait - because a trait is essentially just code which is copied for the programmer's convenience into each class which uses it.

Precedence:

As described in the Manual:

An inherited member from a base class is overridden by a member inserted by a Trait. The precedence order is that members from the current class override Trait methods, which in return override inherited methods.

So - consider the following scenario:

class BaseClass {
    function SomeMethod() { /* Do stuff here */ }
}

interface IBase {
    function SomeMethod();
}

trait myTrait {
    function SomeMethod() { /* Do different stuff here */ }
}

class MyClass extends BaseClass implements IBase {
    use myTrait;

    function SomeMethod() { /* Do a third thing */ }
}

When creating an instance of MyClass, above, the following occurs:

  1. The Interface IBase requires a parameterless function called SomeMethod() to be provided.
  2. The base class BaseClass provides an implementation of this method - satisfying the need.
  3. The trait myTrait provides a parameterless function called SomeMethod() as well, which takes precedence over the BaseClass-version
  4. The class MyClass provides its own version of SomeMethod() - which takes precedence over the trait-version.

Conclusion

  1. An Interface can not provide a default implementation of a method body, while a trait can.
  2. An Interface is a polymorphic, inherited construct - while a trait is not.
  3. Multiple Interfaces can be used in the same class, and so can multiple traits.
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2  
"A trait is similar to the C# concept of an abstract class" No, an abstract class is an abstract class; that concept exists in both PHP and C#. I would compare a trait in PHP to a static class made of extension methods in C# instead, with the type-based restriction removed as a trait can be used by pretty much any type, unlike an extension method which only extends one type. –  BoltClock Jan 1 at 6:13
    
Very good commentary - and I agree with you. In re-reading, that is a better analogy. I believe that it's better still, though, to think of it as a mixin - and as I've revisited the opening of my answer, I've updated to reflect this. Thanks for commenting, @BoltClock! –  Troy Alford Jan 5 at 0:10
    
Glad I could help :) –  BoltClock Jan 5 at 3:43

I think traits are useful to create classes that contain methods which can be used as methods of several different classes.

For example:

trait ToolKit
{
    public $errors = array();

    public function error($msg)
    {
        $this->errors[] = $msg;
        return false;
    }
}

You can have and use this "error" method in any class that uses this trait.

class Something
{
    use Toolkit;

    public function do_something($zipcode)
    {
        if (preg_match('/^[0-9]{5}$/', $zipcode) !== 1)
            return $this->error('Invalid zipcode.');

        // do something here
    }
}

While with interfaces you can only declare the method signature, but not its functions' code. Also, to use an interface you need to follow a hierarchy, using implements. This is not the case with traits.

It is completely different!

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I think this is a bad example of a trait. to_integer would be more likely included in an IntegerCast interface because there is no fundamentally similar way to (intelligently) cast classes to an integer. –  Matthew Feb 9 '12 at 4:13
4  
Forget "to_integer" - it's just an illustration. An example. A "Hello, World". An "example.com". –  J. Bruni Feb 9 '12 at 4:15

An often used metaphor to describe Traits is Traits are interfaces with implementation.

This is a good way of thinking about it in most circumstances, but there are a number of subtle differences between the two.

For a start, the instanceof operator will not work with traits (ie, a trait is not a real object) so you can't us that to see if a class has a certain trait (or to see if two otherwise unrelated classes share a trait). That's what they mean by it being a construct for horizontal code re-use.

There are functions now in PHP that will let you get a list of all the traits a class uses, but trait-inheritance means you'll need to do recursive checks to reliably check if a class at some point has a specific trait (there's example code on the PHP doco pages). But yeah, it's certainly not as simple and clean as instanceof is, and IMHO it's a feature that would make PHP better.

Also, abstract classes are still classes, so they don't solve multiple-inheritance related code re-use problems. Remember you can only extend one class (real or abstract) but implement multiple interfaces.

I've found traits and interfaces are really good to use hand in hand to create pseudo multiple inheritance. Eg:

class SlidingDoor extends Door implements IKeyed  
{  
    use KeyedTrait;  
    [...] // Generally not a lot else goes here since it's all in the trait  
}

Doing this means you can use instanceof to determine if the particular Door object is Keyed or not, you know you'll get a consistent set of methods etc, and all the code is in one place across all the classes that use the KeyedTrait.

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The last part of that answer is of course what @rdlowrey is saying in more detail in the last three paragraphs under "Traits" in his post; I just felt a really simple skeleton code snippet would help to illustrate it. –  Jon Kloske Apr 19 '12 at 5:25
    
I think the best OO way to use traits is using interfaces where you can. And if there is a case when multiple subclasses implementing the same kind of code for that interface and you can't move that code to their (abstract) superclass -> implement it with traits –  player-one Aug 17 '12 at 8:13

You can consider a Trait as an automated "copy-paste" of code, basically.

Using Traits is dangerous since there is no mean to know what it does before execution.

However, Traits are more flexible because of their lack of limitations such as inheritance.

Traits can be useful to inject a method which checks something into a class, eg. the existence of anotherr method or attribute. A nice article on that (but in French, sorry)

For French-reading people who can get it, the GNU/Linux Magazine HS 54 has an article on this subject.

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Traits are simply for code reuse.

Interface just provides the signature of the functions that is to be defined in the class where it can be used depending on the programmer's discretion. Thus giving us a prototype for a group of classes.

For reference- http://www.php.net/manual/en/language.oop5.traits.php

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The main difference is that, with interfaces, you must define the actual implementation of each method within each class that implements said interface, so you can have many classes implement the same interface but with different behavior, while traits are just chunks of code injected in a class; another important difference is that trait methods can only be class-methods or static-methods, unlike interface methods which can also (and usually are) be instance methods.

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