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I have a friend who likes to use metaclasses, and regularly offers them as a solution.

I am of the mind that you almost never need to use metaclasses. Why? because I figure if you are doing something like that to a class, you should probably be doing it to an object. And a small redesign/refactor is in order.

Being able to use metaclasses has caused a lot of people in a lot of places to use classes as some kind of second rate object, which just seems disastrous to me. Is programming to be replaced by meta-programming? The addition of class decorators has unfortunately made it even more acceptable.

So please, I am desperate to know your valid (concrete) use-cases for metaclasses in Python. Or to be enlightened as to why mutating classes is better than mutating objects, sometimes.

I will start:

Sometimes when using a third-party library it is useful to be able to mutate the class in a certain way.

(this is the only case I can think of, and it's not concrete)

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This is a great question. Judging from the answers below, its quite clear that there are no such thing as a concrete use for metaclasses. –  Marcus Ottosson Feb 14 at 17:49

15 Answers 15

up vote 7 down vote accepted

I have a class that handles non-interactive plotting, as a frontend to Matplotlib. However, on occasion one wants to do interactive plotting. With only a couple functions I found that I was able to increment the figure count, call draw manually, etc, but I needed to do these before and after every plotting call. So to create both an interactive plotting wrapper and an offscreen plotting wrapper, I found it was more efficient to do this via metaclasses, wrapping the appropriate methods, than to do something like:

class PlottingInteractive:
    add_slice = wrap_pylab_newplot(add_slice)

This method doesn't keep up with API changes and so on, but one that iterates over the class attributes in __init__ before re-setting the class attributes is more efficient and keeps things up to date:

class _Interactify(type):
    def __init__(cls, name, bases, d):
        super(_Interactify, cls).__init__(name, bases, d)
        for base in bases:
            for attrname in dir(base):
                if attrname in d: continue # If overridden, don't reset
                attr = getattr(cls, attrname)
                if type(attr) == types.MethodType:
                    if attrname.startswith("add_"):
                        setattr(cls, attrname, wrap_pylab_newplot(attr))
                    elif attrname.startswith("set_"):
                        setattr(cls, attrname, wrap_pylab_show(attr))

Of course, there might be better ways to do this, but I've found this to be effective. Of course, this could also be done in __new__ or __init__, but this was the solution I found the most straightforward.

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The purpose of metaclasses isn't to replace the class/object distinction with metaclass/class - it's to change the behaviour of class definitions (and thus their instances) in some way. Effectively it's to alter the behaviour of the class statement in ways that may be more useful for your particular domain than the default. The things I have used them for are:

  • Tracking subclasses, usually to register handlers. This is handy when using a plugin style setup, where you wish to register a handler for a particular thing simply by subclassing and setting up a few class attributes. eg. suppose you write a handler for various music formats, where each class implements appropriate methods (play / get tags etc) for its type. Adding a handler for a new type becomes:

    class Mp3File(MusicFile):
        extensions = ['.mp3']  # Register this type as a handler for mp3 files
        ...
        # Implementation of mp3 methods go here
    

    The metaclass then maintains a dictionary of {'.mp3' : MP3File, ... } etc, and constructs an object of the appropriate type when you request a handler through a factory function.

  • Changing behaviour. You may want to attach a special meaning to certain attributes, resulting in altered behaviour when they are present. For example, you may want to look for methods with the name _get_foo and _set_foo and transparently convert them to properties. As a real-world example, here's a recipe I wrote to give more C-like struct definitions. The metaclass is used to convert the declared items into a struct format string, handling inheritance etc, and produce a class capable of dealing with it.

    For other real-world examples, take a look at various ORMs, like sqlalchemy's ORM or sqlobject. Again, the purpose is to interpret defintions (here SQL column definitions) with a particular meaning.

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1  
Well, yes, tracking subclasses. But why would you ever want that? Your example is just implicit for register_music_file(Mp3File, ['.mp3']), and the explicit way is more readable and maintainable. This is an example of the bad cases I am talking about. –  Ali Afshar Dec 24 '08 at 22:47
    
About the ORM case, are you talking about the class-based way of defining tables, or the metaclasses on mapped objects. Because SQLAlchemy can (rightly) map to any class (and I am assuming that it doesn't use a metaclass for that activity). –  Ali Afshar Dec 24 '08 at 22:51
9  
I prefer the more declarative style, rather than require extra registration methods for every subclass - better if everything is wrapped in a single location. –  Brian Dec 24 '08 at 23:10
    
For sqlalchemy, I'm thinking mostly of the declarative layer, so perhaps sqlobject is a better example. However the metaclasses used internally are also examples of similar reinterpretation of particular attributes to declare meaning. –  Brian Dec 24 '08 at 23:11
    
Sorry one of my conmments got lost in the SO timeout scenario. I find classes for declarative almost an abomination. I know people love it, and it is accepted behaviour. But (from experience) I know it is unusable in a situation where you want to UN-declare things. Unregistering a class is hard. –  Ali Afshar Dec 25 '08 at 12:53

Let's start with Tim Peter's classic quote:

Metaclasses are deeper magic than 99% of users should ever worry about. If you wonder whether you need them, you don't (the people who actually need them know with certainty that they need them, and don't need an explanation about why). Tim Peters (c.l.p post 2002-12-22)

Having said that, I have (periodically) run across true uses of metaclasses. The one that comes to mind is in Django where all of your models inherit from models.Model. models.Model, in turn, does some serious magic to wrap your DB models with Django's ORM goodness. That magic happens by way of metaclasses. It creates all manner of exception classes, manager classes, etc. etc.

See django/db/models/base.py, class ModelBase() for the beginning of the story.

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Well, yes, I see the point. I don't wonder "how" or "why" to use metaclasses, I wonder the "who" and the "what". ORMs are a common case here I see. Unfortunately Django's ORM is pretty poor compared to SQLAlchemy which has less magic. Magic is bad, and metaclasses are really not necessary for this. –  Ali Afshar Dec 25 '08 at 12:40
    
For an example: MyClass.manager = DBManager(MyClass) –  Ali Afshar Dec 25 '08 at 12:50
1  
Having read Tim Peters' quote in the past, time has showed that his statement is rather unhelpful. Not until researching Python metaclasses here on StackOverflow did it become apparent how to even implement them. After forcing myself to learn how to write and use metaclasses, their abilities astonished me and gave me a much better understanding of how Python really works. Classes can provide reusable code, and metaclasses can provide reusable enhancements for those classes. –  Noctis Skytower Jun 4 '13 at 17:21

Metaclasses can be handy for construction of Domain Specific Languages in Python. Concrete examples are Django, SQLObject 's declarative syntax of database schemata.

A basic example from A Conservative Metaclass by Ian Bicking:

The metaclasses I've used have been primarily to support a sort of declarative style of programming. For instance, consider a validation schema:

class Registration(schema.Schema):
    first_name = validators.String(notEmpty=True)
    last_name = validators.String(notEmpty=True)
    mi = validators.MaxLength(1)
    class Numbers(foreach.ForEach):
        class Number(schema.Schema):
            type = validators.OneOf(['home', 'work'])
            phone_number = validators.PhoneNumber()

Some other techniques: Ingredients for Building a DSL in Python (pdf).

Edit (by Ali): An example of doing this using collections and instances is what I would prefer. The important fact is the instances, which give you more power, and eliminate reason to use metaclasses. Further worth noting that your example uses a mixture of classes and instances, which is surely an indication that you can't just do it all with metaclasses. And creates a truly non-uniform way of doing it.

number_validator = [
    v.OneOf('type', ['home', 'work']),
    v.PhoneNumber('phone_number'),
]

validators = [
    v.String('first_name', notEmpty=True),
    v.String('last_name', notEmpty=True),
    v.MaxLength('mi', 1),
    v.ForEach([number_validator,])
]

It's not perfect, but already there is almost zero magic, no need for metaclasses, and improved uniformity.

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Thanks for this. This is a very good example of a use-case I think is unnecessary, ugly, and unmanagemable, which would be simpler based on a simple collection instance (with nested collections as required). –  Ali Afshar Dec 24 '08 at 23:57
1  
@Ali A: you are welcome to provide a concrete example of side-by-side comparision between declarative syntax via metaclasses and an approach based on simple collection instance. –  J.F. Sebastian Dec 25 '08 at 2:00
    
@Ali A: you may edit my answer inplace to add a collection style example. –  J.F. Sebastian Dec 25 '08 at 7:59
    
Ok done that. Sorry am in a bit of a hurry today, but will try to answer any queries later/tomorrow. Happy Holidays! –  Ali Afshar Dec 25 '08 at 11:15
1  
The second example is ugly as you had to tie the validator instance with their name. A slightly better way of doing it is to use a dictionary instead of a list, but then, in python classes are just syntax sugar for dictionary, so why not use classes? You get free name validation as well because python babes cannot contain spaces or special characters that a string could. –  Lie Ryan May 20 '12 at 6:37

You never absolutely need to use a metaclass, since you can always construct a class that does what you want using inheritance or aggregation of the class you want to modify.

That said, it can be very handy in Smalltalk and Ruby to be able to modify an existing class, but Python doesn't like to do that directly.

There's an excellent DeveloperWorks article on metaclassing in Python that might help. The Wikipedia article is also pretty good.

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The only time I used metaclasses in Python was when writing a wrapper for the Flickr API.

My goal was to scrape flickr's api site and dynamically generate a complete class hierarchy to allow API access using Python objects:

# Both the photo type and the flickr.photos.search API method 
# are generated at "run-time"
for photo in flickr.photos.search(text=balloons):
    print photo.description

So in that example, because I generated the entire Python Flickr API from the website, I really don't know the class definitions at runtime. Being able to dynamically generate types was very useful.

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1  
You can dynamically generate types without using metaclasses. >>> help(type) –  Ali Afshar Dec 24 '08 at 22:52

I was thinking the same thing just yesterday and completely agree. The complications in the code caused by attempts to make it more declarative generally make the codebase harder to maintain, harder to read and less pythonic in my opinion. It also normally requires a lot of copy.copy()ing (to maintain inheritance and to copy from class to instance) and means you have to look in many places to see whats going on (always looking from metaclass up) which goes against the python grain also. I have been picking through formencode and sqlalchemy code to see if such a declarative style was worth it and its clearly not. Such style should be left to descriptors (such as property and methods) and immutable data. Ruby has better support for such declarative styles and I am glad the core python language is not going down that route.

I can see their use for debugging, add a metaclass to all your base classes to get richer info. I also see their use only in (very) large projects to get rid of some boilerplate code (but at the loss of clarity). sqlalchemy for example does use them elsewhere, to add a particular custom method to all subclasses based on an attribute value in their class definition e.g a toy example

class test(baseclass_with_metaclass):
    method_maker_value = "hello"

could have a metaclass that generated a method in that class with special properties based on "hello" (say a method that added "hello" to the end of a string). It could be good for maintainability to make sure you did not have to write a method in every subclass you make instead all you have to define is method_maker_value.

The need for this is so rare though and only cuts down on a bit of typing that its not really worth considering unless you have a large enough codebase.

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A reasonable pattern of metaclass use is doing something once when a class is defined rather than repeatedly whenever the same class is instantiated.

When multiple classes share the same special behaviour, repeating __metaclass__=X is obviously better than repeating the special purpose code and/or introducing ad-hoc shared superclasses.

But even with only one special class and no foreseeable extension, __new__ and __init__ of a metaclass are a cleaner way to initialize class variables or other global data than intermixing special-purpose code and normal def and class statements in the class definition body.

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The way I used metaclasses was to provide some attributes to classes. Take for example:

class NameClass(type):
    def __init__(cls, *args, **kwargs):
       type.__init__(cls, *args, **kwargs)
       cls.name = cls.__name__

will put the name attribute on every class that will have the metaclass set to point to NameClass.

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4  
Yes, this works. You could use a superclass also, which is at least explicit, and followable in code. Out of interest, what did you use this for? –  Ali Afshar Dec 25 '08 at 12:55

Metaclasses aren't replacing programming! They're just a trick which can automate or make more elegant some tasks. A good example of this is Pygments syntax highlighting library. It has a class called RegexLexer which lets the user define a set of lexing rules as regular expressions on a class. A metaclass is used to turn the definitions into a useful parser.

They're like salt; it's easy to use too much.

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Well, in my opinion, that Pygments case is just unnecessary. Why not just have a plain collection like a dict, why force a class to do this? –  Ali Afshar Dec 24 '08 at 22:42
1  
Because a class nice encapulates the idea of Lexer and has other useful methods like guess_filename(), etc. –  Benjamin Peterson Dec 27 '08 at 3:54

The only legitimate use-case of a metaclass is to keep other nosy developers from touching your code. Once a nosy developer masters metaclasses and starts poking around with yours, throw in another level or two to keep them out. If that doesn't work, start using type.new or perhaps some scheme using a recursive metaclass.

(written tongue in cheek, but I've seen this kind of obfuscation done. Django is a perfect example)

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7  
I'm not sure the motivation was the same in Django. –  Ali Afshar Mar 18 '11 at 7:21

Some GUI libraries have trouble when multiple threads try to interact with them. tkinter is one such example; and while one can explicitly handle the problem with events and queues, it can be far simpler to use the library in a manner that ignores the problem altogether. Behold -- the magic of metaclasses.

Being able to dynamically rewrite an entire library seamlessly so that it works properly as expected in a multithreaded application can be extremely helpful in some circumstances. The safetkinter module does that with the help of a metaclass provided by the threadbox module -- events and queues not needed.

One neat aspect of threadbox is that it does not care what class it clones. It provides an example of how all base classes can be touched by a metaclass if needed. A further benefit that comes with metaclasses is that they run on inheriting classes as well. Programs that write themselves -- why not?

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Obviously, I am biased after having such a good success with metaclasses and comparing the originally ugly non-metaclass version of the code with the currently beautiful implementation. –  Noctis Skytower Jun 4 '13 at 19:32

This is a minor use, but... one thing I've found metaclasses useful for is to invoke a function whenever a subclass is created. I codified this into a metaclass which looks for an __initsubclass__ attribute: whenever a subclass is created, all parent classes which define that method are invoked with __initsubclass__(cls, subcls). This allows creation of a parent class which then registers all subclasses with some global registry, runs invariant checks on subclasses whenever they are defined, perform late-binding operations, etc... all without have to manually call functions or to create custom metaclasses that perform each of these separate duties.

Mind you, I've slowly come to realize the implicit magicalness of this behavior is somewhat undesirable, since it's unexpected if looking at a class definition out of context... and so I've moved away from using that solution for anything serious besides initializing a __super attribute for each class and instance.

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I recently had to use a metaclass to help declaratively define an SQLAlchemy model around a database table populated with U.S. Census data from http://census.ire.org/data/bulkdata.html

IRE provides database shells for the census data tables, which create integer columns following a naming convention from the Census Bureau of p012015, p012016, p012017, etc.

I wanted to a) be able to access these columns using a model_instance.p012017 syntax, b) be fairly explicit about what I was doing and c) not have to explicitly define dozens of fields on the model, so I subclassed SQLAlchemy's DeclarativeMeta to iterate through a range of the columns and automatically create model fields corresponding to the columns:

from sqlalchemy.ext.declarative.api import DeclarativeMeta

class CensusTableMeta(DeclarativeMeta):
    def __init__(cls, classname, bases, dict_):
        table = 'p012'
        for i in range(1, 49):
            fname = "%s%03d" % (table, i)
            dict_[fname] = Column(Integer)
            setattr(cls, fname, dict_[fname])

        super(CensusTableMeta, cls).__init__(classname, bases, dict_)

I could then use this metaclass for my model definition and access the automatically enumerated fields on the model:

CensusTableBase = declarative_base(metaclass=CensusTableMeta)

class P12Tract(CensusTableBase):
    __tablename__ = 'ire_p12'

    geoid = Column(String(12), primary_key=True)

    @property
    def male_under_5(self):
        return self.p012003

    ...
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There seems to be a legitimate use described here - Rewriting Python Docstrings with a Metaclass.

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