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Why I have problem creating a class inheriting from str (or also from int)

class C(str):
   def __init__(self, a, b):
     str.__init__(self,a)
     self.b = b

C("a", "B")

TypeError: str() takes at most 1 argument (2 given)

tha same happens if I try to use int instead of str, but it works with custom classes. I need to use __new__ instead of __init__? why?

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5 Answers 5

up vote 18 down vote accepted
>>> class C(str):
...     def __new__(cls,*args,**kw):
...         return str.__new__(cls,*args,**kw)
... 
>>> c=C("hello world")
>>> type(c)
<class '__main__.C'>

>>> c.__class__.__mro__
(<class '__main__.C'>, <type 'str'>, <type 'basestring'>, <type 'object'>)

Since __init__ is called after the object is constructed, it is too late to modify the value for immutable types. Note that __new__ is a classmethod, so I have called the first parameter cls

See here for more information

>>> class C(str):
...     def __new__(cls,value,meta):
...         obj = str.__new__(cls, value)
...         obj.meta = meta
...         return obj
... 
>>> c=C("hello world", "meta")
>>> c
'hello world'
>>> c.meta
'meta'
share|improve this answer
    
thanks, this is not the answer to my question, but this is the point. Now it works. In particular I have implemented __init__ and changed the arguments of __new__ to (cls, a, b) –  Ruggero Turra Apr 20 '10 at 9:24
    
@wiso, can you clarify the question? I am not sure what you are trying to achieve with a and b –  gnibbler Apr 20 '10 at 9:25
    
this is only an example, I want to create a string with metainformation –  Ruggero Turra Apr 20 '10 at 9:27
1  
@wiso, ok i added an example storing extra data in an attribute called meta. You could also use *args or **kw instead of meta if that suits your purposes better –  gnibbler Apr 20 '10 at 9:32

Inheriting built-in types is very seldom worth while. You have to deal with several issues and you don't really get much benefit.

It is almost always better to use composition. Instead of inheriting str, you would keep a str object as an attribute.

class EnhancedString(object):
     def __init__(self, *args, **kwargs):
         self.s = str(*args, **kwargs)

you can defer any methods you want to work on the underlying str self.s manually or automatically using __getattr__.

That being said, needing your own string type is something that should give you pause. There are many classes that should store a string as their main data, but you generally want to use str or unicode (the latter if you're representing text) for general representation of strings. (One common exception is if you have need to use a UI toolkit's string type.) If you want to add functionality to your strings, try if you can to use functions that operate on strings rather than new objects to serve as strings, which keeps your code simpler and more compatible with everyone else's programs.

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yes, this was my first solution, but the problem is that I have some functions that want a string argument (they are C++ functions from a library I can't modify), so with my implementation these functions work using my class as arguments. Can you better explain how to obtain this result using __getattr__? –  Ruggero Turra Apr 20 '10 at 20:36
    
@wiso, accepting a string as an argument is an underdefined thing. I don't know what your C++ library is like and how it's wrapped, but a wrapper should make it compatible with the right types for the job. Making a new class yourself that no one has ever seen before rather than using its string class or Python's string class (and it working with that) seems like a strange way to make things work. –  Mike Graham Apr 20 '10 at 20:54
1  
@wise, To use __getattr__ to defer otherwise undefined attributes to a specific attribute in composition is accomplished by code like def __getattr__(self, name): return getattr(self.s, name). Note that this code isn't necessarily recommended, but can work well in some cases; it's often better to manually define the things you want in composition. –  Mike Graham Apr 20 '10 at 20:55
    
I have c_function(char*), I can use it in python as c_function(s) where s is a str instance. s represent something, and I want that it has a name, a beautiful_name and so on. So I have derived a class C from str, so I can pass an object c of class C to python_function that for example do print c.name and call c_function(c) –  Ruggero Turra Apr 20 '10 at 21:20
    
> "Inheriting built-in types is very seldom worth while." That might be true, but not always. Sometimes it's useful to create a "tagged string" type, such as to produce distinct types of string-like tokens from a parser. The problem with it, however, is that (I think) you lose the short-string performance optimization. –  blais Jun 8 at 0:46

After carefully reading this, here is another attempt at subclassing str. The change from other answers is creating the instance in the correct class using super(TitleText, cls).__new__ . This one seems to behave like a str whenever it's used, but has allowed me to override a method:

class TitleText(str):
    title_text=""
    def __new__(cls,content,title_text):
        o=super(TitleText, cls).__new__(cls,content)
        o.title_text = title_text
        return o

    def title(self):
        return self.title_text

>>> a=TitleText('name','A nice name')
>>> a
'name'
>>> a[0]
'n'
>>> a[0:2]
'na'
>>> a.title()
'A nice name'

This lets you do slicing and subscripting correctly. What's this for? For renaming the Django application in the admin index page.

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Yuck! The fact that your repr is deceptive leads to it being unclear that while a is a TitleText, a[0] and a[0:2] are str (today, in current versions, as an implementation detail). If you'd written a class without inheriting str you could make a much more useful and much less confusing and deceptive thing. –  Mike Graham Jun 15 at 14:14

When you instantiate a class, the arguments that you pass in, are passed to both the __new__ (constructor) and then to the __init__ (initializer) methods of the class. So if you inherit from a class that has restrictions on number of arguments that may be supplied during instantiation, you must guarantee that neither its __new__, nor its __init__ would get more arguments than they expect to get. So that is the problem that you have. You instantiate your class with C("a", "B"). The interpreter looks for __new__ method in C. C doesn't have it, so python peeps into its base class str. And as it has one, that one is used and supplied with the both arguments. But str.__new__ expects to get only one argument (besides its class object as the first argument). So TypeError is raised. That is why you must extend it in your child class similarly to what you do with __init__. But bear in mind that it must return class instance and that it is a static method (irrespective of whether it is defined with @staticmethod decorator or not) that counts if you use super function.

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Use __new__ in case of immutable types:

class C(str):
    def __new__(cls, content, b):
        return str.__new__(cls, content)

    def __str__(self):
        return str.__str__(self)

a=C("hello", "world")
print a

print returns hello.

Python strings are immutable types. The function __new__ is called to create a new instance of object C. The python __new__ function is basically exists to allow inheritance from immutable types.

share|improve this answer
    
type(C("a", "B")) -> NoneType –  Ruggero Turra Apr 20 '10 at 9:04
    
do you try your answer? Now it return '' –  Ruggero Turra Apr 20 '10 at 9:19
    
-1? Can you at least write a comment? –  zoli2k Apr 20 '10 at 9:28
2  
I wrote 2 comments. –  Ruggero Turra Apr 20 '10 at 12:23
    
And have you checked the updates of the post? It was updated according your request. You down-voted after the changes were made. Moreover, in your comment you expected functionality from my code which was not requested in your question (to get __str__() function work for the inherited class)! –  zoli2k Apr 20 '10 at 12:32

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