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Can anyone gives an example?

What's the difference between using variables in classes and in namedtuples?

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namedtuple generates a class dynamically on the fly. – Daenyth May 4 '12 at 18:19
Since you apparently never got an acceptable answer, perhaps you could update your question and provide some additional information. One difference between between general class instances and a namedtuple instances is that the latter are immutable like tuples -- meaning you can't change the value of any of its attributes without replacing the whole structure. – martineau Mar 15 '13 at 8:00

The return value of namedtuple is a class. No dark magic. You do not need to "convert" a namedtuple return into a class; it returned exactly that.

namedtuple creates a new class that inherits from __builtin__.tuple. When you call namedtuple('Point', 'x y')(1, 0), you're getting is the tuple object (1, 0) with the following syntactic sugar:

  • a __dict__ mapping where {'x': 1, 'y', 0}
  • two properties x and y that call __getitem__(0) and __getitem__(1) respectively.
  • a __repr__ method that returns 'Point(x=1, y=0)'

Other than this, it's just a tuple object. Its attributes and number of attributes are immutable.

However, I suspect you mean you want to take nametuple('Point', 'x, y') and instead get:

class Point:
    def __init__(x, y):
        self.x = x
        self.y = y

In this case you are misusing nametuple, and should instead be using type:

def init(self, x, y):
    self.x, self.y = x, y
Point = type('Point', (object,), {'__init__': init})
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You are wrong. When you call namedtuple('Point', 'x y')(1, 0) you do not get tuple object. You get Point instance. Also there are no __dict__ mappings. And x and y properties do not call __dict__[..]. – akaRem May 5 '12 at 6:47
@akaRem WRT namedtuple('Point', 'x y'), it returns a class that inherits tuple, as I wrote. I'm not sure where you're disagreeing with me here. Please clarify? – Jjed May 5 '12 at 7:48
@akaRem looking at the source the field properties call __getitem__s, so you're correct there. __dict__, however, is definitely defined as a mapping of _fields to the tuple data. – Jjed May 5 '12 at 8:06
from source class {typename}(tuple): <..> __slots__ = () - so, instance could not nave __dict__ mappings. And later in code __dict__ is declared as property __dict__ = property(_asdict) where def _asdict(self):\n\t'Return a new OrderedDict which maps field names to their values'\n\treturn OrderedDict(zip(self._fields, self)). So point.__dict__ is not a mapping. It creates new OrderedDict instance at every __dict__ request. Its like a patch for cases when you expect that object that has smth like .x should also have instance's dictionary. – akaRem May 5 '12 at 21:11
I could be wrong in way I understand word mapping. I thihk that when we say that A is mappind for data B, we say that A points to B data without any additional object creation at every request. – akaRem May 5 '12 at 21:25

Very vague question.

I suppose that you mean constructions like

myPoint1 = namedtuple('myPoint1','x y')


class myPoint2(object):
    __slots__ = ['x','y']
    def __init__(self, x, y)
        self.x = x
        self.y = y

myPoint1 is faster in access by index my_point1[0], my_point1[1] (where 0 stands for x, and 1 stands for y). But it's slower in access by attr my_point1.x, my_point1.y because of double lookups and additional function executing (see source - it's well documentated about how does namedtuple work)

myPoint2 is only accessable by attr my_point2.x, my_point2.y. And accessing by attr myPoint2 is faster than accessing by attr myPoint1.

Also if you dont use __slots__, every instance would consume more memory because dict of attrs/methods is created for every instance (for dynamically tune them - add or remove attrs, fields, methods, etc), whether slots is created once for class only.

Shortly, namedtuple returns tuple subclass that commonly works as tuple, but which data is also accessable by specified attrs.

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