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I'm trying to get a deeper understanding in Python's data model and I don't fully understand the following code:

>>> x = 1

>>> isinstance(x,int)

>>> isinstance(x,numbers.Integral)

>>> inspect.getmro(int)
(<type 'int'>, <type 'object'>)

>>> inspect.getmro(numbers.Integral)
(<class 'numbers.Integral'>, <class 'numbers.Rational'>, <class 'numbers.Real'>,
 <class 'numbers.Complex'>, <class 'numbers.Number'>, <type 'object'>)

Based on the above, it seems that int and number.Integral are not in the same hierarchy.

From the Python reference (2.6.6) I see

numbers.Integral - These represent elements from the mathematical set of integers (positive and negative).

What's the difference between int and numbers.Integral? Does it have something to do with the type int vs class numbers.Integral I see in the above output?

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3 Answers 3

up vote 6 down vote accepted

numbers defines a hierarchy of abstract classes that define operations possible on numeric types. See PEP 3141. The difference between int and Integral is that int is a concrete type that supports all the operations Integral defines.

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I've read about the type hierarchy for numbers and about ABCs. The fact that I don't see int and numbers.Integral on the same hierarchy is that int does not derive from number.Integral but it is registered as a "virtual subclass". Correct? I see the relation between them, from numbers.Integral towards int, in numbers.Integral._abc_registry but is it possible to see the other side of the relation also (from int towards numbers.Integral)? – ElenaT Nov 22 '11 at 21:10
@ElenaT: number.Integral is a model (or a concept). int is an implementation of that model. That's how they're related. Inheritance is orthogonal to the issue. – Cat Plus Plus Nov 22 '11 at 22:08
In [34]: numbers.Integral ?
Type:           ABCMeta
Base Class:     <class 'abc.ABCMeta'>
String Form:    <class 'numbers.Integral'>
Namespace:      Interactive
File:           c:\python26\lib\
    Integral adds a conversion to long and the bit-string operations.

In [35]: int ?
Type:           type
Base Class:     <type 'type'>
String Form:    <type 'int'>
Namespace:      Python builtin
    int(x[, base]) -> integer

In [36]: type(int) == type (numbers.Integral)
Out[36]: False

In [39]: issubclass(int, numbers.Integral)
Out[39]: True

Integral is an Abstract Base Class. int is a subclass of the ABCMeta Integral

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Allow me to add two things:


also covers long and

isinstance(x, int)

does not. The numbers.Integral test would be closer to

isinstance(x, (int, long))

in Python 2 (Python 3 killed long for good.)

I prefer the test with numbers.Integral, because if you derive from int (or long), isinstance(y, numbers.Integral) will still be True.

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