4

How can one check a complete type signature of a nested abstract class? In this example

In [4]: from typing import Sequence

In [5]: IntSeq = Sequence[int]

In [6]: isinstance([1], IntSeq)
Out[6]: True

In [7]: isinstance([1.0], IntSeq)
Out[7]: True

I want the last isinstance call to actually return False, while it only checks that the argument is a Sequence. I thought about recursively checking the types, but IntSeq has no public attributes that store the nested type(s):

In [8]: dir(IntSeq)
Out[8]: 
['__abstractmethods__',
 '__class__',
 '__delattr__',
 '__dict__',
 '__dir__',
 '__doc__',
 '__eq__',
 '__extra__',
 '__format__',
 '__ge__',
 '__getattribute__',
 '__gt__',
 '__hash__',
 '__init__',
 '__le__',
 '__len__',
 '__lt__',
 '__module__',
 '__ne__',
 '__new__',
 '__origin__',
 '__parameters__',
 '__reduce__',
 '__reduce_ex__',
 '__repr__',
 '__setattr__',
 '__sizeof__',
 '__slots__',
 '__str__',
 '__subclasshook__',
 '__weakref__',
 '_abc_cache',
 '_abc_negative_cache',
 '_abc_negative_cache_version',
 '_abc_registry']

So it doesn't seem to be straightforward to get nested types. I can't find relevant information in the docs.

P.S. I need this for a multiple dispatch implementation.

Update

Thanks to the feedback from Alexander Huszagh and Blender we now know that abstract classes in Python 3.5 (might) have two attributes that store the nested types: __parameters__ and __args__. The former is there under both Linux (Ubuntu) and Darwin (OS X), though it is empty in case of Linux. The later is only available under Linux and stores the types like __parameters__ does under OS X. This implementation details add up to the confusion.

  • 3
    I'd like the close-voter to explain his choice of "There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs". – Eli Korvigo Aug 22 '16 at 21:13
  • isinstance(["hello"], int_seq) is also True. Are you sure you are not creating a bigger problem than solving when trying to use typing instead of simple type check? – Dmitry Torba Aug 22 '16 at 21:18
  • @DmitryTorba I'm trying to implement true multiple dispatch in Python, so I need the dispatcher to be able to check the complete type signature. – Eli Korvigo Aug 22 '16 at 21:19
  • @blender helped me find the answer to find the type of the sequence: Sequence[int].__args__. Sequence[int].__parameters__ seems to be implementation specific. You can apply his now deleted answer to the same workflow. – Alexander Huszagh Aug 22 '16 at 21:55
  • 1
    You may find this module useful: github.com/fabiommendes/pygeneric – Blender Aug 22 '16 at 22:00
2

I see you're trying to implement something using a module that is still provisional; you're bound to encounter a changing interface if you do this.

Blender noticed that the __parameters__ argument holds the parameters to the type; this was true until, I believe 3.5.1. In my git clone of the most recent version of Python (3.6.0a4+) __parameters__ again holds an empty tuple, __args__ holds the argument and __origin__ is the first entry in its __bases__ attribute:

>>> intSeq = typing.Sequence[int]
>>> intSeq.__args__
(<class 'int'>,)
>>> intSeq.__parameters__
()
>>> intSeq.__origin__
typing.Sequence<+T_co>

Since 3.6 is when typing will, from what I understand from PEP 411, leave provisional and enter a stable state, this is the version you should be working with to implement your functionality.

| improve this answer | |
  • Thank yo for the clarification. I've found no references to typing in PEP 411. Do you know what +T_co means in the __origin__ attribute? – Eli Korvigo Aug 23 '16 at 12:15
  • Yup, PEP 411 won't talk about which modules are provisional, that's in the abstract for PEP 0484 which introduced the module :-). +T_co means that the argument is covariant, you can read more about that in the same PEP (section covariance and contravariance). – Dimitris Fasarakis Hilliard Aug 23 '16 at 15:07

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