I'm trying to create a generic version of a NamedTuple, as follows:

T1 = TypeVar("T1")
T2 = TypeVar("T2")

class Group(NamedTuple, Generic[T1, T2]):
    key: T1
    group: List[T2]

g = Group(1, [""])  # expecting type to be Group[int, str]

However, I get the following error:

TypeError: metaclass conflict: the metaclass of a derived class must be a (non-strict) subclass of the metaclasses of all its bases

I'm not sure how else to achieve what I'm trying to do here, or if this might be a bug in the typing mechanism on some level.

  • You may further elaborate, in which respect you intend to generalize NamedTuple, which is pretty general in my opinion. From your code snippet I can't recognize...
    – guidot
    May 25, 2018 at 14:12
  • The special NamedTuple doesn't support any other base classes. Full stop. The NamedTuple base class delegates all use to a metaclass that will run collections.namedtuple() with a small amount of customisation, which means that the resulting class only ever inherits from tuple. This is a wider problem with NamedTuple, not limited to Generic.
    – Martijn Pieters
    Sep 28, 2019 at 15:12

1 Answer 1


So this is a metaclass conflict since in python 3.6 the typing NamedTuple and Generic use different metaclasses (typing.NamedTupleMeta and typing.GenericMeta), which python can't handle. I'm afraid there is no solution to this, other than to subclass from tuple and manually initialise the values:

T1 = TypeVar("T1")
T2 = TypeVar("T2")

class Group(tuple, Generic[T1, T2]):

    key: T1
    group: List[T2]

    def __new__(cls, key: T1, group: List[T2]):
        self = tuple.__new__(cls, (key, group))
        self.key = key
        self.group = group
        return self            

    def __repr__(self) -> str:
        return f'Group(key={self.key}, group={self.group})'

Group(1, [""])  # --> Group(key=1, group=[""])

Due to PEPs 560 and 563 this is fixed in python 3.7:

Python 3.7.0b2 (v3.7.0b2:b0ef5c979b, Feb 28 2018, 02:24:20) [MSC v.1912 64 bit (AMD64)] on win32
Type "help", "copyright", "credits" or "license" for more information.
>>> from __future__ import annotations
>>> from typing import *
>>> T1 = TypeVar("T1")
>>> T2 = TypeVar("T2")
>>> class Group(NamedTuple, Generic[T1, T2]):
...     key: T1
...     group: List[T2]
>>> g: Group[int, str] = Group(1, [""])
>>> g
Group(key=1, group=[''])

Of course in python 3.7 you can just use a dataclass which are less lightweight (and mutable) but serve similar purposes.

from dataclasses import dataclass, astuple
from typing import Generic, TypeVar, List

T1 = TypeVar('T1')
T2 = TypeVar('T2')

class Group(Generic[T1, T2]):

     # this stores the data like a tuple, but isn't required
     __slots__ = ("key", "group")

     key: T1
     group: List[T2]

     # if you want to be able to unpack like a tuple...
     def __iter__(self):
          yield from astuple(self)

g: Group[int, str] = Group(1, ['hello', 'world'])
k, v = g

How well type checkers handle my solution / yours in python 3.7 though I haven't checked. I suspect it may not be seamless.


I found another solution -- make a new metaclass

import typing
from typing import *

class NamedTupleGenericMeta(typing.NamedTupleMeta, typing.GenericMeta):

class Group(NamedTuple, Generic[T1,T2], metaclass=NamedTupleGenericMeta):

    key: T1
    group: List[T2]

Group(1, ['']) # --> Group(key=1, group=[''])
  • 3
    The second solution looks nice, but unfortunately it doesn't fully work for type hinting:g: Group[int, str] = Group(1, [""]) TypeError: 'type' object is not subscriptable
    – pdowling
    May 25, 2018 at 15:40
  • 2
    You still can't use the Generic[...] hint in NamedTuple subclasses, because due to the very same metaclass conflict the newly generated named tuple class won't have the __class_getitem__ hook needed to make concrete hints like Group[str, int] work. That's because the NamedTuple metaclass returns a new class object with only tuple as a base class, not Generic, and the requisite __parameters__ attribute on the class that records the available typevars is completely gone.
    – Martijn Pieters
    Sep 28, 2019 at 14:57
  • 1
    Please make that more explicit in your answer, because you need that compiler switch in all modules that use that subclass.
    – Martijn Pieters
    Feb 4, 2020 at 14:16
  • 1
    and with the dataclass + __iter__ method workaround, when you do a destructuring assignment the resulting vars are Any typed due to limitation of astuple (this issue github.com/python/mypy/issues/5152) But I guess this is the best we can do for the foreseeable future... the relevant issue for supporting generic namedtuples in mypy has been open and unfixed for 5 years now: github.com/python/mypy/issues/685
    – Anentropic
    Sep 17, 2020 at 18:19
  • 12
    In python 3.9, OP's original code now breaks on declaration of the class, even if the class goes unused, with the error TypeError: Multiple inheritance with NamedTuple is not supported
    – cowlinator
    Apr 22, 2021 at 1:54

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