In some (mostly functional) languages you can do something like this:

type row = list(datum)


type row = [datum]

So that we can build things like this:

type row = [datum]
type table = [row]
type database = [table]

Is there a way to do this in Python? You could do it using classes, but Python has quite some functional aspects so I was wondering if it could be done an easier way.


5 Answers 5


Python 3.5+

Since Python 3.5 you may use typing module.

Quoting docs, A type alias is defined by assigning the type to the alias:

# Python 3.5-3.8
from typing import List
Vector = List[float]

# Python 3.9+
Vector = list[float] # No import needed, lower case l

To learn more about enforcing types in Python you may want to get familiar with PEPs: PEP483 and PEP484.

Python historically was using duck-typing instead of strong typing and hadn't built-in way of declaring types before 3.5 release.

  • 7
    Note that type hints are intended for static analysis and for use by linters. Type hints are not used for run-time type checking. Nor are they used for optimization. Also note that type hints are in their infancy. Almost no code in Python has type hints and no analysis tools have been developed to deal with them (as far as I know). Commented Oct 9, 2015 at 18:59
  • 1
    From the Non-Goals section of PEP484: "While the proposed typing module will contain some building blocks for runtime type checking -- in particular the get_type_hints() function -- third party packages would have to be developed to implement specific runtime type checking functionality, for example using decorators or metaclasses. Using type hints for performance optimizations is left as an exercise for the reader." Commented Oct 9, 2015 at 19:02
  • 1
    @StevenRumbalski: You're forgetting mypy (which is still in development, but arguably got this whole ball rolling to begin with).
    – Kevin
    Commented Oct 9, 2015 at 22:48
  • 4
    I had one function that returned a Union[List[Dict[str, str]], List[Dict[str, Union[Dict[str, str], str]]]]. Your suggestion worked wonders for me in cleaning it up nicely.
    – grooveplex
    Commented Apr 10, 2019 at 15:44
  • 1
    On Jan 2020, PEP 613 was created for special type alias syntax and it's currently in accepted status. I don't know if it's implemented yet. Commented Aug 18, 2020 at 16:06

Python 3.10+

Since Python 3.10, the TypeAlias annotation is available in the typing module.

It is used to explicitly indicate that the assignment is done to generate a type alias. For example:

Point: TypeAlias = tuple[float, float]
Triangle: TypeAlias = tuple[Point, Point, Point]

You can read more about the TypeAlias annotation on the PEP 613 that introduced it.

  • 4
    Since Python 3.12 TypeAlias has been deprecated in favour of the type statement, e.g. type Point = tuple[float, float] Commented Apr 8 at 1:27
  • 2
    @congusbongus are you sure TypeAlias is deprecated? I remember seeing in the typing module's documentation that type or TypeAlias can be used.
    – rpicoder
    Commented Apr 16 at 15:04
  • @rpicoder For Python 3.10 and 3.11, you should use TypeAlias. For Python 3.12+, the preferred syntax is using type. TypeAlias is not deprecated but at some point it probably will. Commented May 26 at 3:36

Python 3.5+

The accepted answer from @Lukasz is what we would need for most of the time. But for cases where you need the alias to be a distinct type on its own, you might need to use typing.NewType as documented here: https://docs.python.org/3/library/typing.html#newtype

from typing import List, NewType

Vector = NewType("Vector", List[float])

One particular use case is if you are using the injector library and you need to inject the aliased new type rather than the original type.

from typing import NewType

from injector import inject, Injector, Module, provider

AliasRawType = str
AliasNewType = NewType("AliasNewType", str)

class MyModule(Module):
    def provide_raw_type(self) -> str:
        return "This is the raw type"

    def provide_alias_raw_type(self) -> AliasRawType:
        return AliasRawType("This is the AliasRawType")

    def provide_alias_new_type(self) -> AliasNewType:
        return AliasNewType("This is the AliasNewType")

class Test1:
    def __init__(self, raw_type: str):  # Would be injected with MyModule.provide_raw_type() which is str. Expected.
        self.data = raw_type

class Test2:
    def __init__(self, alias_raw_type: AliasRawType):  # Would be injected with MyModule.provide_raw_type() which is str and not MyModule.provide_alias_raw_type() which is just a direct alias to str. Unexpected.
        self.data = alias_raw_type

class Test3:
    def __init__(self, alias_new_type: AliasNewType): # Would be injected with MyModule.provide_alias_new_type() which is a distinct alias to str. Expected.
        self.data = alias_new_type

injector = Injector([MyModule()])
print(injector.get(Test1).data, "-> Test1 injected with str")
print(injector.get(Test2).data, "-> Test2 injected with AliasRawType")
print(injector.get(Test3).data, "-> Test3 injected with AliasNewType")


This is the raw type -> Test1 injected with str
This is the raw type -> Test2 injected with AliasRawType
This is the AliasNewType -> Test3 injected with AliasNewType

Thus to correctly inject the proper provider when using the injector library, you would need the NewType aliasing.

  • Thanks, that's the best answer by far here. I was using "classic" type aliases as explained in the other answer but it was not actually recognized as a type by the type checker. This one works!!
    – ThR37
    Commented Jan 21, 2023 at 21:50

Python 3.12+

Python 3.12(released on 2-Oct-2023) contains the implementation of PEP 695: Type Parameter Syntax which provides new way to declare type aliases using the type statement(similar to TypeScript).

type Point = tuple[float, float]

Type Aliases can also be generic:

type Point[T] = tuple[T, T]

The values of type aliases created through the type statement are lazily evaluated.

Quoting from the documentation:

The values of type aliases created through the type statement are lazily evaluated. The same applies to the bounds and constraints of type variables created through the type parameter syntax. This means that they are not evaluated when the type alias or type variable is created. Instead, they are only evaluated when doing so is necessary to resolve an attribute access.


>>> type Alias = 1/0
>>> Alias.__value__
Traceback (most recent call last):
ZeroDivisionError: division by zero
>>> def func[T: 1/0](): pass
>>> T = func.__type_params__[0]
>>> T.__bound__
Traceback (most recent call last):
ZeroDivisionError: division by zero

Here the exception is raised only when the __value__ attribute of the type alias or the __bound__ attribute of the type variable is accessed.

This behavior is primarily useful for references to types that have not yet been defined when the type alias or type variable is created. For example, lazy evaluation enables creation of mutually recursive type aliases:

from typing import Literal

type SimpleExpr = int | Parenthesized
type Parenthesized = tuple[Literal["("], Expr, Literal[")"]]
type Expr = SimpleExpr | tuple[SimpleExpr, Literal["+", "-"], Expr]

Lazily evaluated values are evaluated in annotation scope, which means that names that appear inside the lazily evaluated value are looked up as if they were used in the immediately enclosing scope.

Please note that support for PEP 695 in mypy is still under active development. But pyright did support this syntax by specifying -pythonversion 3.12 parameter.

For example, running pyright on the following snippet using pyright myscript.py --pythonversion 3.12

# myscript.py
type vector = list[float]

def foo(items: vector):

foo(["foo", "bar"])

will produce the following type error.

myscript.py:6:5 - error: Argument of type "list[str]" cannot be assigned to parameter "items" of type "vector" in function "foo"
    "Literal['foo']" is incompatible with "float"
    "Literal['bar']" is incompatible with "float" (reportGeneralTypeIssues)
1 error, 0 warnings, 0 informations 

Python 3.10+

It's done in modern Python 3.10

❯ python
Python 3.10.12 (main, Jun 11 2023, 05:26:28) [GCC 11.4.0] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> Array = list
>>> a = Array()
>>> a.append(1)
>>> a.append(2)
>>> a.append(3)
>>> a
[1, 2, 3]
  • The question was not on how to create a list in python. This answer doesn't provide any information about type aliases.
    – The_spider
    Commented Nov 30, 2023 at 19:13
  • 2
    @The_spider I think the idea is that you're aliasing list to "Array" Commented Nov 30, 2023 at 19:14

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