>>> from typing import Iterable
>>> from typish import instance_of
>>> instance_of([1, 2, 3], Iterable[int])
True
pip install typish
| Function | Description |
|---|---|
subclass_of(cls: type, *args: type) -> bool | Returns whether cls is a sub type of all types in args |
instance_of(obj: object, *args: type) -> bool | Returns whether cls is an instance of all types in args |
get_origin(t: type) -> type | Return the "origin" of a generic type. E.g. get_origin(List[str]) gives list. |
get_args(t: type) -> typing.Tuple[type, ...] | Return the arguments of a generic type. E.g. get_args(List[str]) gives (str, ). |
get_alias(cls: T) -> typing.Optional[T] | Return the typing alias for a type. E.g get_alias(list) gives List. |
get_type(inst: T, use_union: bool = False) -> typing.Type[T] | Return the (generic) type of an instance. E.g. a list of ints will give List[int]. |
common_ancestor(*args: object) -> type | Return the closest common ancestor of the given instances. |
common_ancestor_of_types(*args: type) -> type | Return the closest common ancestor of the given classes. |
get_args_and_return_type(hint: typing.Type[typing.Callable]) -> typing.Tuple[typing.Optional[typing.Tuple[type]], typing.Optional[type]] | Get the argument types and the return type of a callable type hint (e.g. Callable[[int], str]). |
get_type_hints_of_callable(func: typing.Callable) -> typing.Dict[str, type] | Return the type hints of the parameters of the given callable. |
is_type_annotation(item: typing.Any) -> bool | Returns whether item is a type or a typing type. |
is_from_typing(cls: type) -> bool | Returns whether cls is from the typing module. |
is_optional_type(cls: type) -> bool | Returns whether cls is considered to be an optional type. |
get_mro(obj: typing.Any) -> typing.Tuple[type, ...] | Wrapper around getmro from inspect to also support typing types. |
| Type | Description |
|---|---|
T | A generic Type var. |
KT | A Type var for keys in a dict. |
VT | A type var for values in a dict. |
Empty | The type of emptiness (= Parameter.empty). |
Unknown | The type of something unknown. |
Module | The type of a module. |
NoneType | The type of None. |
EllipsisType | The type of .... |
This decorator allows one to capture the type hint of a variable that calls a function. If no hint is provided, None
is passed as a value for hint.
Just remember: with great power comes great responsibility. Use this functionality wisely. You may want to make sure
that if you hinted a variable with a certain type, your hintable function does indeed return a value of that type.
@hintable
def cast(arg: Any, hint: Type[T]) -> T:
return hint(arg)
# The type hint on x is passed to cast:
x: int = cast('42')
# It works with MyPy hints as well:
y = cast('42') # type: int
# Not something you would normally do, but the type hint takes precedence:
z: int = cast('42') # type: str
This metaclass allows a type to become subscriptable.
Example:
class MyClass(metaclass=SubscriptableType):
...
Now you can do:
MyClass2 = MyClass['some args']
print(MyClass2.__args__)
print(MyClass2.__origin__)
Output:
some args
<class '__main__.MyClass'>
Define an interface with typish.Something.
Example:
Duck = Something['walk': Callable[[], None],
'quack': Callable[[], None]]
Anything that has the attributes defined in Something with the right type is
considered an instance of that Something (classes, objects, even modules...).
The builtin isinstance is supported as well as typish.instance_of.
A dictionary that uses instance checking to determine which value to return. It only accepts types as keys.
This is particularly useful when a function accepts multiple types for an argument and you want to split the implementation into separate functions.
Example:
def _handle_str(item):
...
def _handle_int(item):
...
def func(item):
# Suppose item can be a string or an int, you can use ClsDict to
# pick a handler function.
cd = ClsDict({
str: _handle_str,
int: _handle_int,
})
handler = cd[item] # Pick the right handler.
handler(item) # Call that handler.
A callable that uses ClsDict to call the right function.
Below is the same example as above, but slightly modified in
that it uses ClsFunction.
Example:
def _handle_str(item):
...
def _handle_int(item):
...
def func(item):
# Suppose item can be a string or an int, you can use ClsFunction to
# delegate to the right handler function.
function = ClsFunction({
str: _handle_str,
int: _handle_int,
})
function(item)
A backwards compatible variant of typing.Literal (Python3.8). When importing
Literal from typish, you will get the typing.Literal if it is available.
FAQs
Functionality for types
We found that typish demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 1 open source maintainer collaborating on the project.
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