4

Say we have the following example (it took me a while to think of a minimal example of my issue, sorry if real life context is not the best, but I thought I'd be better than just using names like Base and Child)

from typing import *
from dataclasses import dataclass


@dataclass
class Product:
    name: str
    price: float


class Store:
    def __init__(self, products: List[Product]):
        self.products: List[Product] = products

    def find_by_name(self, name) -> List[Product]:
        return [product for product in self.products if product.name is name]

I have defined the return type for my find_by_name method so when I'm coding I can know what the return type will be and operate based on that.

Now imagine I create a subclass of my Product and my Store (here it is rather useless but it can be really necessary, of course).

class Fruit(Product):
    color: str

class FruitStore(Store):
    def __init__(self, fruits: List[Fruit]):
        super().__init__(products=fruits)

    def find_by_name_and_color(self, name, color) -> List[Fruit]:
        return [fruit for fruit in self.find_by_name(name) if (fruit.name is name and fruit.color is color)]
        # Expected List[Fruit], got List[Product] instead

As commented out, PyCharm (and any annotation check) will detect that the return type for this function does not match the content given based on the return type of the function where content came from.

For readability purposes and easier debugging, I tried to replace the annotation with no luck:

    def find_by_name(self, name) -> List[Fruit]: return super().find_by_name(name)
        # Expected List[Fruit], got List[Product] instead

Not even replacing the whole function would suffice:

    def find_by_name(self, name) -> List[Fruit]:
        return [product for product in self.products if product.name is name]
        # Expected List[Fruit], got List[Product] instead

I have to replace the variable definition in init:

    def __init__(self, fruits: List[Fruit]):
        self.products: List[Fruit] = fruits

Which in turn, means replacing the whole class, and making inheritance useless. How to replace only annotations and return types without having to replace the whole code?

Edit: including the terminology introduced in the comment box (which I was not aware of), I think my question would rephrase to: when using methods with broad types from parent classes inside a child's method with a narrower return type, how to allow for contravariance?

Second thought I think that varying the default broad type from parent function to a standard narrower type would be a better practice than allowing broader return types.

Ugly diagram:

________________________________________________________________________
Input                        |  Inner            | Output
------------------------------------------------------------------------
                             |
(Parent.method -> broadType) |-> (Child.method2 -> narrowedType)
                             |
------------------------------------------------------------------------
  • You may find this helpful: Covariance and contravariance – Patrick Haugh Aug 30 '18 at 22:30
  • @PatrickHaugh. Thank you very much. That seems to address exactly my problem. However, it seems to have a few complex ascpets that I have some difficulties understanding. Moreover, I think that it explains that covariant return types are not allowed by default, when I find that they are (at least no warnings pop up, and it reconciles with the fact that isinstance also accepts covariance). What I do believe that is not default in Python is contravariance, if I have got the jargon right. – J. C. Rocamonde Aug 30 '18 at 22:43
  • Also, I consider that making the return type allow for broader types does not do any good since it would have to be done in every single inner method that receives input from the mother method with an outdated type. I think it would be better to actually change the method return type in the child, which represents the reality of the data types and also makes it easier to code. – J. C. Rocamonde Aug 30 '18 at 22:54
  • It looks like you want to be able to define a Store for any Product. Maybe there's some way of defining a generic Store[SomeProduct] type that you can then implement for specific Products like Fruit? I'm not sure exactly what that would look like though. – Patrick Haugh Aug 30 '18 at 23:45
  • @PatrickHaugh I think I found a workaround. Maybe you can tell me what you think or you may even come up with something better. – J. C. Rocamonde Aug 31 '18 at 13:37
1

I think I have found a workaroud to my problem. First we create a type:

ProductType = TypeVar('ProductType', bound=Product, covariant=True)

(Name could be better, maybe a data scructure that would be type.Product).

Now we implement it:

class Store:
    def __init__(self, products: List[ProductType]):
        self.products: List[ProductType] = products

    def find_by_name(self, name) -> List[ProductType]:
        return [product for product in self.products if product.name is name]

Turns out leaving Fruit iniherting from Product works OK, so from experience I say that TypeVar instance should be used when annotating, not when subclassing.

class Fruit(Product):
    color: str

And lastly code just works. Class FruitStore is retreiving return types appropriately. There is no need replacing anything. This is because covariant types allow to expect subtypes of the defined bound where the latter is expected.

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