In short, the argument is ignored at runtime, but the type of the argument is used during compilation to select the correct instance of
isSigned to use at runtime.
Without the argument, there is no way to determine which instance should be used to resolve the value of something like
isSigned :: Bool.
> class Foo a where isSigned :: Bool
• Could not deduce (Foo a0)
from the context: Foo a
bound by the type signature for:
isSigned :: forall a. Foo a => Bool
The type variable ‘a0’ is ambiguous
• In the ambiguity check for ‘isSigned’
To defer the ambiguity check to use sites, enable AllowAmbiguousTypes
When checking the class method: isSigned :: forall a. Foo a => Bool
In the class declaration for ‘Foo’
If you enable the
AllowAmbiguousTypes extensions, you could do something like this:
class Foo a where
isSigned :: Bool
instance Foo Int where
isSigned = True
instance Foo Char where
isSigned = False
isSigned alone would still be an error, but you could use
isSigned @Int or
isSigned @Char to get the specific value for a given type.
Back to standard Haskell, we need some way to select which instance's
isSigned value is needed, and we do that by defining a function whose argument type ties it to a particular instance. The value of the argument is ignored, but the type is used during type-checking and compilation to select the correct instance.