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How Can Recursive Type Constraints Be Achieved in Go Generics Using Interfaces?
How Can Recursive Type Constraints Be Achieved in Go Generics Using Interfaces?
Recursive Type Constraints with Predefined Types
In Go generics, specifying a type constraint on a generic type using an interface is possible. However, it can be challenging to enforce the implementation of a method with an argument of the generic type.
To achieve recursive type constraints in Go generics, we can define an interface with a method that takes the generic type as an argument:
type Lesser[T any] interface {
Less(T) bool
}We can then create a function that takes two arguments of type Lesser[T] and returns a boolean:
func IsLess[T Lesser[T]](x, y T) bool {
return x.Less(y)
}Now, custom types that implement the Lesser[T] interface can be used in the function:
type Apple int
func (a Apple) Less(other Apple) bool {
return a < other
}
type Orange int
func (o Orange) Less(other Orange) bool {
return o < other
}
func main() {
fmt.Println(IsLess(Apple(10), Apple(20))) // true
fmt.Println(IsLess(Orange(30), Orange(15))) // false
}The Lesser[T] constraint ensures that the types provided to the IsLess function implement a Less method that takes an argument of the same type. This allows for recursive type constraints without the use of type literals.
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