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How Does the ~ Token in Go Generics Handle Underlying Types?

Mary-Kate Olsen
Mary-Kate OlsenOriginal
2024-12-14 21:35:12294browse

How Does the ~ Token in Go Generics Handle Underlying Types?

Understanding the Tilde (~) Token in Go Generics

Go has introduced the new token ~, representing the set of types with underlying type T.

Definition

The ~T token denotes a constraint element that specifies the set of types whose underlying type is T.

Example

Consider the following example:

type Ordered interface {
    Integer | Float | ~string
}

In this example, the ~string constraint element means that a type must have an underlying type of string to satisfy the Ordered interface.

Underlying Types

The definition of underlying types is crucial to understanding the behavior of ~T constraint elements. The language spec defines underlying types as follows:

  • For predeclared numeric, boolean, or string types, or type literals, their underlying type is themselves.
  • For other types, their underlying type is the underlying type of the type to which they refer in their type declaration.

Practical Implications

The practical implication of the ~T token is that it allows your custom types to be used in interfaces and constraints, even if those interfaces and constraints specify exact types. For instance, consider the following code:

type MyInt8 int8

// Cannot instantiate with MyInt8
func echoExact[T constraints.ExactSigned](t T) T { return t }

// Can instantiate with MyInt8
func echo[T constraints.Signed](t T) T { return t }

In this example, the constraints.ExactSigned type does not allow custom types, while the constraints.Signed type does due to the use of the ~T constraint element.

Conclusion

The ~T token provides a flexible way to specify type constraints in Go generics. It enables the use of custom types that have underlying types matching the specified constraint, enhancing the expressiveness and usability of generic code.

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