Do Embedded Primitive Types in Go Offer Any Real Advantages?
Embedded Types: Exploring the Usefulness of Primitive Embeddings
When working with Go structs, the concept of embedding primitive types can arise. Consider the code snippet below:
type User struct {
int32
Name string
}This code defines a User struct that embeds the int32 primitive type. However, questions arise regarding the utility of such an embedding:
Do Embedded Primitives Have Methods?
No, embedded primitives like int32 do not have any methods associated with them. To verify this, one can use reflection to inspect the number of methods available:
fmt.Println(reflect.TypeOf(int32(0)).NumMethod())
The output will be 0, indicating that int32 has no methods.
Accessing Embedded Primitive Values
To access the embedded int32 value within a User instance, one can directly use the unqualified type name as the field name:
u := User{3, "Bob"}
fmt.Printf("%#v\n", u)
u.int32 = 4
fmt.Println(u.int32)Output:
main.User{int32:3, Name:"Bob"}
4Advantages of Embedding
While embedding primitive types might not provide direct access to methods, it does offer certain advantages when dealing with interfaces and method overriding.
- Promoted methods from the embedded type can streamline interface implementations.
- Methods can be overridden in the embedding type, allowing for customized behavior when interacting with values of that type.
- Embedded fields are promoted, shortening references to those fields.
Disadvantages of Embedding Predeclared Types
When embedding predeclared types like int32, there is a disadvantage to consider:
- Embedded predeclared types that start with lowercase letters are automatically unexported, limiting their accessibility.
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