Polymorphism in Go - Understanding Interface and Pointer Usage
Polymorphism, the ability for an object to take on different behaviors based on its type, is a fundamental concept in programming. While Go does not explicitly support polymorphism in the same way as object-oriented languages, it offers mechanisms that can achieve similar effects.
Consider a simple example where you want to create an interface with getter and setter methods. However, you encounter an issue where setter methods are not permitted. This is because the receiver type in Go functions (methods) must match the concrete type.
To address this limitation, Go introduces pointers, denoted by an asterisk (*). A pointer to a type holds the memory address of the actual value, allowing you to manipulate that value indirectly.
In your code, the issue with the setter method is that this MyStruct is not a pointer. This means any changes made within the method are lost once the function exits.
The corrected version of your code, as provided in the answer, makes use of a pointer receiver for the Set method:
func (this *MyStruct) Set(i int) {
this.data = i
}
By using a pointer, the Set method can now modify the actual MyStruct instance referenced by the interface.
While this technique is not strictly polymorphism, it demonstrates the use of interfaces and pointers to achieve similar results. In Go, interfaces define a contract that ensures the presence of certain methods in a type, while pointers enable indirect manipulation of values, allowing for more flexible and dynamic behavior.
Therefore, the answer effectively illustrates how interfaces and pointers can be combined to achieve a form of polymorphism in Go, allowing you to create cohesive and maintainable code that adapts to different object types.
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