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Why Can Value Receiver Methods Be Used on Pointers in Go, But Not the Other Way Around?
Why Can Value Receiver Methods Be Used on Pointers in Go, But Not the Other Way Around?
Methods on Value Receivers vs. Pointer Receivers in Go: Understanding the Design and Rationale
In Go, methods can be defined with either a value receiver (T) or a pointer receiver (T). While methods defined on T can affect copies of T, methods defined on T affect the actual data referenced by T.
Why Methods on Value Receivers Can Also Be Used By Pointer Receivers
Methods defined on T can be used on T because Go automatically dereferences pointers when passing arguments to functions. For example, if you have a method defined on int:
<code class="go">func (n *int) Add(x int) {
*n += x
}</code>You can call this method on both *int and int:
<code class="go">var n int ptr := &n ptr.Add(5) // Call Add on *int n.Add(5) // Automatically dereferences ptr when calling Add on int</code>
Why Methods on Pointer Receivers Cannot Be Used By Value Receivers
Methods defined on *T cannot be used on T because Go does not automatically reference values when passing arguments to functions. To create a pointer to a value, you would need to explicitly take its address using the & operator:
<code class="go">var n int ptr := &n</code>
However, this may not always be possible. For instance, if T is stored in a map or returned from a function, its address may not be static or accessible.
Pros and Cons of the Design
This design provides several benefits:
- It supports both shallow and deep copying: Methods on value receivers allow shallow copies that affect only the object in question, while methods on pointer receivers allow deep copies that also modify the referenced data.
- It ensures type safety: Go ensures that methods defined on *T cannot be called on T unless the value is explicitly dereferenced, preventing potential memory errors.
- It allows for optimizations: By limiting the addresses that can be taken, Go optimizers have more freedom to implement efficient data structures such as maps and interfaces.
However, it also has a drawback:
- It can be less intuitive: Beginners may be confused by the fact that methods on *T can be used on T, but the opposite is not true.
The above is the detailed content of Why Can Value Receiver Methods Be Used on Pointers in Go, But Not the Other Way Around?. For more information, please follow other related articles on the PHP Chinese website!
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