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Looking through sample Go codes, some things are not consistent. Many codes define their methods on pointer types, like:

func (p *parser) parse () {...}

But some other code define methods on just the type, not pointer to it:

func (s scanner) scan () {...}

Is there good reason to do the latter? Can it really be more efficient to pass object by value instead by pointer?

One reason is "I can't change this object", but this is problem with large objects anyway (would you pass big struct by value just to mark that it can not be changed by method?)

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I rarely use this. In most cases you want to use a pointer, but for smaller structs that you don't want to modify, this seems like a more explicit way of saying that its a static method. – Games Brainiac Mar 14 '14 at 13:39
@Shishir Kumar: please read the description of the tag before adding it. The question is about Go, not about the .Net framework. – S.L. Barth Mar 14 '14 at 13:40
@GamesBrainiac: what you mean by saying static method here? – zlatanski Mar 14 '14 at 13:42
@zlatanski In simplest terms its a method that is attached to an object but does not modify the object in any way, rather it uses the information in the object to give you a value. – Games Brainiac Mar 14 '14 at 13:44
@GamesBrainiac: ah, OK. Is that a Go terminology? because it's completely different from the use in C++ and Java, for example – zlatanski Mar 14 '14 at 13:46
up vote 5 down vote accepted

Luckily, this is in the Go FAQ:

Should I define methods on values or pointers?

func (s *MyStruct) pointerMethod() { } // method on pointer
func (s MyStruct)  valueMethod()   { } // method on value`

For programmers unaccustomed to pointers, the distinction between these two examples can be confusing, but the situation is actually very simple. When defining a method on a type, the receiver (s in the above examples) behaves exactly as if it were an argument to the method. Whether to define the receiver as a value or as a pointer is the same question, then, as whether a function argument should be a value or a pointer. There are several considerations.

First, and most important, does the method need to modify the receiver? If it does, the receiver must be a pointer. (Slices and maps act as references, so their story is a little more subtle, but for instance to change the length of a slice in a method the receiver must still be a pointer.) In the examples above, if pointerMethod modifies the fields of s, the caller will see those changes, but valueMethod is called with a copy of the caller's argument (that's the definition of passing a value), so changes it makes will be invisible to the caller.

By the way, pointer receivers are identical to the situation in Java, although in Java the pointers are hidden under the covers; it's Go's value receivers that are unusual.

Second is the consideration of efficiency. If the receiver is large, a big struct for instance, it will be much cheaper to use a pointer receiver.

Next is consistency. If some of the methods of the type must have pointer receivers, the rest should too, so the method set is consistent regardless of how the type is used. See the section on method sets for details.

For types such as basic types, slices, and small structs, a value receiver is very cheap so unless the semantics of the method requires a pointer, a value receiver is efficient and clear.

So yes, it is mainly used for semantics. Knowing that a method is side-effect free is a good thing to know when dealing with concurrency as this automatically means that no locking is required. Global variables and reference types aside, a value receiver is a strong hint that your method is side-effect free.

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Method chaining is also a consideration. If you want to be able to write


then either Two() needs to return a pointer, or Three() needs to have a value receiver, because the result of a method call isn't addressable. If Two returns a value, it's not possible to take its address in order to call a pointer-receiver method on it. However, if Three() has a value receiver, it will work whether Two() returns a pointer or not.

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