Your question correctly points out that any method is a function. However, the Go language needs to be able to explicitly distinguish between methods and functions. The reason for this is that methods have features that functions do not have. The choice of whether Foo is a function or a method needs to be made by the programmer.
Go's minimalism means that the language defines only a small set of keywords. The Go authors could have chosen a new keyword, such as method, to distinguish methods from functions:
method Foo(receiver *T, arg1 int) {} // 'Foo' is a method, not a function
Looking around the Go programming language, we can see that the philosophy is to reuse already existing keywords rather than to have a separate keyword for each occasion. The for keyword is a good example of this approach:
for {} // Infinite loop
for a>0 {a--} // A while-do loop
for i := range channel {} // Receive values from a channel
for i:=0; i<N; i++ {} // C-style for loop
The basic idea is that for the parser (and Go programmers) to distinguish the various types of for loops from each other, there is no need to introduce a new keyword if the options can be distinguished by the syntax of what comes after the for keyword: ; := range identifier ..., their sequential order, and their presence/absence.
The func keyword follows the same pattern. It can be used in multiple contexts:
- function definitions:
func f() {}
- function types:
type F func(int) int
- method definitions:
func (t T) SomeMethod() {}
- closures:
{ ...; go func(){c<-1}(); ...}
From minimalism viewpoint, a single func keyword is both simpler and more elegant than having multiple keywords.
The extra parameter list just for the receiver
func (t *T) Foo(x int) {}
enables the parser to distinguish methods and functions:
func IDENTIFIER ... This is going to be a function
func ( ... This is going to be a method
Thus, the parser (as well as Go programmers) can make the distinction based on whether the func keyword is followed by an identifier or by (.
