110

I am doing the http://tour.golang.org/. Could anyone explain this function to me lines 1,3,5 and 7, especially what '*' and '&' do? By mentioning them in a function declaration, what are they supposed/expected to do? A toy example:

    1: func intial1(var1 int, var2 int, func1.newfunc[]) *callproperfunction {
    2:
    3:    addition:= make ([] add1, var1)
    4:    for i:=1;i<var2;i++ {
    5:       var2 [i] = *addtother (randomstring(lengthofcurrent))
    6:    }
    7:    return &callproperfunction {var1 int, var2 int, func1.newfunc[], jackpot}
    8: }

It seems that they are pointers like what we have in C++. But I cannot connect those concepts to what we have here. In other words, what '*' an '&' do when I use them in function declaration in Go.

I know what reference and dereference mean. I cannot understand how we can use a pointer to a function in Go? For example lines 1 and 7, what do these two lines do? The function named intial1 is declared that returns a pointer? And in line 7, we call it with arguments using the return function.

7
  • 4
    Those are pointers like we have in C++.
    – tkausl
    Jul 3, 2016 at 17:44
  • 2
    They are pointers. You can visit golang-book.com/books/intro/8 for more information about pointers.
    – turhanco
    Jul 3, 2016 at 17:53
  • @turhanco, I know they are pointers. but for example what line 5 and 7 do? they are function not variable.
    – David
    Jul 4, 2016 at 18:56
  • @David, your example doesn't look like a valid Go code. Write a proper example, ideally which can be run on golang.org. But in any case, Go pointers are pretty much the same as in C++. You get a pointer with & and dereference it with *. * is also used to declare pointer type. Just like in C++.
    – creker
    Jul 5, 2016 at 22:35
  • @creker, My problem is in lines 1 and 7 in which callproperfunction is used but I cannot understand what these two lines do.
    – David
    Jul 6, 2016 at 15:54

6 Answers 6

262

This is possibly one of the most confusing things in Go. There are basically 3 cases you need to understand:

The & Operator

& goes in front of a variable when you want to get that variable's memory address.

The * Operator

* goes in front of a variable that holds a memory address and resolves it (it is therefore the counterpart to the & operator). It goes and gets the thing that the pointer was pointing at, e.g. *myString.

myString := "Hi"
fmt.Println(*&myString)  // prints "Hi"

or more usefully, something like

myStructPointer = &myStruct
// ...
(*myStructPointer).someAttribute = "New Value"

* in front of a Type

When * is put in front of a type, e.g. *string, it becomes part of the type declaration, so you can say "this variable holds a pointer to a string". For example:

var str_pointer *string

So the confusing thing is that the * really gets used for 2 separate (albeit related) things. The star can be an operator or part of a type.

3
  • 2
    I think fmt.Println(*&String) should be fmt.Println(*&myString) . Other than that: nice explanation.
    – xsigndll
    Dec 31, 2018 at 22:07
  • 1
    @Everett I think for * in front of a Type, you should have given solid example similar to other two cases.
    – sofs1
    Nov 11, 2019 at 6:49
  • Why Golang did this ? Are there any benefits to doing this pointer/address thing instead of using the variable names directly ?
    – Rahul Bali
    Jul 16, 2022 at 19:13
59

Your question doesn't match very well the example given but I'll try to be straightforward.

Let's suppose we have a variable named a which holds the integer 5 and another variable named p which is going to be a pointer. This is where the * and & come into the game.

Printing variables with them can generate different output, so it all depends on the situation and how well you use. The use of * and & can save you lines of code (that doesn't really matter in small projects) and make your code more beautiful/readable.

& returns the memory address of the following variable.

* returns the value of the following variable (which should hold the memory address of a variable, unless you want to get weird output and possibly problems because you're accessing your computer's RAM)

var a = 5
var p = &a // p holds variable a's memory address
fmt.Printf("Address of var a: %p\n", p)
fmt.Printf("Value of var a: %v\n", *p)

// Let's change a value (using the initial variable or the pointer)
*p = 3 // using pointer
a = 3 // using initial var

fmt.Printf("Address of var a: %p\n", p)
fmt.Printf("Value of var a: %v\n", *p)

All in all, when using * and & in remember that * is for setting the value of the variable you're pointing to and & is the address of the variable you're pointing to/want to point to.

Hope this answer helps.

1
  • simply saying & will point to variable that has no value while * will point to variable that has value in there Nov 12, 2018 at 8:33
18

Those are pointers like we have in C++.

The differences are:

  • Instead of -> to call a method on a pointer, you always use ., i.e. pointer.method().

  • There are no dangling pointers. It is perfectly valid to return a pointer to a local variable. Golang will ensure the lifetime of the object and garbage-collect it when it's no longer needed.

  • Pointers can be created with new() or by creating a object object{} and taking the address of it with &.

  • Golang does not allow pointer-arithmetic (arrays do not decay to pointers) and insecure casting. All downcasts will be checked using the runtime-type of the variable and either panic or return false as second return-value when the instance is of the wrong type, depending on whether you actually take the second return type or not.

5
  • Also by default Go does not allow pointer arithmetic and casting (type conversion) between incompatible types. And I would say pointers in Go are more like references in Java/C# than pointers in C++
    – creker
    Jul 3, 2016 at 17:59
  • There are no casts in Go — it has type conversions.
    – kostix
    Jul 7, 2016 at 8:49
  • (My closest comparison point for Go pointers is C# ValueType pointers. Java and C# object references also add additional capabilities (like virtual methods) and costs (like object headers).)
    – twotwotwo
    Jul 9, 2016 at 3:48
  • @twotwotwo, object references are like interfaces in Go. They also has support for dynamic dispatch and additional cost (interface value also has a pointer to the underlying type)
    – creker
    Jul 10, 2016 at 17:03
  • @creker Yep, all true.
    – twotwotwo
    Jul 10, 2016 at 18:34
15

This is by far the easiest way to understand all the three cases as explained in the @Everett answer

func zero(x int) {
  x = 0
}
func main() {
  x := 5
  zero(x)
  fmt.Println(x) // x is still 5
}

If you need a variable to be changed inside a function then pass the memory address as a parmeter and use the pointer of this memory address to change the variable permanently.

Observe the use of * in front of int in the example. Here it just represents the variable that is passed as a parameter is the address of type int.

func zero(xPtr *int) {
  *xPtr = 0
}
func main() {
  x := 5
  zero(&x)
  fmt.Println(x) // x is 0
}
1
3

Simple explanation.. its just like, you want to mutate the original value

func zero(num *int){  // add * to datatype
  *num = 0 // can mutate the original number
}

i := 5
zero(&i) // passing variable with & will allows other function to mutate the current value of variable```
0

& Operator gets the memory address where as * Opeartor holds the memory address of particular variable.

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