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I'm a web developer looking to expand my horizons in order to get better at programming as a whole. I've done a bit Java and some simple Android applications. I'm now looking into lower level languages like C and Go (which I must say has some beautiful syntax and great ideas thus far, though I'm maybe too inexperienced to comment).

So yeah I've been going though and trying to understand the examples on the Go website and I keep coming across a special asterisk character in example like this:

s := "hello"
if s[1] != 'e' {
    os.Exit(1)
}
s = "good bye"
var p *string = &s
*p = "ciao"

Also, I just noticed, whats with the "&s" is it assignment by reference (I might be using PHP talk here)?

Thanks.

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You'll see the asterisk and the ampersand in lower level languages like Go and C. –  jcao219 Aug 24 '10 at 0:41
1  
C and Go can use special variables, called pointers, that contain memory addresses to objects. Pointers can be passed around and are a compact way to convey access to an object to some other code. In Java, all variables to objects allocated with new operator are reference variables. A reference is similar concept to a pointer variable, except that a pointer is more explicit. The address operator enables taking the address of an object when desired. A pointer variable can be reassigned with different address. A reference variable can only be initialized to an address once. –  RogerV Sep 12 '10 at 3:15

5 Answers 5

up vote 8 down vote accepted

Im guessing it means the same as in C

p is a pointer to a string

The statement var p *string = &s would assign the address of the s object to p

Next line *p = "ciao" would change the contents of s

See this link from the Language Design FAQ

Interestingly, no pointer arithmetic

Why is there no pointer arithmetic? Safety. Without pointer arithmetic it's possible to create a language that can never derive an illegal address that succeeds incorrectly. Compiler and hardware technology have advanced to the point where a loop using array indices can be as efficient as a loop using pointer arithmetic. Also, the lack of pointer arithmetic can simplify the implementation of the garbage collector.

Now I want to start learning GO!

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4  
Learn Go! I highly recommend it. –  jcao219 Aug 24 '10 at 0:43
1  
So "p" is created as a pointer by declaring it as type "*string" and &s points to the memory location of the variable s. So why cant I just say p = "ciao" (as opposed to *p)? Would that make a new variable called "p"? –  rich97 Aug 24 '10 at 1:02
3  
When you say *p = "ciao", you're saying "take the memory pointed to by p and set it equal to "ciao"". If you said p = "ciao", you'd be trying to say "make p point to the address "ciao"," which doesn't make sense, so it doesn't compile. p = &s says "make p point to the address of s". Maybe that helps? –  Evan Shaw Aug 24 '10 at 3:34
    
It does indeed. Thanks! –  rich97 Aug 24 '10 at 4:34

* attached to a type (*string) indicates a pointer to the type.

* attached to a variable in an assignment (*v = ...) indicates an indirect assignment. That is, change the value pointed at by the variable.

* attached to a variable or expression (*v) indicates a pointer dereference. That is, take the value the variable is pointing at.

& attached to a variable or expression (&v) indicates a reference. That is, create a pointer to the value of the variable or to the field.

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I don't know Go, but based on the syntax, it seems that its similar to C - That is a pointer. Its similar to a reference, but lower level and more powerful. It contains the memory address of the item in question. &a gets the memory address of a variable and *a dereferences it, getting the value at the memory address.

Also, the * in the declaration means that it is a pointer.

So yes, its like in PHP in that the value of s is changed because p and &s point to the same block of memory.

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The page the OP linked to seems to reinforce this. "Putting an & in front gives us the address of a unique instance of the value." The example seems to fit this explanation. –  Matchu Aug 24 '10 at 0:13
    
The PHP comparison, though, isn't really accurate. The & may represent a slightly similar concept, but their actual usage is different enough (given that PHP doesn't make it easy to get memory addresses) that to say that it's the same concept can be deceptive. –  Matchu Aug 24 '10 at 0:23
    
I know it's not accurate, the PHP website itself says that references are not pointers but references are the closest thing I have to actually truly understanding what pointers are. –  rich97 Aug 24 '10 at 0:47
    
It allows you to do the same thing that PHP references allow you to do in a different way. I was in no way saying that PHP references = Go pointers. –  alternative Aug 24 '10 at 11:10

The * character is used to define a pointer in both C and Go. Instead of a real value the variable instead has an address to the location of a value. The & operator is used to take the address of an object.

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Just a note - A memory address is itself a real value. Thats why (in C, but not Go according to the FAQ) you can perform arithmetic on pointers. –  alternative Aug 24 '10 at 0:17
    
@monadic: what does being a real value have to do with performing arithmetic? –  newacct Nov 12 '11 at 2:12

Go lang Addresses, Pointers and Types:

s := "hello"      // type string
t := "bye"        // type string
u := 44           // type int
v := [2]int{1, 2} // type array 

All these Go variables have an address. Even variables of type "pointer" have addresses. The distinction is string types hold string values, int types hold integer values, and pointer types hold addresses.

& == evaluate to address, or think "here's my address so you know where to find me"

// make p type pointer (to string only) and assign value to address of s
var p *string = &s // type *string
// or
q := &s // shorthand, same deal

* == dereference pointer, or think "pass action on to the address which is my value"

*p = "ciao"   // change s, not p, the value of p remains the address of s

// j := *s    // error, s is not a pointer type, no address to redirect action to
// p = "ciao" // error, can't change to type string

p = &t        // change p, now points to address of t
//p = &u      // error, can't change to type *int

// make r type pointer (to pointer [to string]) and assign value to address of p
var r **string = &p // shorthand: r := &p

w := (  r == &p) // (  r evaluates to address of p) w = true
w =  ( *r == p ) // ( *r evaluates to value of p [address of t]) w = true
w =  (**r == t ) // (**r evaluates to value of t) w = true

// make n type pointer (to string) and assign value to address of t (deref'd p)
n := &*p
o := *&t // meaningless flip-flop, same as: o := t

// point y to array v
y := &v
z := (*y)[0] // dereference y, get first value of element, assign to z (z == 1)

Go Play here: http://play.golang.org/p/u3sPpYLfz7

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