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Given this Rust example (found here):

struct Dog {
    name: ~str

fn dogshow() {
    let dogs: [~Dog * 3] = [
        ~Dog { name: ~"Spot"   },
        ~Dog { name: ~"Fido"   },
        ~Dog { name: ~"Snoopy" },

    // let winner: ~Dog = dogs[1]; // this would be a compile time error.
                                   // can't assign another name to a 
                                   // uniquely owned (`~`) pointer.

    for dogs.each |dog| {  // WTF? `dog` is a second pointer to dogs[x]. 
                           // That's not supposed to be allowed by `~` pointers.
                           // why is this not a compile time error?
        println(fmt!("Say hello to %s", dog.name));

What type of pointer is the dog parameter of .each?

The declaration of the dog variable seems to break the rule that uniquely owned pointers (~) may only have one name at a time.

How is it possible to loop thru the dogs and assign each dog to the variable name dog without breaking the rules of uniquely owned (~) pointers?

Is dog a Rust Reference in this case (thus allowing another name to represent a borrowed pointer)? If so, how do we know? Rust References should use the & syntax, no?

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2 Answers 2

up vote 9 down vote accepted

As you suspected, it's a reference. In the closure, the type of dog is &~Dog, which means a reference to a unique smart pointer to a Dog.

The rule for unique smart pointers isn't that there is only one way to access the data; rather, it's that each unique smart pointer is the only direct reference to the data it points to. You can still have multiple references to the unique smart pointer.

The reason why you didn't have to annotate dog with & is due to type inference: the Rust compiler knows the type of each, so you don't have to write & in the closure.

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Perfect. This is the type of answer I was really hoping for. Not just the precise answer to the question, but also some insight into the design philosophy of the language. Thanks Patrick! –  Todd Ditchendorf Apr 28 '13 at 18:21

A quick way to check is to let the compiler emit an error regarding the type of dog:

for dogs.each |dog| {
    let test: int = dog;
    println(fmt!("Say hello to %s", dog.name));

This shows the type of dog is a borrowed pointer of an owned box of Dog (&~Dog):

x.rc:20:24: 20:27 error: mismatched types: expected `int` but found `&~Dog` (expected int but found &-ptr)
x.rc:20         let test: int = dog;
error: aborting due to previous error

You could also check from the signature of core::vec::each:

fn each<'r, T>(v: &'r [T], f: &fn(&'r T) -> bool)

This shows that if we provide a [T], the function will be called with the arguments of type &T.

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Great tips. Thanks. –  Todd Ditchendorf Apr 28 '13 at 18:19

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