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Add Pointer tutorial, rename borrowed pointer tutorial.
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@ -800,7 +800,8 @@ do
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make_dir $h/test/doc-tutorial
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make_dir $h/test/doc-guide-ffi
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make_dir $h/test/doc-guide-macros
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make_dir $h/test/doc-guide-borrowed-ptr
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make_dir $h/test/doc-guide-lifetimes
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make_dir $h/test/doc-guide-pointers
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make_dir $h/test/doc-guide-container
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make_dir $h/test/doc-guide-tasks
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make_dir $h/test/doc-guide-conditions
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475
doc/guide-pointers.md
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475
doc/guide-pointers.md
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@ -0,0 +1,475 @@
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% The Rust Pointer Guide
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Rust's pointers are one of its more unique and compelling features. Pointers
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are also one of the more confusing topics for newcomers to Rust. They can also
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be confusing for people coming from other languages that support pointers, such
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as C++. This tutorial will help you understand this important topic.
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# You don't actually need pointers
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I have good news for you: you probably don't need to care about pointers,
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especially as you're getting started. Think of it this way: Rust is a language
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that emphasizes safety. Pointers, as the joke goes, are very pointy: it's easy
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to accidentally stab yourself. Therefore, Rust is made in a way such that you
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don't need them very often.
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"But tutorial!" you may cry. "My co-worker wrote a function that looks like
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this:
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```rust
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fn succ(x: &int) -> int { *x + 1 }
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```
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So I wrote this code to try it out:
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```rust
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fn main() {
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let number = 5;
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let succ_number = succ(number);
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println!("{}", succ_number);
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}
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```
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And now I get an error:
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```
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error: mismatched types: expected `&int` but found `<VI0>` (expected &-ptr but found integral variable)
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```
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What gives? It needs a pointer! Therefore I have to use pointers!"
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Turns out, you don't. All you need is a reference. Try this on for size:
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```rust
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fn main() {
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let number = 5;
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let succ_number = succ(&number);
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println!("{}", succ_number);
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}
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```
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It's that easy! One extra little `&` there. This code will run, and print `6`.
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That's all you need to know. Your co-worker could have written the function
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like this:
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```rust
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fn succ(x: int) -> int { x + 1 }
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fn main() {
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let number = 5;
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let succ_number = succ(number);
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println!("{}", succ_number);
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}
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```
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No pointers even needed. Then again, this is a simple example. I assume that
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your real-world `succ` function is more complicated, and maybe your co-worker
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had a good reason for `x` to be a pointer of some kind. In that case, references
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are your best friend. Don't worry about it, life is too short.
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However.
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Here are the use-cases for pointers. I've prefixed them with the name of the
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pointer that satisfies that use-case:
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1. Owned: ~Trait must be a pointer, becuase you don't know the size of the
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object, so indirection is mandatory.
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2. Owned: You need a recursive data structure. These can be infinite sized, so
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indirection is mandatory.
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3. Owned: A very, very, very rare situation in which you have a *huge* chunk of
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data that you wish to pass to many methods. Passing a pointer will make this
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more efficient. If you're coming from another language where this technique is
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common, such as C++, please read "A note..." below.
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4. Managed: Having only a single owner to a piece of data would be inconvenient
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or impossible. This is only often useful when a program is very large or very
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complicated. Using a managed pointer will activate Rust's garbage collection
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mechanism.
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5: Borrowed: You're writing a function, and you need a pointer, but you don't
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care about its ownership. If you make the argument a borrowed pointer, callers
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can send in whatever kind they want.
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Five exceptions. That's it. Otherwise, you shouldn't need them. Be skeptical
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of pointers in Rust: use them for a deliberate purpose, not just to make the
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compiler happy.
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## A note for those proficient in pointers
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If you're coming to Rust from a language like C or C++, you may be used to
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passing things by reference, or passing things by pointer. In some langauges,
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like Java, you can't even have objects without a pointer to them. Therefore, if
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you were writing this Rust code:
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```rust
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struct Point {
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x: int,
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y: int,
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}
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fn main() {
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let p0 = Point { x: 5, y: 10};
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let p1 = transform(p0);
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println!("{:?}", p1);
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}
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```
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I think you'd implement `transform` like this:
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```rust
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fn transform(p: &Point) -> Point {
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Point { x: p.x + 1, y: p.y + 1}
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}
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// and change this:
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let p1 = transform(&p0);
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```
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This does work, but you don't need to create those references! The better way to write this is simply:
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```rust
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struct Point {
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x: int,
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y: int,
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}
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fn transform(p: Point) -> Point {
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Point { x: p.x + 1, y: p.y + 1}
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}
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fn main() {
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let p0 = Point { x: 5, y: 10};
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let p1 = transform(p0);
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println!("{:?}", p1);
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}
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```
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But won't this be inefficent? Well, that's a complicated question, but it's
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important to know that Rust, like C and C++, store aggregate data types
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'unboxed,' whereas languages like Java and Ruby store these types as 'boxed.'
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For smaller structs, this way will be more efficient. For larger ones, it may
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be less so. But don't reach for that pointer until you must! Make sure that the
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struct is large enough by performing some tests before you add in the
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complexity of pointers.
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# Owned Pointers
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Owned pointers are the conceptually simplest kind of pointer in Rust. A rough
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approximation of owned pointers follows:
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1. Only one owned pointer may exist to a particular place in memory. It may be
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borrowed from that owner, however.
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2. The Rust compiler uses static analysis to determine where the pointer is in
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scope, and handles allocating and de-allocating that memory. Owned pointers are
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not garbage collected.
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These two properties make for three use cases.
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## References to Traits
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Traits must be referenced through a pointer, becuase the struct that implements
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the trait may be a different size than a different struct that implements the
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trait. Therefore, unboxed traits don't make any sense, and aren't allowed.
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## Recursive Data Structures
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Sometimes, you need a recursive data structure. The simplest is known as a 'cons list':
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```rust
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enum List<T> {
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Nil,
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Cons(T, ~List<T>),
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}
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fn main() {
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let list: List<int> = Cons(1, ~Cons(2, ~Cons(3, ~Nil)));
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println!("{:?}", list);
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}
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```
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This prints:
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```
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Cons(1, ~Cons(2, ~Cons(3, ~Nil)))
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```
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The inner lists _must_ be an owned pointer, becuase we can't know how many
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elements are in the list. Without knowing the length, we don't know the size,
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and therefore require the indirection that pointers offer.
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## Efficiency
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This should almost never be a concern, but because creating an owned pointer
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boxes its value, it therefore makes referring to the value the size of the box.
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This may make passing an owned pointer to a function less expensive than
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passing the value itself. Don't worry yourself with this case until you've
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proved that it's an issue through benchmarks.
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For example, this will work:
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```rust
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struct Point {
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x: int,
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y: int,
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}
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fn main() {
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let a = Point { x: 10, y: 20 };
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do spawn {
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println(a.x.to_str());
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}
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}
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```
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This struct is tiny, so it's fine. If `Point` were large, this would be more
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efficient:
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```rust
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struct Point {
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x: int,
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y: int,
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}
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fn main() {
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let a = ~Point { x: 10, y: 20 };
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do spawn {
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println(a.x.to_str());
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}
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}
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```
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Now it'll be copying a pointer-sized chunk of memory rather than the whole
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struct.
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# Managed Pointers
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Managed pointers, notated by an `@`, are used when having a single owner for
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some data isn't convenient or possible. This generally happens when your
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program is very large and complicated.
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For example, let's say you're using an owned pointer, and you want to do this:
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```rust
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struct Point {
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x: int,
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y: int,
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}
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fn main() {
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let a = ~Point { x: 10, y: 20 };
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let b = a;
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println(b.x.to_str());
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println(a.x.to_str());
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}
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```
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You'll get this error:
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```
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test.rs:10:12: 10:13 error: use of moved value: `a`
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test.rs:10 println(a.x.to_str());
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^
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test.rs:8:8: 8:9 note: `a` moved here because it has type `~Point`, which is moved by default (use `ref` to override)
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test.rs:8 let b = a;
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^
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```
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As the message says, owned pointers only allow for one owner at a time. When you assign `a` to `b`, `a` becomes invalid. Change your code to this, however:
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```rust
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struct Point {
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x: int,
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y: int,
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}
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fn main() {
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let a = @Point { x: 10, y: 20 };
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let b = a;
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println(b.x.to_str());
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println(a.x.to_str());
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}
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```
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And it works:
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```
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10
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10
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```
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So why not just use managed pointers everywhere? There are two big drawbacks to
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managed pointers:
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1. They activate Rust's garbage collector. Other pointer types don't share this
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drawback.
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2. You cannot pass this data to another task. Shared ownership across
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concurrency boundaries is the source of endless pain in other langauges, so
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Rust does not let you do this.
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# Borrowed Pointers
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Borrowed pointers are the third major kind of pointer Rust supports. They are
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simultaneously the simplest and the most complicated kind. Let me explain:
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they're called 'borrowed' pointers because they claim no ownership over the
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data they're pointing to. They're just borrowing it for a while. So in that
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sense, they're simple: just keep whatever ownership the data already has. For
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example:
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```rust
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use std::num::sqrt;
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struct Point {
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x: float,
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y: float,
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}
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fn compute_distance(p1: &Point, p2: &Point) -> float {
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let x_d = p1.x - p2.x;
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let y_d = p1.y - p2.y;
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sqrt(x_d * x_d + y_d * y_d)
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}
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fn main() {
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let origin = @Point { x: 0.0, y: 0.0 };
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let p1 = ~Point { x: 5.0, y: 3.0 };
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println!("{:?}", compute_distance(origin, p1));
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}
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```
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This prints `5.83095189`. You can see that the `compute_distance` function
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takes in two borrowed pointers, but we give it a managed and unique pointer. Of
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course, if this were a real program, we wouldn't have any of these pointers,
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they're just there to demonstrate the concepts.
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So how is this hard? Well, because we're igorning ownership, the compiler needs
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to take great care to make sure that everything is safe. Despite their complete
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safety, a borrowed pointer's representation at runtime is the same as that of
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an ordinary pointer in a C program. They introduce zero overhead. The compiler
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does all safety checks at compile time.
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This theory is called 'region pointers,' and involve a concept called
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'lifetimes'. Here's the simple explanation: would you expect this code to
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compile?
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```rust
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fn main() {
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println(x.to_str());
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let x = 5;
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}
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```
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Probably not. That's becuase you know that the name `x` is valid from where
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it's declared to when it goes out of scope. In this case, that's the end of
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the `main` function. So you know this code will cause an error. We call this
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duration a 'lifetime'. Let's try a more complex example:
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```rust
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fn main() {
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let mut x = ~5;
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if(*x < 10) {
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let y = &x;
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println!("Oh no: {:?}", y);
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return;
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}
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*x = *x - 1;
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println!("Oh no: {:?}", x);
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}
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```
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Here, we're borrowing a pointer to `x` inside of the `if`. The compiler, however,
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is able to determine that that pointer will go out of scope without `x` being
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mutated, and therefore, lets us pass. This wouldn't work:
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```rust
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fn main() {
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let mut x = ~5;
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if(*x < 10) {
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let y = &x;
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*x = *x - 1;
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println!("Oh no: {:?}", y);
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return;
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}
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*x = *x - 1;
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println!("Oh no: {:?}", x);
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}
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```
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It gives this error:
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```
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test.rs:5:8: 5:10 error: cannot assign to `*x` because it is borrowed
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test.rs:5 *x = *x - 1;
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^~
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test.rs:4:16: 4:18 note: borrow of `*x` occurs here
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test.rs:4 let y = &x;
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^~
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```
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As you might guess, this kind of analysis is complex for a human, and therefore
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hard for a computer, too! There is an entire [tutorial devoted to borrowed
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pointers and lifetimes](tutorial-lifetimes.html) that goes into lifetimes in
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great detail, so if you want the full details, check that out.
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# Returning Pointers
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We've talked a lot about funtions that accept various kinds of pointers, but
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what about returning them? Here's the rule of thumb: only return a unique or
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managed pointer if you were given one in the first place.
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What does that mean? Don't do this:
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```rust
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fn foo(x: ~int) -> ~int {
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return ~*x;
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}
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fn main() {
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let x = ~5;
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let y = foo(x);
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}
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```
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Do this:
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```rust
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fn foo(x: ~int) -> int {
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return *x;
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}
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fn main() {
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let x = ~5;
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let y = ~foo(x);
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}
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```
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This gives you flexibility, without sacrificing performance. For example, this will
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also work:
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```rust
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fn foo(x: ~int) -> int {
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return *x;
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}
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fn main() {
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let x = ~5;
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let y = @foo(x);
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}
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```
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You may think that this gives us terrible performance: return a value and then
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immediately box it up?!?! Isn't that the worst of both worlds? Rust is smarter
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than that. There is no copy in this code. `main` allocates enough room for the
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`@int`, passes it into `foo` as `x`, and then `foo` writes the value into the
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new box. This writes the return value directly into the allocated box.
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This is important enough that it bears repeating: pointers are not for optimizing
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returning values from your code. Allow the caller to choose how they want to
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use your output.
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# Related Resources
|
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|
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* [Lifetimes tutorial](tutorial-lifetimes.html)
|
@ -11,7 +11,7 @@
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# Guides
|
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|
||||
[Borrowed Pointers](guide-borrowed-ptr.html)
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[Pointers](guide-pointers.html)
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[Lifetimes](guide-lifetimes.html)
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[Containers and Iterators](guide-container.html)
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[Tasks and Communication](guide-tasks.html)
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|
@ -1423,10 +1423,8 @@ intuitive sense: you must wait for a borrowed value to be returned
|
||||
(that is, for the borrowed pointer to go out of scope) before you can
|
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make full use of it again.
|
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|
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For a more in-depth explanation of borrowed pointers, read the
|
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[borrowed pointer tutorial][borrowtut].
|
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[borrowtut]: tutorial-borrowed-ptr.html
|
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For a more in-depth explanation of borrowed pointers and lifetimes, read the
|
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[lifetimes and borrowed pointer tutorial][lifetimes].
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## Freezing
|
||||
|
||||
@ -3265,7 +3263,8 @@ re-export a bunch of 'officially blessed' crates that get managed with `rustpkg`
|
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Now that you know the essentials, check out any of the additional
|
||||
guides on individual topics.
|
||||
|
||||
* [Borrowed pointers][borrow]
|
||||
* [Pointers][pointers]
|
||||
* [Lifetimes][lifetimes]
|
||||
* [Tasks and communication][tasks]
|
||||
* [Macros][macros]
|
||||
* [The foreign function interface][ffi]
|
||||
@ -3275,9 +3274,10 @@ guides on individual topics.
|
||||
* [Documenting Rust code][rustdoc]
|
||||
* [Testing Rust code][testing]
|
||||
|
||||
There is further documentation on the [Main Page](index.html).
|
||||
There is further documentation on the [wiki], however those tend to be even more out of date as this document.
|
||||
|
||||
[borrow]: guide-borrowed-ptr.html
|
||||
[pointers]: guide-pointers.html
|
||||
[lifetimes]: guide-lifetimes.html
|
||||
[tasks]: guide-tasks.html
|
||||
[macros]: guide-macros.html
|
||||
[ffi]: guide-ffi.html
|
||||
@ -3286,5 +3286,6 @@ There is further documentation on the [Main Page](index.html).
|
||||
[rustpkg]: guide-rustpkg.html
|
||||
[testing]: guide-testing.html
|
||||
[rustdoc]: rustdoc.html
|
||||
[wiki]: https://github.com/mozilla/rust/wiki/Docs
|
||||
|
||||
[wiki-packages]: https://github.com/mozilla/rust/wiki/Doc-packages,-editors,-and-other-tools
|
||||
|
10
mk/docs.mk
10
mk/docs.mk
@ -194,8 +194,8 @@ doc/guide-testing.html: $(S)doc/guide-testing.md $(HTML_DEPS)
|
||||
$(Q)$(CFG_NODE) $(S)doc/prep.js --highlight $< | \
|
||||
$(CFG_PANDOC) $(HTML_OPTS) --output=$@
|
||||
|
||||
DOCS += doc/guide-borrowed-ptr.html
|
||||
doc/guide-borrowed-ptr.html: $(S)doc/guide-borrowed-ptr.md $(HTML_DEPS)
|
||||
DOCS += doc/guide-lifetimes.html
|
||||
doc/guide-lifetimes.html: $(S)doc/guide-lifetimes.md $(HTML_DEPS)
|
||||
@$(call E, pandoc: $@)
|
||||
$(Q)$(CFG_NODE) $(S)doc/prep.js --highlight $< | \
|
||||
$(CFG_PANDOC) $(HTML_OPTS) --output=$@
|
||||
@ -218,6 +218,12 @@ doc/guide-rustpkg.html: $(S)doc/guide-rustpkg.md $(HTML_DEPS)
|
||||
$(Q)$(CFG_NODE) $(S)doc/prep.js --highlight $< | \
|
||||
$(CFG_PANDOC) $(HTML_OPTS) --output=$@
|
||||
|
||||
DOCS += doc/guide-pointers.html
|
||||
doc/guide-pointers.html: $(S)doc/guide-pointers.md $(HTML_DEPS)
|
||||
@$(call E, pandoc: $@)
|
||||
$(Q)$(CFG_NODE) $(S)doc/prep.js --highlight $< | \
|
||||
$(CFG_PANDOC) $(HTML_OPTS) --output=$@
|
||||
|
||||
ifeq ($(CFG_PDFLATEX),)
|
||||
$(info cfg: no pdflatex found, omitting doc/rust.pdf)
|
||||
else
|
||||
|
@ -20,8 +20,9 @@ TEST_HOST_CRATES = rustpkg rustc rustdoc syntax
|
||||
TEST_CRATES = $(TEST_TARGET_CRATES) $(TEST_HOST_CRATES)
|
||||
|
||||
# Markdown files under doc/ that should have their code extracted and run
|
||||
DOC_TEST_NAMES = tutorial guide-ffi guide-macros guide-borrowed-ptr \
|
||||
guide-tasks guide-conditions guide-container rust
|
||||
DOC_TEST_NAMES = tutorial guide-ffi guide-macros guide-lifetimes \
|
||||
guide-tasks guide-conditions guide-container guide-pointers \
|
||||
rust
|
||||
|
||||
######################################################################
|
||||
# Environment configuration
|
||||
|
Loading…
Reference in New Issue
Block a user