257 lines
4.6 KiB
Markdown
257 lines
4.6 KiB
Markdown
% Patterns
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Patterns are quite common in Rust. We use them in [variable
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bindings][bindings], [match statements][match], and other places, too. Let’s go
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on a whirlwind tour of all of the things patterns can do!
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[bindings]: variable-bindings.html
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[match]: match.html
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A quick refresher: you can match against literals directly, and `_` acts as an
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‘any’ case:
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```rust
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let x = 1;
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match x {
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1 => println!("one"),
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2 => println!("two"),
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3 => println!("three"),
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_ => println!("anything"),
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}
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```
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This prints `one`.
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# Multiple patterns
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You can match multiple patterns with `|`:
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```rust
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let x = 1;
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match x {
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1 | 2 => println!("one or two"),
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3 => println!("three"),
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_ => println!("anything"),
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}
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```
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This prints `one or two`.
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# Ranges
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You can match a range of values with `...`:
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```rust
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let x = 1;
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match x {
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1 ... 5 => println!("one through five"),
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_ => println!("anything"),
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}
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```
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This prints `one through five`.
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Ranges are mostly used with integers and `char`s:
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```rust
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let x = '💅';
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match x {
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'a' ... 'j' => println!("early letter"),
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'k' ... 'z' => println!("late letter"),
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_ => println!("something else"),
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}
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```
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This prints `something else`.
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# Bindings
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You can bind values to names with `@`:
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```rust
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let x = 1;
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match x {
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e @ 1 ... 5 => println!("got a range element {}", e),
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_ => println!("anything"),
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}
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```
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This prints `got a range element 1`. This is useful when you want to
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do a complicated match of part of a data structure:
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```rust
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#[derive(Debug)]
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struct Person {
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name: Option<String>,
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}
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let name = "Steve".to_string();
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let mut x: Option<Person> = Some(Person { name: Some(name) });
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match x {
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Some(Person { name: ref a @ Some(_), .. }) => println!("{:?}", a),
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_ => {}
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}
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```
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This prints `Some("Steve")`: We’ve bound the inner `name` to `a`.
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If you use `@` with `|`, you need to make sure the name is bound in each part
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of the pattern:
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```rust
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let x = 5;
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match x {
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e @ 1 ... 5 | e @ 8 ... 10 => println!("got a range element {}", e),
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_ => println!("anything"),
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}
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```
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# Ignoring variants
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If you’re matching on an enum which has variants, you can use `..` to
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ignore the value and type in the variant:
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```rust
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enum OptionalInt {
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Value(i32),
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Missing,
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}
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let x = OptionalInt::Value(5);
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match x {
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OptionalInt::Value(..) => println!("Got an int!"),
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OptionalInt::Missing => println!("No such luck."),
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}
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```
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This prints `Got an int!`.
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# Guards
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You can introduce ‘match guards’ with `if`:
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```rust
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enum OptionalInt {
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Value(i32),
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Missing,
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}
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let x = OptionalInt::Value(5);
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match x {
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OptionalInt::Value(i) if i > 5 => println!("Got an int bigger than five!"),
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OptionalInt::Value(..) => println!("Got an int!"),
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OptionalInt::Missing => println!("No such luck."),
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}
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```
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This prints `Got an int!`.
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# ref and ref mut
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If you want to get a [reference][ref], use the `ref` keyword:
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```rust
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let x = 5;
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match x {
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ref r => println!("Got a reference to {}", r),
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}
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```
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This prints `Got a reference to 5`.
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[ref]: references-and-borrowing.html
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Here, the `r` inside the `match` has the type `&i32`. In other words, the `ref`
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keyword _creates_ a reference, for use in the pattern. If you need a mutable
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reference, `ref mut` will work in the same way:
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```rust
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let mut x = 5;
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match x {
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ref mut mr => println!("Got a mutable reference to {}", mr),
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}
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```
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# Destructuring
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If you have a compound data type, like a [`struct`][struct], you can destructure it
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inside of a pattern:
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```rust
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struct Point {
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x: i32,
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y: i32,
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}
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let origin = Point { x: 0, y: 0 };
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match origin {
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Point { x: x, y: y } => println!("({},{})", x, y),
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}
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```
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[struct]: structs.html
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If we only care about some of the values, we don’t have to give them all names:
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```rust
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struct Point {
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x: i32,
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y: i32,
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}
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let origin = Point { x: 0, y: 0 };
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match origin {
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Point { x: x, .. } => println!("x is {}", x),
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}
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```
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This prints `x is 0`.
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You can do this kind of match on any member, not just the first:
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```rust
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struct Point {
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x: i32,
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y: i32,
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}
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let origin = Point { x: 0, y: 0 };
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match origin {
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Point { y: y, .. } => println!("y is {}", y),
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}
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```
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This prints `y is 0`.
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This ‘destructuring’ behavior works on any compound data type, like
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[tuples][tuples] or [enums][enums].
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[tuples]: primitive-types.html#tuples
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[enums]: enums.html
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# Mix and Match
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Whew! That’s a lot of different ways to match things, and they can all be
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mixed and matched, depending on what you’re doing:
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```rust,ignore
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match x {
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Foo { x: Some(ref name), y: None } => ...
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}
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```
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Patterns are very powerful. Make good use of them.
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