145 lines
4.1 KiB
Markdown
145 lines
4.1 KiB
Markdown
% Strings
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Strings are an important concept for any programmer to master. Rust’s string
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handling system is a bit different from other languages, due to its systems
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focus. Any time you have a data structure of variable size, things can get
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tricky, and strings are a re-sizable data structure. That being said, Rust’s
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strings also work differently than in some other systems languages, such as C.
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Let’s dig into the details. A ‘string’ is a sequence of Unicode scalar values
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encoded as a stream of UTF-8 bytes. All strings are guaranteed to be a valid
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encoding of UTF-8 sequences. Additionally, unlike some systems languages,
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strings are not null-terminated and can contain null bytes.
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Rust has two main types of strings: `&str` and `String`. Let’s talk about
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`&str` first. These are called ‘string slices’. String literals are of the type
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`&'static str`:
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```rust
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let greeting = "Hello there."; // greeting: &'static str
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```
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This string is statically allocated, meaning that it’s saved inside our
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compiled program, and exists for the entire duration it runs. The `greeting`
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binding is a reference to this statically allocated string. String slices
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have a fixed size, and cannot be mutated.
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A `String`, on the other hand, is a heap-allocated string. This string is
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growable, and is also guaranteed to be UTF-8. `String`s are commonly created by
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converting from a string slice using the `to_string` method.
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```rust
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let mut s = "Hello".to_string(); // mut s: String
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println!("{}", s);
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s.push_str(", world.");
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println!("{}", s);
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```
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`String`s will coerce into `&str` with an `&`:
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```rust
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fn takes_slice(slice: &str) {
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println!("Got: {}", slice);
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}
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fn main() {
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let s = "Hello".to_string();
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takes_slice(&s);
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}
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```
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This coercion does not happen for functions that accept one of `&str`’s traits
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instead of `&str`. For example, [`TcpStream::connect`][connect] has a parameter
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of type `ToSocketAddrs`. A `&str` is okay but a `String` must be explicitly
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converted using `&*`.
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```rust,no_run
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use std::net::TcpStream;
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TcpStream::connect("192.168.0.1:3000"); // &str parameter
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let addr_string = "192.168.0.1:3000".to_string();
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TcpStream::connect(&*addr_string); // convert addr_string to &str
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```
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Viewing a `String` as a `&str` is cheap, but converting the `&str` to a
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`String` involves allocating memory. No reason to do that unless you have to!
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## Indexing
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Because strings are valid UTF-8, strings do not support indexing:
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```rust,ignore
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let s = "hello";
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println!("The first letter of s is {}", s[0]); // ERROR!!!
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```
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Usually, access to a vector with `[]` is very fast. But, because each character
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in a UTF-8 encoded string can be multiple bytes, you have to walk over the
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string to find the nᵗʰ letter of a string. This is a significantly more
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expensive operation, and we don’t want to be misleading. Furthermore, ‘letter’
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isn’t something defined in Unicode, exactly. We can choose to look at a string as
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individual bytes, or as codepoints:
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```rust
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let hachiko = "忠犬ハチ公";
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for b in hachiko.as_bytes() {
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print!("{}, ", b);
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}
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println!("");
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for c in hachiko.chars() {
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print!("{}, ", c);
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}
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println!("");
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```
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This prints:
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```text
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229, 191, 160, 231, 138, 172, 227, 131, 143, 227, 131, 129, 229, 133, 172,
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忠, 犬, ハ, チ, 公,
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```
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As you can see, there are more bytes than `char`s.
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You can get something similar to an index like this:
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```rust
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# let hachiko = "忠犬ハチ公";
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let dog = hachiko.chars().nth(1); // kinda like hachiko[1]
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```
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This emphasizes that we have to go through the whole list of `chars`.
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## Concatenation
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If you have a `String`, you can concatenate a `&str` to the end of it:
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```rust
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let hello = "Hello ".to_string();
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let world = "world!";
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let hello_world = hello + world;
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```
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But if you have two `String`s, you need an `&`:
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```rust
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let hello = "Hello ".to_string();
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let world = "world!".to_string();
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let hello_world = hello + &world;
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```
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This is because `&String` can automatically coerce to a `&str`. This is a
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feature called ‘[`Deref` coercions][dc]’.
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[dc]: deref-coercions.html
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[connect]: ../std/net/struct.TcpStream.html#method.connect
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