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体验新版 GitCode,发现更多精彩内容 >>
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8ddb9c71
编写于
8月 28, 2014
作者:
S
Steve Klabnik
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Add section about Str trait
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src/doc/guide-strings.md
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src/doc/guide-strings.md
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...
@@ -92,9 +92,33 @@ fn foo(s: String) {
...
@@ -92,9 +92,33 @@ fn foo(s: String) {
```
```
If you have good reason. It's not polite to hold on to ownership you don't
If you have good reason. It's not polite to hold on to ownership you don't
need, and it can make your lifetimes more complex. Furthermore, you can pass
need, and it can make your lifetimes more complex.
either kind of string into
`foo`
by using
`.as_slice()`
on any
`String`
you
need to pass in, so the
`&str`
version is more flexible.
## Generic functions
To write a function that's generic over types of strings, use
[
the `Str`
trait
](
http://doc.rust-lang.org/std/str/trait.Str.html
)
:
```
{rust}
fn some_string_length<T: Str>(x: T) -> uint {
x.as_slice().len()
}
fn main() {
let s = "Hello, world";
println!("{}", some_string_length(s));
let s = "Hello, world".to_string();
println!("{}", some_string_length(s));
}
```
Both of these lines will print
`12`
.
The only method that the
`Str`
trait has is
`as_slice()`
, which gives you
access to a
`&str`
value from the underlying string.
## Comparisons
## Comparisons
...
@@ -134,7 +158,7 @@ println!("{}", s[0]);
...
@@ -134,7 +158,7 @@ println!("{}", s[0]);
This does not compile. This is on purpose. In the world of UTF-8, direct
This does not compile. This is on purpose. In the world of UTF-8, direct
indexing is basically never what you want to do. The reason is that each
indexing is basically never what you want to do. The reason is that each
charater can be a variable number of bytes. This means that you have to iterate
chara
c
ter can be a variable number of bytes. This means that you have to iterate
through the characters anyway, which is a O(n) operation.
through the characters anyway, which is a O(n) operation.
To iterate over a string, use the
`graphemes()`
method on
`&str`
:
To iterate over a string, use the
`graphemes()`
method on
`&str`
:
...
@@ -147,6 +171,9 @@ for l in s.graphemes(true) {
...
@@ -147,6 +171,9 @@ for l in s.graphemes(true) {
}
}
```
```
Note that
`l`
has the type
`&str`
here, since a single grapheme can consist of
multiple codepoints, so a
`char`
wouldn't be appropriate.
This will print out each character in turn, as you'd expect: first "α", then
This will print out each character in turn, as you'd expect: first "α", then
"ἰ", etc. You can see that this is different than just the individual bytes.
"ἰ", etc. You can see that this is different than just the individual bytes.
Here's a version that prints out each byte:
Here's a version that prints out each byte:
...
@@ -154,7 +181,7 @@ Here's a version that prints out each byte:
...
@@ -154,7 +181,7 @@ Here's a version that prints out each byte:
```
{rust}
```
{rust}
let s = "αἰθήρ";
let s = "αἰθήρ";
for l in s.
as_bytes().iter
() {
for l in s.
bytes
() {
println!("{}", l);
println!("{}", l);
}
}
```
```
...
...
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