#[repr(transparent)]pub struct RawStrBuf(/* private fields */);
Expand description
An owned version of RawStr
.
Implementations§
Methods from Deref<Target = RawStr>§
sourcepub fn percent_decode(&self) -> Result<Cow<'_, str>, Utf8Error>
pub fn percent_decode(&self) -> Result<Cow<'_, str>, Utf8Error>
Returns a percent-decoded version of the string.
Errors
Returns an Err
if the percent encoded values are not valid UTF-8.
Example
With a valid string:
use rocket::http::RawStr;
let raw_str = RawStr::new("Hello%21");
let decoded = raw_str.percent_decode();
assert_eq!(decoded, Ok("Hello!".into()));
With an invalid string:
use rocket::http::RawStr;
let bad_raw_str = RawStr::new("%FF");
assert!(bad_raw_str.percent_decode().is_err());
sourcepub fn percent_decode_lossy(&self) -> Cow<'_, str>
pub fn percent_decode_lossy(&self) -> Cow<'_, str>
Returns a percent-decoded version of the string. Any invalid UTF-8 percent-encoded byte sequences will be replaced � U+FFFD, the replacement character.
Example
With a valid string:
use rocket::http::RawStr;
let raw_str = RawStr::new("Hello%21");
let decoded = raw_str.percent_decode_lossy();
assert_eq!(decoded, "Hello!");
With an invalid string:
use rocket::http::RawStr;
let bad_raw_str = RawStr::new("a=%FF");
assert_eq!(bad_raw_str.percent_decode_lossy(), "a=�");
sourcepub fn percent_encode(&self) -> Cow<'_, RawStr>
pub fn percent_encode(&self) -> Cow<'_, RawStr>
Returns a percent-encoded version of the string.
Example
With a valid string:
use rocket::http::RawStr;
let raw_str = RawStr::new("Hello%21");
let decoded = raw_str.percent_decode();
assert_eq!(decoded, Ok("Hello!".into()));
With an invalid string:
use rocket::http::RawStr;
let bad_raw_str = RawStr::new("%FF");
assert!(bad_raw_str.percent_decode().is_err());
sourcepub fn url_decode(&self) -> Result<Cow<'_, str>, Utf8Error>
pub fn url_decode(&self) -> Result<Cow<'_, str>, Utf8Error>
Returns a URL-decoded version of the string. This is identical to
percent decoding except that +
characters are converted into spaces.
This is the encoding used by form values.
Errors
Returns an Err
if the percent encoded values are not valid UTF-8.
Example
use rocket::http::RawStr;
let raw_str = RawStr::new("Hello%2C+world%21");
let decoded = raw_str.url_decode();
assert_eq!(decoded.unwrap(), "Hello, world!");
sourcepub fn url_decode_lossy(&self) -> Cow<'_, str>
pub fn url_decode_lossy(&self) -> Cow<'_, str>
Returns a URL-decoded version of the string.
Any invalid UTF-8 percent-encoded byte sequences will be replaced �
U+FFFD, the replacement character. This is identical to lossy percent
decoding except that +
characters are converted into spaces. This is
the encoding used by form values.
Example
With a valid string:
use rocket::http::RawStr;
let raw_str: &RawStr = "Hello%2C+world%21".into();
let decoded = raw_str.url_decode_lossy();
assert_eq!(decoded, "Hello, world!");
With an invalid string:
use rocket::http::RawStr;
let bad_raw_str = RawStr::new("a+b=%FF");
assert_eq!(bad_raw_str.url_decode_lossy(), "a b=�");
sourcepub fn html_escape(&self) -> Cow<'_, str>
pub fn html_escape(&self) -> Cow<'_, str>
Returns an HTML escaped version of self
. Allocates only when
characters need to be escaped.
The following characters are escaped: &
, <
, >
, "
, '
, /
,
`
. This suffices as long as the escaped string is not
used in an execution context such as inside of <script> or <style>
tags! See the OWASP XSS Prevention Rules for more information.
Example
Strings with HTML sequences are escaped:
use rocket::http::RawStr;
let raw_str: &RawStr = "<b>Hi!</b>".into();
let escaped = raw_str.html_escape();
assert_eq!(escaped, "<b>Hi!</b>");
let raw_str: &RawStr = "Hello, <i>world!</i>".into();
let escaped = raw_str.html_escape();
assert_eq!(escaped, "Hello, <i>world!</i>");
Strings without HTML sequences remain untouched:
use rocket::http::RawStr;
let raw_str: &RawStr = "Hello!".into();
let escaped = raw_str.html_escape();
assert_eq!(escaped, "Hello!");
let raw_str: &RawStr = "大阪".into();
let escaped = raw_str.html_escape();
assert_eq!(escaped, "大阪");
sourcepub fn is_empty(&self) -> bool
pub fn is_empty(&self) -> bool
Returns true
if self
has a length of zero bytes.
Example
use rocket::http::RawStr;
let raw_str = RawStr::new("Hello, world!");
assert!(!raw_str.is_empty());
let raw_str = RawStr::new("");
assert!(raw_str.is_empty());
sourcepub fn as_str(&self) -> &str
pub fn as_str(&self) -> &str
Converts self
into an &str
.
This method should be used sparingly. Only use this method when you are absolutely certain that doing so is safe.
Example
use rocket::http::RawStr;
let raw_str = RawStr::new("Hello, world!");
assert_eq!(raw_str.as_str(), "Hello, world!");
sourcepub fn as_bytes(&self) -> &[u8] ⓘ
pub fn as_bytes(&self) -> &[u8] ⓘ
Converts self
into an &[u8]
.
Example
use rocket::http::RawStr;
let raw_str = RawStr::new("hi");
assert_eq!(raw_str.as_bytes(), &[0x68, 0x69]);
sourcepub fn as_ptr(&self) -> *const u8
pub fn as_ptr(&self) -> *const u8
Converts a string slice to a raw pointer.
As string slices are a slice of bytes, the raw pointer points to a
u8
. This pointer will be pointing to the first byte of the string
slice.
The caller must ensure that the returned pointer is never written to.
If you need to mutate the contents of the string slice, use as_mut_ptr
.
Examples
Basic usage:
use rocket::http::RawStr;
let raw_str = RawStr::new("hi");
let ptr = raw_str.as_ptr();
sourcepub fn as_uncased_str(&self) -> &UncasedStr
pub fn as_uncased_str(&self) -> &UncasedStr
Converts self
into an &UncasedStr
.
This method should be used sparingly. Only use this method when you are absolutely certain that doing so is safe.
Example
use rocket::http::RawStr;
let raw_str = RawStr::new("Content-Type");
assert!(raw_str.as_uncased_str() == "content-TYPE");
sourcepub fn contains<'a, P>(&'a self, pat: P) -> boolwhere
P: Pattern<'a>,
pub fn contains<'a, P>(&'a self, pat: P) -> boolwhere P: Pattern<'a>,
Returns true
if the given pattern matches a sub-slice of
this string slice.
Returns false
if it does not.
The pattern can be a &str
, char
, a slice of char
s, or a
function or closure that determines if a character matches.
Examples
Basic usage:
use rocket::http::RawStr;
let bananas = RawStr::new("bananas");
assert!(bananas.contains("nana"));
assert!(!bananas.contains("apples"));
sourcepub fn starts_with<'a, P>(&'a self, pat: P) -> boolwhere
P: Pattern<'a>,
pub fn starts_with<'a, P>(&'a self, pat: P) -> boolwhere P: Pattern<'a>,
Returns true
if the given pattern matches a prefix of this
string slice.
Returns false
if it does not.
The pattern can be a &str
, char
, a slice of char
s, or a
function or closure that determines if a character matches.
Examples
Basic usage:
use rocket::http::RawStr;
let bananas = RawStr::new("bananas");
assert!(bananas.starts_with("bana"));
assert!(!bananas.starts_with("nana"));
sourcepub fn ends_with<'a, P>(&'a self, pat: P) -> boolwhere
P: Pattern<'a>,
<P as Pattern<'a>>::Searcher: ReverseSearcher<'a>,
pub fn ends_with<'a, P>(&'a self, pat: P) -> boolwhere P: Pattern<'a>, <P as Pattern<'a>>::Searcher: ReverseSearcher<'a>,
Returns true
if the given pattern matches a suffix of this
string slice.
Returns false
if it does not.
The pattern can be a &str
, char
, a slice of char
s, or a
function or closure that determines if a character matches.
Examples
Basic usage:
use rocket::http::RawStr;
let bananas = RawStr::new("bananas");
assert!(bananas.ends_with("anas"));
assert!(!bananas.ends_with("nana"));
sourcepub fn find<'a, P>(&'a self, pat: P) -> Option<usize>where
P: Pattern<'a>,
pub fn find<'a, P>(&'a self, pat: P) -> Option<usize>where P: Pattern<'a>,
Returns the byte index of the first character of this string slice that matches the pattern.
Returns None
if the pattern doesn’t match.
The pattern can be a &str
, char
, a slice of char
s, or a
function or closure that determines if a character matches.
Example
use rocket::http::RawStr;
let s = RawStr::new("Löwe 老虎 Léopard Gepardi");
assert_eq!(s.find('L'), Some(0));
assert_eq!(s.find('é'), Some(14));
assert_eq!(s.find("pard"), Some(17));
sourcepub fn split<'a, P>(&'a self, pat: P) -> impl DoubleEndedIteratorwhere
P: Pattern<'a>,
<P as Pattern<'a>>::Searcher: DoubleEndedSearcher<'a>,
pub fn split<'a, P>(&'a self, pat: P) -> impl DoubleEndedIteratorwhere P: Pattern<'a>, <P as Pattern<'a>>::Searcher: DoubleEndedSearcher<'a>,
An iterator over substrings of this string slice, separated by characters matched by a pattern.
The pattern can be a &str
, char
, a slice of char
s, or a
function or closure that determines if a character matches.
Examples
Simple patterns:
use rocket::http::RawStr;
let v: Vec<_> = RawStr::new("Mary had a little lamb")
.split(' ')
.map(|r| r.as_str())
.collect();
assert_eq!(v, ["Mary", "had", "a", "little", "lamb"]);
sourcepub fn split_at_byte(&self, b: u8) -> (&RawStr, &RawStr)
pub fn split_at_byte(&self, b: u8) -> (&RawStr, &RawStr)
Splits self
into two pieces: the piece before the first byte b
and
the piece after (not including b
). Returns the tuple (before
,
after
). If b
is not in self
, or b
is not an ASCII characters,
returns the entire string self
as before
and the empty string as
after
.
Example
use rocket::http::RawStr;
let haystack = RawStr::new("a good boy!");
let (before, after) = haystack.split_at_byte(b'a');
assert_eq!(before, "");
assert_eq!(after, " good boy!");
let (before, after) = haystack.split_at_byte(b' ');
assert_eq!(before, "a");
assert_eq!(after, "good boy!");
let (before, after) = haystack.split_at_byte(b'o');
assert_eq!(before, "a g");
assert_eq!(after, "od boy!");
let (before, after) = haystack.split_at_byte(b'!');
assert_eq!(before, "a good boy");
assert_eq!(after, "");
let (before, after) = haystack.split_at_byte(b'?');
assert_eq!(before, "a good boy!");
assert_eq!(after, "");
let haystack = RawStr::new("");
let (before, after) = haystack.split_at_byte(b' ');
assert_eq!(before, "");
assert_eq!(after, "");
sourcepub fn strip_prefix<'a, P>(&'a self, prefix: P) -> Option<&'a RawStr>where
P: Pattern<'a>,
pub fn strip_prefix<'a, P>(&'a self, prefix: P) -> Option<&'a RawStr>where P: Pattern<'a>,
Returns a string slice with the prefix removed.
If the string starts with the pattern prefix
, returns substring after
the prefix, wrapped in Some
. This method removes the prefix exactly
once.
If the string does not start with prefix
, returns None
.
The pattern can be a &str
, char
, a slice of char
s, or a function
or closure that determines if a character matches.
Examples
use rocket::http::RawStr;
assert_eq!(RawStr::new("foo:bar").strip_prefix("foo:").unwrap(), "bar");
assert_eq!(RawStr::new("foofoo").strip_prefix("foo").unwrap(), "foo");
assert!(RawStr::new("foo:bar").strip_prefix("bar").is_none());
sourcepub fn strip_suffix<'a, P>(&'a self, suffix: P) -> Option<&'a RawStr>where
P: Pattern<'a>,
<P as Pattern<'a>>::Searcher: ReverseSearcher<'a>,
pub fn strip_suffix<'a, P>(&'a self, suffix: P) -> Option<&'a RawStr>where P: Pattern<'a>, <P as Pattern<'a>>::Searcher: ReverseSearcher<'a>,
Returns a string slice with the suffix removed.
If the string ends with the pattern suffix
, returns the substring
before the suffix, wrapped in Some
. Unlike trim_end_matches
, this
method removes the suffix exactly once.
If the string does not end with suffix
, returns None
.
The pattern can be a &str
, char
, a slice of char
s, or a function
or closure that determines if a character matches.
Examples
use rocket::http::RawStr;
assert_eq!(RawStr::new("bar:foo").strip_suffix(":foo").unwrap(), "bar");
assert_eq!(RawStr::new("foofoo").strip_suffix("foo").unwrap(), "foo");
assert!(RawStr::new("bar:foo").strip_suffix("bar").is_none());
sourcepub fn trim(&self) -> &RawStr
pub fn trim(&self) -> &RawStr
Returns a string slice with leading and trailing whitespace removed.
‘Whitespace’ is defined according to the terms of the Unicode Derived
Core Property White_Space
, which includes newlines.
Examples
Basic usage:
use rocket::http::RawStr;
let s = RawStr::new("\n Hello\tworld\t\n");
assert_eq!("Hello\tworld", s.trim());
sourcepub fn parse<F>(&self) -> Result<F, <F as FromStr>::Err>where
F: FromStr,
pub fn parse<F>(&self) -> Result<F, <F as FromStr>::Err>where F: FromStr,
Parses this string slice into another type.
Because parse
is so general, it can cause problems with type
inference. As such, parse
is one of the few times you’ll see
the syntax affectionately known as the ‘turbofish’: ::<>
. This
helps the inference algorithm understand specifically which type
you’re trying to parse into.
Errors
Will return Err
if it’s not possible to parse this string slice into
the desired type.
Examples
Basic usage
use rocket::http::RawStr;
let four: u32 = RawStr::new("4").parse().unwrap();
assert_eq!(4, four);
Trait Implementations§
source§impl Ord for RawStrBuf
impl Ord for RawStrBuf
source§impl PartialEq<RawStrBuf> for RawStrBuf
impl PartialEq<RawStrBuf> for RawStrBuf
source§impl PartialOrd<RawStrBuf> for RawStrBuf
impl PartialOrd<RawStrBuf> for RawStrBuf
1.0.0 · source§fn le(&self, other: &Rhs) -> bool
fn le(&self, other: &Rhs) -> bool
self
and other
) and is used by the <=
operator. Read moreimpl Eq for RawStrBuf
impl StructuralEq for RawStrBuf
impl StructuralPartialEq for RawStrBuf
Auto Trait Implementations§
impl RefUnwindSafe for RawStrBuf
impl Send for RawStrBuf
impl Sync for RawStrBuf
impl Unpin for RawStrBuf
impl UnwindSafe for RawStrBuf
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