Quelle helpers.rs
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// This file is part of ICU4X. For terms of use, please see the file
// called LICENSE at the top level of the ICU4X source tree
// (online at: https://github.com/unicode-org/icu4x/blob/main/LICENSE ).
macro_rules! impl_tinystr_subtag {
(
$(#[$doc:meta])*
$name:ident,
$($path:ident)::+,
$macro_name:ident,
$legacy_macro_name:ident,
$len_start:literal..=$len_end:literal,
$tinystr_ident:ident,
$validate:expr,
$normalize:expr,
$is_normalized:expr,
$error:ident,
[$good_example:literal $(,$more_good_examples:literal)*],
[$bad_example:literal $(, $more_bad_examples:literal)*],
) => {
#[derive(Debug, PartialEq, Eq, Clone, Hash, PartialOrd, Ord, Copy)]
#[cfg_attr(feature = "serde", derive(serde::Serialize))]
#[repr(transparent)]
$(#[$doc])*
pub struct $name(tinystr::TinyAsciiStr<$len_end>);
impl $name {
/// A constructor which takes a UTF-8 slice, parses it and
#[doc = concat!("produces a well-formed [`", stringify!($name), "`].")]
///
/// # Examples
///
/// ```
#[doc = concat!("use icu_locid::", stringify!($($path::)+), stringify!($name), ";")]
///
#[doc = concat!("assert!(", stringify!($name), "::try_from_bytes(b", stringify!($good _example), ").is_ok());")]
#[doc = concat!("assert!(", stringify!($name), "::try_from_bytes(b", stringify!($bad_example), ").is_err());")]
/// ```
pub const fn try_from_bytes(v: &[u8]) -> Result<Self, crate::parser::errors::ParserError> {
Self::try_from_bytes_manual_slice(v, 0, v.len())
}
/// Equivalent to [`try_from_bytes(bytes[start..end])`](Self::try_from_bytes),
/// but callable in a `const` context (which range indexing is not).
pub const fn try_from_bytes_manual_slice(
v: &[u8],
start: usize,
end: usize,
) -> Result<Self, crate::parser::errors::ParserError> {
let slen = end - start;
#[allow(clippy::double_comparisons)] // if len_start == len_end
if slen < $len_start || slen > $len_end {
return Err(crate::parser::errors::ParserError::$error);
}
match tinystr::TinyAsciiStr::from_bytes_manual_slice(v, start, end) {
Ok($tinystr_ident) if $validate => Ok(Self($normalize)),
_ => Err(crate::parser::errors::ParserError::$error),
}
}
#[doc = concat!("Safely creates a [`", stringify!($name), "`] from its raw format")]
/// as returned by [`Self::into_raw`]. Unlike [`Self::try_from_bytes`],
/// this constructor only takes normalized values.
pub const fn try_from_raw(
v: [u8; $len_end],
) -> Result<Self, crate::parser::errors::ParserError> {
if let Ok($tinystr_ident) = tinystr::TinyAsciiStr::<$len_end>::try_from_raw(v) {
if $tinystr_ident.len() >= $len_start && $is_normalized {
Ok(Self($tinystr_ident))
} else {
Err(crate::parser::errors::ParserError::$error)
}
} else {
Err(crate::parser::errors::ParserError::$error)
}
}
#[doc = concat!("Unsafely creates a [`", stringify!($name), "`] from its raw format")]
/// as returned by [`Self::into_raw`]. Unlike [`Self::try_from_bytes`],
/// this constructor only takes normalized values.
///
/// # Safety
///
/// This function is safe iff [`Self::try_from_raw`] returns an `Ok`. This is the case
/// for inputs that are correctly normalized.
pub const unsafe fn from_raw_unchecked(v: [u8; $len_end]) -> Self {
Self(tinystr::TinyAsciiStr::from_bytes_unchecked(v))
}
/// Deconstructs into a raw format to be consumed by
/// [`from_raw_unchecked`](Self::from_raw_unchecked()) or
/// [`try_from_raw`](Self::try_from_raw()).
pub const fn into_raw(self) -> [u8; $len_end] {
*self.0.all_bytes()
}
#[inline]
/// A helper function for displaying as a `&str`.
pub const fn as_str(&self) -> &str {
self.0.as_str()
}
#[doc(hidden)]
pub const fn into_tinystr(&self) -> tinystr::TinyAsciiStr<$len_end> {
self.0
}
/// Compare with BCP-47 bytes.
///
/// The return value is equivalent to what would happen if you first converted
/// `self` to a BCP-47 string and then performed a byte comparison.
///
/// This function is case-sensitive and results in a *total order*, so it is appropriate for
/// binary search. The only argument producing [`Ordering::Equal`](core::cmp::Ordering::Equal)
/// is `self.as_str().as_bytes()`.
#[inline]
pub fn strict_cmp(self, other: &[u8]) -> core::cmp::Ordering {
self.as_str().as_bytes().cmp(other)
}
/// Compare with a potentially unnormalized BCP-47 string.
///
/// The return value is equivalent to what would happen if you first parsed the
/// BCP-47 string and then performed a structural comparison.
///
#[inline]
pub fn normalizing_eq(self, other: &str) -> bool {
self.as_str().eq_ignore_ascii_case(other)
}
}
impl core::str::FromStr for $name {
type Err = crate::parser::errors::ParserError;
fn from_str(source: &str) -> Result<Self, Self::Err> {
Self::try_from_bytes(source.as_bytes())
}
}
impl<'l> From<&'l $name> for &'l str {
fn from(input: &'l $name) -> Self {
input.as_str()
}
}
impl From<$name> for tinystr::TinyAsciiStr<$len_end> {
fn from(input: $name) -> Self {
input.into_tinystr()
}
}
impl writeable::Writeable for $name {
#[inline]
fn write_to<W: core::fmt::Write + ?Sized>(&self, sink: &mut W) -> core::fmt::Result {
sink.write_str(self.as_str())
}
#[inline]
fn writeable_length_hint(&self) -> writeable::LengthHint {
writeable::LengthHint::exact(self.0.len())
}
#[inline]
fn write_to_string(&self) -> alloc::borrow::Cow<str> {
alloc::borrow::Cow::Borrowed(self.0.as_str())
}
}
writeable::impl_display_with_writeable!($name);
#[doc = concat!("A macro allowing for compile-time construction of valid [`", stringify!($name), "`] subtags.")]
///
/// # Examples
///
/// Parsing errors don't have to be handled at runtime:
/// ```
/// assert_eq!(
#[doc = concat!(" icu_locid::", $(stringify!($path), "::",)+ stringify!($macro_name), "!(", stringify!($good_example) ,"),")]
#[doc = concat!(" ", stringify!($good_example), ".parse::<icu_locid::", $(stringify!($path), "::",)+ stringify!($name), ">().unwrap()")]
/// );
/// ```
///
/// Invalid input is a compile failure:
/// ```compile_fail,E0080
#[doc = concat!("icu_locid::", $(stringify!($path), "::",)+ stringify!($macro_name), "!(", stringify!($bad_example) ,");")]
/// ```
///
#[doc = concat!("[`", stringify!($name), "`]: crate::", $(stringify!($path), "::",)+ stringify!($name))]
#[macro_export]
#[doc(hidden)]
macro_rules! $legacy_macro_name {
($string:literal) => {{
use $crate::$($path ::)+ $name;
const R: $name =
match $name::try_from_bytes($string.as_bytes()) {
Ok(r) => r,
#[allow(clippy::panic)] // const context
_ => panic!(concat!("Invalid ", $(stringify!($path), "::",)+ stringify!($name), ": ", $string)),
};
R
}};
}
#[doc(inline)]
pub use $legacy_macro_name as $macro_name;
#[cfg(feature = "databake")]
impl databake::Bake for $name {
fn bake(&self, env: &databake::CrateEnv) -> databake::TokenStream {
env.insert("icu_locid");
let string = self.as_str();
databake::quote! { icu_locid::$($path::)+ $macro_name!(#string) }
}
}
#[test]
fn test_construction() {
let maybe = $name::try_from_bytes($good_example.as_bytes());
assert!(maybe.is_ok());
assert_eq!(maybe, $name::try_from_raw(maybe.unwrap().into_raw()));
assert_eq!(maybe.unwrap().as_str(), $good_example);
$(
let maybe = $name::try_from_bytes($more_good_examples.as_bytes());
assert!(maybe.is_ok());
assert_eq!(maybe, $name::try_from_raw(maybe.unwrap().into_raw()));
assert_eq!(maybe.unwrap().as_str(), $more_good_examples);
)*
assert!($name::try_from_bytes($bad_example.as_bytes()).is_err());
$(
assert!($name::try_from_bytes($more_bad_examples.as_bytes()).is_err());
)*
}
#[test]
fn test_writeable() {
writeable::assert_writeable_eq!(&$good_example.parse::<$name>().unwrap(), $good_example);
$(
writeable::assert_writeable_eq!($more_good_examples.parse::<$name>().unwrap(), $more_good_examples);
)*
}
#[cfg(feature = "serde")]
impl<'de> serde::Deserialize<'de> for $name {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: serde::de::Deserializer<'de>,
{
struct Visitor;
impl<'de> serde::de::Visitor<'de> for Visitor {
type Value = $name;
fn expecting(
&self,
formatter: &mut core::fmt::Formatter<'_>,
) -> core::fmt::Result {
write!(formatter, "a valid BCP-47 {}", stringify!($name))
}
fn visit_str<E: serde::de::Error>(self, s: &str) -> Result<Self::Value, E> {
s.parse().map_err(serde::de::Error::custom)
}
}
if deserializer.is_human_readable() {
deserializer.deserialize_string(Visitor)
} else {
Self::try_from_raw(serde::de::Deserialize::deserialize(deserializer)?)
.map_err(serde::de::Error::custom)
}
}
}
// Safety checklist for ULE:
//
// 1. Must not include any uninitialized or padding bytes (true since transparent over a ULE).
// 2. Must have an alignment of 1 byte (true since transparent over a ULE).
// 3. ULE::validate_byte_slice() checks that the given byte slice represents a valid slice.
// 4. ULE::validate_byte_slice() checks that the given byte slice has a valid length.
// 5. All other methods must be left with their default impl.
// 6. Byte equality is semantic equality.
#[cfg(feature = "zerovec")]
unsafe impl zerovec::ule::ULE for $name {
fn validate_byte_slice(bytes: &[u8]) -> Result<(), zerovec::ZeroVecError> {
let it = bytes.chunks_exact(core::mem::size_of::<Self>());
if !it.remainder().is_empty() {
return Err(zerovec::ZeroVecError::length::<Self>(bytes.len()));
}
for v in it {
// The following can be removed once `array_chunks` is stabilized.
let mut a = [0; core::mem::size_of::<Self>()];
a.copy_from_slice(v);
if Self::try_from_raw(a).is_err() {
return Err(zerovec::ZeroVecError::parse::<Self>());
}
}
Ok(())
}
}
#[cfg(feature = "zerovec")]
impl zerovec::ule::AsULE for $name {
type ULE = Self;
fn to_unaligned(self) -> Self::ULE {
self
}
fn from_unaligned(unaligned: Self::ULE) -> Self {
unaligned
}
}
#[cfg(feature = "zerovec")]
impl<'a> zerovec::maps::ZeroMapKV<'a> for $name {
type Container = zerovec::ZeroVec<'a, $name>;
type Slice = zerovec::ZeroSlice<$name>;
type GetType = $name;
type OwnedType = $name;
}
};
}
macro_rules! impl_writeable_for_each_subtag_str_no_test {
($type:tt $(, $self:ident, $borrow_cond:expr => $borrow:expr)?) => {
impl writeable::Writeable for $type {
fn write_to<W: core::fmt::Write + ?Sized>(&self, sink: &mut W) -> core::fmt::Result {
let mut initial = true;
self.for_each_subtag_str(&mut |subtag| {
if initial {
initial = false;
} else {
sink.write_char('-')?;
}
sink.write_str(subtag)
})
}
#[inline]
fn writeable_length_hint(&self) -> writeable::LengthHint {
let mut result = writeable::LengthHint::exact(0);
let mut initial = true;
self.for_each_subtag_str::<core::convert::Infallible, _>(&mut |subtag| {
if initial {
initial = false;
} else {
result += 1;
}
result += subtag.len();
Ok(())
})
.expect("infallible");
result
}
$(
fn write_to_string(&self) -> alloc::borrow::Cow<str> {
#[allow(clippy::unwrap_used)] // impl_writeable_for_subtag_list's $borrow uses unwrap
let $self = self;
if $borrow_cond {
$borrow
} else {
let mut output = alloc::string::String::with_capacity(self.writeable_length_hint().capacity());
let _ = self.write_to(&mut output);
alloc::borrow::Cow::Owned(output)
}
}
)?
}
writeable::impl_display_with_writeable!($type);
};
}
macro_rules! impl_writeable_for_subtag_list {
($type:tt, $sample1:literal, $sample2:literal) => {
impl_writeable_for_each_subtag_str_no_test!($type, selff, selff.0.len() == 1 => alloc::borrow::Cow::Borrowed(selff.0.get(0).unwrap().as_str()));
#[test]
fn test_writeable() {
writeable::assert_writeable_eq!(&$type::default(), "");
writeable::assert_writeable_eq!(
&$type::from_short_slice_unchecked(alloc::vec![$sample1.parse().unwrap()].into()),
$sample1,
);
writeable::assert_writeable_eq!(
&$type::from_short_slice_unchecked(vec![
$sample1.parse().unwrap(),
$sample2.parse().unwrap()
].into()),
core::concat!($sample1, "-", $sample2),
);
}
};
}
macro_rules! impl_writeable_for_key_value {
($type:tt, $key1:literal, $value1:literal, $key2:literal, $expected2:literal) => {
impl_writeable_for_each_subtag_str_no_test!($type);
#[test]
fn test_writeable() {
writeable::assert_writeable_eq!(&$type::default(), "");
writeable::assert_writeable_eq!(
&$type::from_tuple_vec(vec![($key1.parse().unwrap(), $value1.parse().unwrap())]),
core::concat!($key1, "-", $value1),
);
writeable::assert_writeable_eq!(
&$type::from_tuple_vec(vec![
($key1.parse().unwrap(), $value1.parse().unwrap()),
($key2.parse().unwrap(), "true".parse().unwrap())
]),
core::concat!($key1, "-", $value1, "-", $expected2),
);
}
};
}
[ Dauer der Verarbeitung: 0.3 Sekunden
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2026-04-04
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