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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 ).
//! This module provides functionality for querying of sets of Unicode code points and strings.
//!
//! It depends on [`CodePointInversionList`] to efficiently represent Unicode code points, while
//! it also maintains a list of strings in the set.
//!
//! It is an implementation of the existing [ICU4C UnicodeSet API](https://unicode-org.github.io/icu-docs/apidoc/released/icu4c/classicu_1_1UnicodeSet.html).
use crate::codepointinvlist::{
CodePointInversionList, CodePointInversionListBuilder, CodePointInversionListULE,
};
use alloc::string::{String, ToString};
use alloc::vec::Vec;
use displaydoc::Display;
use yoke::Yokeable;
use zerofrom::ZeroFrom;
use zerovec::{VarZeroSlice, VarZeroVec};
/// A data structure providing a concrete implementation of a set of code points and strings,
/// using an inversion list for the code points.
///
/// This is what ICU4C calls a `UnicodeSet`.
#[zerovec::make_varule(CodePointInversionListAndStringListULE)]
#[zerovec::skip_derive(Ord)]
#[zerovec::derive(Debug)]
#[derive(Debug, Eq, PartialEq, Clone, Yokeable, ZeroFrom)]
// Valid to auto-derive Deserialize because the invariants are weakly held
#[cfg_attr(feature = "serde", derive(serde::Deserialize, serde::Serialize))]
#[cfg_attr(feature = "serde", zerovec::derive(Serialize, Deserialize, Debug))]
pub struct CodePointInversionListAndStringList<'data> {
#[cfg_attr(feature = "serde", serde(borrow))]
#[zerovec::varule(CodePointInversionListULE)]
cp_inv_list: CodePointInversionList<'data>,
// Invariants (weakly held):
// - no input string is length 1 (a length 1 string should be a single code point)
// - the string list is sorted
// - the elements in the string list are unique
#[cfg_attr(feature = "serde", serde(borrow))]
str_list: VarZeroVec<'data, str>,
}
#[cfg(feature = "databake")]
impl databake::Bake for CodePointInversionListAndStringList<'_> {
fn bake(&self, env: &databake::CrateEnv) -> databake::TokenStream {
env.insert("icu_collections");
let cp_inv_list = self.cp_inv_list.bake(env);
let str_list = self.str_list.bake(env);
// Safe because our parts are safe.
databake::quote! {
icu_collections::codepointinvliststringlist::CodePointInversionListAndStringList::from_parts_unchecked(#cp_inv_list, #str_list)
}
}
}
#[cfg(feature = "databake")]
impl databake::BakeSize for CodePointInversionListAndStringList<'_> {
fn borrows_size(&self) -> usize {
self.cp_inv_list.borrows_size() + self.str_list.borrows_size()
}
}
impl<'data> CodePointInversionListAndStringList<'data> {
/// Returns a new [`CodePointInversionListAndStringList`] from both a [`CodePointInversionList`] for the
/// code points and a [`VarZeroVec`]`<`[`str`]`>` of strings.
pub fn try_from(
cp_inv_list: CodePointInversionList<'data>,
str_list: VarZeroVec<'data, str>,
) -> Result<Self, InvalidStringList> {
// Verify invariants:
// Do so by using the equivalent of str_list.iter().windows(2) to get
// overlapping windows of size 2. The above putative code is not possible
// because `.windows()` exists on a slice, but VarZeroVec cannot return a slice
// because the non-fixed size elements necessitate at least some type
// of allocation.
{
let mut it = str_list.iter();
if let Some(mut x) = it.next() {
if x.len() == 1 {
return Err(InvalidStringList::InvalidStringLength(x.to_string()));
}
for y in it {
if x.len() == 1 {
return Err(InvalidStringList::InvalidStringLength(x.to_string()));
} else if x == y {
return Err(InvalidStringList::StringListNotUnique(x.to_string()));
} else if x > y {
return Err(InvalidStringList::StringListNotSorted(
x.to_string(),
y.to_string(),
));
}
// Next window begins. Update `x` here, `y` will be updated in next loop iteration.
x = y;
}
}
}
Ok(CodePointInversionListAndStringList {
cp_inv_list,
str_list,
})
}
#[doc(hidden)] // databake internal
pub const fn from_parts_unchecked(
cp_inv_list: CodePointInversionList<'data>,
str_list: VarZeroVec<'data, str>,
) -> Self {
CodePointInversionListAndStringList {
cp_inv_list,
str_list,
}
}
/// Returns the number of elements in this set (its cardinality).
/// Note than the elements of a set may include both individual
/// codepoints and strings.
pub fn size(&self) -> usize {
self.cp_inv_list.size() + self.str_list.len()
}
/// Return true if this set contains multi-code point strings or the empty string.
pub fn has_strings(&self) -> bool {
!self.str_list.is_empty()
}
///
/// # Examples
/// ```
/// use icu::collections::codepointinvlist::CodePointInversionList;
/// use icu::collections::codepointinvliststringlist::CodePointInversionListAndStringList;
/// use zerovec::VarZeroVec;
///
/// let cp_slice = &[0, 0x1_0000, 0x10_FFFF, 0x11_0000];
/// let cp_list =
/// CodePointInversionList::try_from_u32_inversion_list_slice(cp_slice).unwrap();
/// let str_slice = &["", "bmp_max", "unicode_max", "zero"];
/// let str_list = VarZeroVec::<str>::from(str_slice);
///
/// let cpilsl = CodePointInversionListAndStringList::try_from(cp_list, str_list).unwrap();
///
/// assert!(cpilsl.contains_str("bmp_max"));
/// assert!(cpilsl.contains_str(""));
/// assert!(cpilsl.contains_str("A"));
/// assert!(cpilsl.contains_str("ቔ")); // U+1254 ETHIOPIC SYLLABLE QHEE
/// assert!(!cpilsl.contains_str("bazinga!"));
/// ```
pub fn contains_str(&self, s: &str) -> bool {
let mut chars = s.chars();
if let Some(first_char) = chars.next() {
if chars.next().is_none() {
return self.contains(first_char);
}
}
self.str_list.binary_search(s).is_ok()
}
///
/// # Examples
/// ```
/// use icu::collections::codepointinvlist::CodePointInversionList;
/// use icu::collections::codepointinvliststringlist::CodePointInversionListAndStringList;
/// use zerovec::VarZeroVec;
///
/// let cp_slice = &[0, 0x80, 0xFFFF, 0x1_0000, 0x10_FFFF, 0x11_0000];
/// let cp_list =
/// CodePointInversionList::try_from_u32_inversion_list_slice(cp_slice).unwrap();
/// let str_slice = &["", "ascii_max", "bmp_max", "unicode_max", "zero"];
/// let str_list = VarZeroVec::<str>::from(str_slice);
///
/// let cpilsl = CodePointInversionListAndStringList::try_from(cp_list, str_list).unwrap();
///
/// assert!(cpilsl.contains32(0));
/// assert!(cpilsl.contains32(0x0042));
/// assert!(!cpilsl.contains32(0x0080));
/// ```
pub fn contains32(&self, cp: u32) -> bool {
self.cp_inv_list.contains32(cp)
}
///
/// # Examples
/// ```
/// use icu::collections::codepointinvlist::CodePointInversionList;
/// use icu::collections::codepointinvliststringlist::CodePointInversionListAndStringList;
/// use zerovec::VarZeroVec;
///
/// let cp_slice = &[0, 0x1_0000, 0x10_FFFF, 0x11_0000];
/// let cp_list =
/// CodePointInversionList::try_from_u32_inversion_list_slice(cp_slice).unwrap();
/// let str_slice = &["", "bmp_max", "unicode_max", "zero"];
/// let str_list = VarZeroVec::<str>::from(str_slice);
///
/// let cpilsl = CodePointInversionListAndStringList::try_from(cp_list, str_list).unwrap();
///
/// assert!(cpilsl.contains('A'));
/// assert!(cpilsl.contains('ቔ')); // U+1254 ETHIOPIC SYLLABLE QHEE
/// assert!(!cpilsl.contains('\u{1_0000}'));
/// assert!(!cpilsl.contains('🨫')); // U+1FA2B NEUTRAL CHESS TURNED QUEEN
pub fn contains(&self, ch: char) -> bool {
self.contains32(ch as u32)
}
/// Access the underlying [`CodePointInversionList`].
pub fn code_points(&self) -> &CodePointInversionList<'data> {
&self.cp_inv_list
}
/// Access the contained strings.
pub fn strings(&self) -> &VarZeroSlice<str> {
&self.str_list
}
}
impl<'a> FromIterator<&'a str> for CodePointInversionListAndStringList<'_> {
fn from_iter<I>(it: I) -> Self
where
I: IntoIterator<Item = &'a str>,
{
let mut builder = CodePointInversionListBuilder::new();
let mut strings = Vec::<&str>::new();
for s in it {
let mut chars = s.chars();
if let Some(first_char) = chars.next() {
if chars.next().is_none() {
builder.add_char(first_char);
continue;
}
}
strings.push(s);
}
// Ensure that the string list is sorted. If not, the binary search that
// is used for `.contains(&str)` will return garbage output.
strings.sort_unstable();
strings.dedup();
let cp_inv_list = builder.build();
let str_list = VarZeroVec::<str>::from(&strings);
CodePointInversionListAndStringList {
cp_inv_list,
str_list,
}
}
}
/// Custom Errors for [`CodePointInversionListAndStringList`].
#[derive(Display, Debug)]
pub enum InvalidStringList {
/// A string in the string list had an invalid length
#[displaydoc("Invalid string length for string: {0}")]
InvalidStringLength(String),
/// A string in the string list appears more than once
#[displaydoc("String list has duplicate: {0}")]
StringListNotUnique(String),
/// Two strings in the string list compare to each other opposite of sorted order
#[displaydoc("Strings in string list not in sorted order: ({0}, {1})")]
StringListNotSorted(String, String),
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_size_has_strings() {
let cp_slice = &[0, 1, 0x7F, 0x80, 0xFFFF, 0x1_0000, 0x10_FFFF, 0x11_0000];
let cp_list = CodePointInversionList::try_from_u32_inversion_list_slice(cp_slice).unwrap();
let str_slice = &["ascii_max", "bmp_max", "unicode_max", "zero"];
let str_list = VarZeroVec::<str>::from(str_slice);
let cpilsl = CodePointInversionListAndStringList::try_from(cp_list, str_list).unwrap();
assert!(cpilsl.has_strings());
assert_eq!(8, cpilsl.size());
}
#[test]
fn test_empty_string_allowed() {
let cp_slice = &[0, 1, 0x7F, 0x80, 0xFFFF, 0x1_0000, 0x10_FFFF, 0x11_0000];
let cp_list = CodePointInversionList::try_from_u32_inversion_list_slice(cp_slice).unwrap();
let str_slice = &["", "ascii_max", "bmp_max", "unicode_max", "zero"];
let str_list = VarZeroVec::<str>::from(str_slice);
let cpilsl = CodePointInversionListAndStringList::try_from(cp_list, str_list).unwrap();
assert!(cpilsl.has_strings());
assert_eq!(9, cpilsl.size());
}
#[test]
fn test_invalid_string() {
let cp_slice = &[0, 1];
let cp_list = CodePointInversionList::try_from_u32_inversion_list_slice(cp_slice).unwrap();
let str_slice = &["a"];
let str_list = VarZeroVec::<str>::from(str_slice);
let cpilsl = CodePointInversionListAndStringList::try_from(cp_list, str_list);
assert!(matches!(
cpilsl,
Err(InvalidStringList::InvalidStringLength(_))
));
}
#[test]
fn test_invalid_string_list_has_duplicate() {
let cp_slice = &[0, 1];
let cp_list = CodePointInversionList::try_from_u32_inversion_list_slice(cp_slice).unwrap();
let str_slice = &["abc", "abc"];
let str_list = VarZeroVec::<str>::from(str_slice);
let cpilsl = CodePointInversionListAndStringList::try_from(cp_list, str_list);
assert!(matches!(
cpilsl,
Err(InvalidStringList::StringListNotUnique(_))
));
}
#[test]
fn test_invalid_string_list_not_sorted() {
let cp_slice = &[0, 1];
let cp_list = CodePointInversionList::try_from_u32_inversion_list_slice(cp_slice).unwrap();
let str_slice = &["xyz", "abc"];
let str_list = VarZeroVec::<str>::from(str_slice);
let cpilsl = CodePointInversionListAndStringList::try_from(cp_list, str_list);
assert!(matches!(
cpilsl,
Err(InvalidStringList::StringListNotSorted(_, _))
));
}
#[test]
fn test_from_iter_invariants() {
let in_strs_1 = ["a", "abc", "xyz", "abc"];
let in_strs_2 = ["xyz", "abc", "a", "abc"];
let cpilsl_1 = CodePointInversionListAndStringList::from_iter(in_strs_1);
let cpilsl_2 = CodePointInversionListAndStringList::from_iter(in_strs_2);
assert_eq!(cpilsl_1, cpilsl_2);
assert!(cpilsl_1.has_strings());
assert!(cpilsl_1.contains_str("abc"));
assert!(cpilsl_1.contains_str("xyz"));
assert!(!cpilsl_1.contains_str("def"));
assert_eq!(1, cpilsl_1.cp_inv_list.size());
assert!(cpilsl_1.contains('a'));
assert!(!cpilsl_1.contains('0'));
assert!(!cpilsl_1.contains('q'));
assert_eq!(3, cpilsl_1.size());
}
}