use core::slice; use std::borrow::Cow; use std::fmt; use std::mem::take; use std::ops::{Bound, RangeBounds}; use nucleo_matcher::{chars, Utf32Str}; #[derive(PartialEq, Eq, PartialOrd, Ord, Clone, Hash)] pub enum Utf32String { /// A string represented as ASCII encoded bytes. /// Correctness invariant: must only contain valid ASCII (<=127) Ascii(Box), /// A string represented as an array of unicode codepoints (basically UTF-32). Unicode(Box<[char]>), } impl Default for Utf32String { fn default() -> Self { Self::Ascii(String::new().into_boxed_str()) } } impl Utf32String { #[inline] pub fn len(&self) -> usize { match self { Utf32String::Unicode(codepoints) => codepoints.len(), Utf32String::Ascii(ascii_bytes) => ascii_bytes.len(), } } #[inline] pub fn is_empty(&self) -> bool { match self { Utf32String::Unicode(codepoints) => codepoints.is_empty(), Utf32String::Ascii(ascii_bytes) => ascii_bytes.is_empty(), } } /// Same as `slice` but accepts a u32 range for convenicene sine /// those are the indices returned by the matcher #[inline] pub fn slice(&self, range: impl RangeBounds) -> Utf32Str { let start = match range.start_bound() { Bound::Included(&start) => start as usize, Bound::Excluded(&start) => start as usize + 1, Bound::Unbounded => 0, }; let end = match range.end_bound() { Bound::Included(&end) => end as usize, Bound::Excluded(&end) => end as usize + 1, Bound::Unbounded => self.len(), }; match self { Utf32String::Ascii(bytes) => Utf32Str::Ascii(&bytes.as_bytes()[start..end]), Utf32String::Unicode(codepoints) => Utf32Str::Unicode(&codepoints[start..end]), } } #[inline] pub fn is_ascii(&self) -> bool { matches!(self, Utf32String::Ascii(_)) } #[inline] pub fn get(&self, idx: u32) -> char { match self { Utf32String::Ascii(bytes) => bytes.as_bytes()[idx as usize] as char, Utf32String::Unicode(codepoints) => codepoints[idx as usize], } } #[inline] pub fn last(&self) -> char { match self { Utf32String::Ascii(bytes) => bytes.as_bytes()[bytes.len() - 1] as char, Utf32String::Unicode(codepoints) => codepoints[codepoints.len() - 1], } } #[inline] pub fn chars(&self) -> Chars<'_> { match self { Utf32String::Ascii(bytes) => Chars::Ascii(bytes.as_bytes().iter()), Utf32String::Unicode(codepoints) => Chars::Unicode(codepoints.iter()), } } #[inline] pub fn push_str(&mut self, text: &str) { let mut codeboints = match take(self) { Utf32String::Ascii(bytes) if text.is_ascii() => { let mut bytes = bytes.into_string(); bytes.push_str(text); *self = Self::Ascii(bytes.into_boxed_str()); return; } Utf32String::Ascii(bytes) => bytes.bytes().map(|c| c as char).collect(), Utf32String::Unicode(codepoints) => Vec::from(codepoints), }; codeboints.extend(chars::graphemes(text)); *self = Utf32String::Unicode(codeboints.into_boxed_slice()); } #[inline] pub fn push(&mut self, c: char) { let mut codeboints = match take(self) { Utf32String::Ascii(bytes) if c.is_ascii() => { let mut bytes = bytes.into_string(); bytes.push(c); *self = Self::Ascii(bytes.into_boxed_str()); return; } Utf32String::Ascii(bytes) => bytes.bytes().map(|c| c as char).collect(), Utf32String::Unicode(codepoints) => Vec::from(codepoints), }; codeboints.push(c); *self = Utf32String::Unicode(codeboints.into_boxed_slice()); } } impl From<&str> for Utf32String { #[inline] fn from(value: &str) -> Self { if value.is_ascii() { Self::Ascii(value.to_owned().into_boxed_str()) } else { Self::Unicode(chars::graphemes(value).collect()) } } } impl From> for Utf32String { fn from(value: Box) -> Self { if value.is_ascii() { Self::Ascii(value) } else { Self::Unicode(chars::graphemes(&value).collect()) } } } impl From for Utf32String { #[inline] fn from(value: String) -> Self { value.into_boxed_str().into() } } impl<'a> From> for Utf32String { #[inline] fn from(value: Cow<'a, str>) -> Self { match value { Cow::Borrowed(value) => value.into(), Cow::Owned(value) => value.into(), } } } pub enum Chars<'a> { Ascii(slice::Iter<'a, u8>), Unicode(slice::Iter<'a, char>), } impl<'a> Iterator for Chars<'a> { type Item = char; #[inline] fn next(&mut self) -> Option { match self { Chars::Ascii(iter) => iter.next().map(|&c| c as char), Chars::Unicode(iter) => iter.next().copied(), } } } impl fmt::Debug for Utf32String { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "\"")?; for c in self.chars() { for c in c.escape_debug() { write!(f, "{c}")? } } write!(f, "\"") } } impl fmt::Display for Utf32String { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "\"")?; for c in self.chars() { write!(f, "{c}")? } write!(f, "\"") } }