use crate::fmt; use crate::fmt::Formatter; use crate::fmt::Write; use crate::iter::FusedIterator; use super::from_utf8_unchecked; use super::validations::utf8_char_width; /// An item returned by the [`Utf8Chunks`] iterator. /// /// A `Utf8Chunk` stores a sequence of [`u8`] up to the first broken character /// when decoding a UTF-8 string. /// /// # Examples /// /// ``` /// #![feature(utf8_chunks)] /// /// use std::str::Utf8Chunks; /// /// // An invalid UTF-8 string /// let bytes = b"foo\xF1\x80bar"; /// /// // Decode the first `Utf8Chunk` /// let chunk = Utf8Chunks::new(bytes).next().unwrap(); /// /// // The first three characters are valid UTF-8 /// assert_eq!("foo", chunk.valid()); /// /// // The fourth character is broken /// assert_eq!(b"\xF1\x80", chunk.invalid()); /// ``` #[unstable(feature = "utf8_chunks", issue = "99543")] #[derive(Clone, Debug, PartialEq, Eq)] pub struct Utf8Chunk<'a> { valid: &'a str, invalid: &'a [u8], } impl<'a> Utf8Chunk<'a> { /// Returns the next validated UTF-8 substring. /// /// This substring can be empty at the start of the string or between /// broken UTF-8 characters. #[must_use] #[unstable(feature = "utf8_chunks", issue = "99543")] pub fn valid(&self) -> &'a str { self.valid } /// Returns the invalid sequence that caused a failure. /// /// The returned slice will have a maximum length of 3 and starts after the /// substring given by [`valid`]. Decoding will resume after this sequence. /// /// If empty, this is the last chunk in the string. If non-empty, an /// unexpected byte was encountered or the end of the input was reached /// unexpectedly. /// /// Lossy decoding would replace this sequence with [`U+FFFD REPLACEMENT /// CHARACTER`]. /// /// [`valid`]: Self::valid /// [`U+FFFD REPLACEMENT CHARACTER`]: crate::char::REPLACEMENT_CHARACTER #[must_use] #[unstable(feature = "utf8_chunks", issue = "99543")] pub fn invalid(&self) -> &'a [u8] { self.invalid } } #[must_use] #[unstable(feature = "str_internals", issue = "none")] pub struct Debug<'a>(&'a [u8]); #[unstable(feature = "str_internals", issue = "none")] impl fmt::Debug for Debug<'_> { fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result { f.write_char('"')?; for chunk in Utf8Chunks::new(self.0) { // Valid part. // Here we partially parse UTF-8 again which is suboptimal. { let valid = chunk.valid(); let mut from = 0; for (i, c) in valid.char_indices() { let esc = c.escape_debug(); // If char needs escaping, flush backlog so far and write, else skip if esc.len() != 1 { f.write_str(&valid[from..i])?; for c in esc { f.write_char(c)?; } from = i + c.len_utf8(); } } f.write_str(&valid[from..])?; } // Broken parts of string as hex escape. for &b in chunk.invalid() { write!(f, "\\x{:02X}", b)?; } } f.write_char('"') } } /// An iterator used to decode a slice of mostly UTF-8 bytes to string slices /// ([`&str`]) and byte slices ([`&[u8]`][byteslice]). /// /// If you want a simple conversion from UTF-8 byte slices to string slices, /// [`from_utf8`] is easier to use. /// /// [byteslice]: slice /// [`from_utf8`]: super::from_utf8 /// /// # Examples /// /// This can be used to create functionality similar to /// [`String::from_utf8_lossy`] without allocating heap memory: /// /// ``` /// #![feature(utf8_chunks)] /// /// use std::str::Utf8Chunks; /// /// fn from_utf8_lossy(input: &[u8], mut push: F) where F: FnMut(&str) { /// for chunk in Utf8Chunks::new(input) { /// push(chunk.valid()); /// /// if !chunk.invalid().is_empty() { /// push("\u{FFFD}"); /// } /// } /// } /// ``` /// /// [`String::from_utf8_lossy`]: ../../std/string/struct.String.html#method.from_utf8_lossy #[must_use = "iterators are lazy and do nothing unless consumed"] #[unstable(feature = "utf8_chunks", issue = "99543")] #[derive(Clone)] pub struct Utf8Chunks<'a> { source: &'a [u8], } impl<'a> Utf8Chunks<'a> { /// Creates a new iterator to decode the bytes. #[unstable(feature = "utf8_chunks", issue = "99543")] pub fn new(bytes: &'a [u8]) -> Self { Self { source: bytes } } #[doc(hidden)] #[unstable(feature = "str_internals", issue = "none")] pub fn debug(&self) -> Debug<'_> { Debug(self.source) } } #[unstable(feature = "utf8_chunks", issue = "99543")] impl<'a> Iterator for Utf8Chunks<'a> { type Item = Utf8Chunk<'a>; fn next(&mut self) -> Option> { if self.source.is_empty() { return None; } const TAG_CONT_U8: u8 = 128; fn safe_get(xs: &[u8], i: usize) -> u8 { *xs.get(i).unwrap_or(&0) } let mut i = 0; let mut valid_up_to = 0; while i < self.source.len() { // SAFETY: `i < self.source.len()` per previous line. // For some reason the following are both significantly slower: // while let Some(&byte) = self.source.get(i) { // while let Some(byte) = self.source.get(i).copied() { let byte = unsafe { *self.source.get_unchecked(i) }; i += 1; if byte < 128 { // This could be a `1 => ...` case in the match below, but for // the common case of all-ASCII inputs, we bypass loading the // sizeable UTF8_CHAR_WIDTH table into cache. } else { let w = utf8_char_width(byte); match w { 2 => { if safe_get(self.source, i) & 192 != TAG_CONT_U8 { break; } i += 1; } 3 => { match (byte, safe_get(self.source, i)) { (0xE0, 0xA0..=0xBF) => (), (0xE1..=0xEC, 0x80..=0xBF) => (), (0xED, 0x80..=0x9F) => (), (0xEE..=0xEF, 0x80..=0xBF) => (), _ => break, } i += 1; if safe_get(self.source, i) & 192 != TAG_CONT_U8 { break; } i += 1; } 4 => { match (byte, safe_get(self.source, i)) { (0xF0, 0x90..=0xBF) => (), (0xF1..=0xF3, 0x80..=0xBF) => (), (0xF4, 0x80..=0x8F) => (), _ => break, } i += 1; if safe_get(self.source, i) & 192 != TAG_CONT_U8 { break; } i += 1; if safe_get(self.source, i) & 192 != TAG_CONT_U8 { break; } i += 1; } _ => break, } } valid_up_to = i; } // SAFETY: `i <= self.source.len()` because it is only ever incremented // via `i += 1` and in between every single one of those increments, `i` // is compared against `self.source.len()`. That happens either // literally by `i < self.source.len()` in the while-loop's condition, // or indirectly by `safe_get(self.source, i) & 192 != TAG_CONT_U8`. The // loop is terminated as soon as the latest `i += 1` has made `i` no // longer less than `self.source.len()`, which means it'll be at most // equal to `self.source.len()`. let (inspected, remaining) = unsafe { self.source.split_at_unchecked(i) }; self.source = remaining; // SAFETY: `valid_up_to <= i` because it is only ever assigned via // `valid_up_to = i` and `i` only increases. let (valid, invalid) = unsafe { inspected.split_at_unchecked(valid_up_to) }; Some(Utf8Chunk { // SAFETY: All bytes up to `valid_up_to` are valid UTF-8. valid: unsafe { from_utf8_unchecked(valid) }, invalid, }) } } #[unstable(feature = "utf8_chunks", issue = "99543")] impl FusedIterator for Utf8Chunks<'_> {} #[unstable(feature = "utf8_chunks", issue = "99543")] impl fmt::Debug for Utf8Chunks<'_> { fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result { f.debug_struct("Utf8Chunks").field("source", &self.debug()).finish() } }