Crates.io | rustf8 |
lib.rs | rustf8 |
version | 0.9.1 |
source | src |
created_at | 2020-10-15 17:45:46.184919 |
updated_at | 2020-10-15 17:45:46.184919 |
description | An iterator to decode a single UTF-8 character from an I/O stream. |
homepage | https://github.com/lmalheiro/rustf8 |
repository | https://github.com/lmalheiro/rustf8.git |
max_upload_size | |
id | 300089 |
size | 68,954 |
A Utf8Iterator
wraps a UTF-8 decoder around an iterator for Read
.
Essentially, the Utf8Iterator
converts a u8
iterator into a char
iterator. The underling iterator can be an
iterator for a BufRead
or a Cursor
, for example.
It is meant to iterate around an I/O. Therefore, it is expecting the inner iterator to be of type Iterator<Item = Result<u8, std::io::Error>>
.
The next()
method will return an Option
, where None
indicates the end of the sequence and a value
will be of type Result
containing a char
or an error, which will describe an UTF-8 decoding error or an IO error from the underling iterator.
Decoding errors will contain the malformed sequences.
I wrote this crate as part of a learning project, not because there weren't alternatives or to write something better. There are already Rust crates to decode UTF-8. This crate may only make some sense if your hardware is so low in memory that would pay off to decode directly from the IO buffer and you really need to decode a single character at a time.
use rustf8::*;
use std::io::prelude::*;
use std::io::Cursor;
fn some_correct_utf_8_text() {
let input: Vec<u8> = vec![
0xce, 0xba, 0xe1, 0xbd, 0xb9, 0xcf, 0x83, 0xce, 0xbc, 0xce, 0xb5,
];
let stream = Cursor::new(input);
let iter = stream.bytes();
let mut chiter = Utf8Iterator::new(iter);
assert_eq!('κ', chiter.next().unwrap().unwrap());
assert_eq!('ό', chiter.next().unwrap().unwrap());
assert_eq!('σ', chiter.next().unwrap().unwrap());
assert_eq!('μ', chiter.next().unwrap().unwrap());
assert_eq!('ε', chiter.next().unwrap().unwrap());
assert!(chiter.next().is_none());
}
fn next_token(
chiter: &mut Utf8Iterator<Bytes<Cursor<&str>>>,
state: &mut (State, Token),
) -> Option<Token> {
loop {
let r = chiter.next();
match r {
Some(item) => match item {
Ok(ch) => {
*state = state_machine(chiter, ch, &state);
if let State::FinishedToken = state.0 {
return Some(state.1.clone());
}
}
Err(e) => match e {
InvalidSequenceError(bytes) => {
panic!("Detected an invalid UTF-8 sequence! {:?}", bytes)
}
LongSequenceError(bytes) => {
panic!("UTF-8 sequence with more tha 4 bytes! {:?}", bytes)
}
InvalidCharError(bytes) => panic!(
"UTF-8 sequence resulted in an invalid character! {:?}",
bytes
),
IoError(ioe, bytes) => panic!(
"I/O error {:?} while decoding de sequence {:?} !",
ioe, bytes
),
},
},
None => {
if let State::Finalized = state.0 {
return None;
} else {
state.0 = State::Finalized;
return Some(state.1.clone());
}
}
}
}
};
The Utf8Iterator
will identify UTF-8 decoding errors returning the enum Utf8IteratorError
.
The error will also contain a Box<u8>
with the malformed sequence.
Subsequent calls to next()
are allowed and will decode valid characters from the point beyond the malformed sequence.
The IO error std::io::ErrorKind::Interrupted
coming from the underling iterator will be transparently consumed by the next()
method.
Therefore there will be no need to treat such error.
Panics if trying to use unget()
twice before calling next()
.
This crate does not use unsafe {}
.
Once decoded, the values are converted using char::from_u32()
, which should prevent invalid characters anyway.