Crates.io | utf8conv |
lib.rs | utf8conv |
version | 0.1.0 |
source | src |
created_at | 2022-03-28 23:06:55.952897 |
updated_at | 2022-03-31 23:11:35.078385 |
description | A UTF8 / Unicode Converter for no_std |
homepage | |
repository | https://github.com/tttwang23/utf8conv |
max_upload_size | |
id | 558204 |
size | 158,634 |
Parser for reading and converting between UTF8 / UTF32 data without requiring heap memory, targeting no_std environments
Utf8conv can operate based on a single input buffer, or a series of input buffers. The outputs are produced one at a time, directly delivered to client caller with minimum latency.
Includes an adapter iterator to filter out Byte Order Mark at the beginning of a stream, and substituting carriage returns with newlines.
Utf8conv is dual licensed under the MIT License, and Apache 2.0 License.
Source Repository: link
Credits attribution of utf8conv is located in source directory doc/utf8conv-credits.md.
use utf8conv::*;
/// Single buffer iterator based UTF8 parsing converting to char
fn utf8_to_char_single_buffer_iterator() {
let mybuffer = "abc".as_bytes();
let mut utf8_ref_iter = mybuffer.iter();
let mut parser = FromUtf8::new();
let mut iterator = parser.utf8_ref_to_char_with_iter(& mut utf8_ref_iter);
while let Some(char_val) = iterator.next() {
println!("{}", char_val);
println!("{}", iterator.has_invalid_sequence());
}
}
/// Single buffer iterator based char parsing converting to UTF8
fn char_to_utf8_single_buffer_iterator() {
let mybuffer = [ '\u{7F}', '\u{80}', '\u{81}', '\u{82}' ];
let mut char_ref_iter = mybuffer.iter();
let mut parser = FromUnicode::new();
let mut iterator = parser.char_ref_to_utf8_with_iter(& mut char_ref_iter);
while let Some(utf8_val) = iterator.next() {
println!("{:#02x}", utf8_val);
println!("{}", iterator.has_invalid_sequence());
}
}
use utf8conv::*;
/// Multi-buffer iterator based UTF8 parsing converting to char
fn utf8_to_char_multi_buffer_iterator() {
let mybuffers = ["ab".as_bytes(), "".as_bytes(), "cde".as_bytes()];
let mut parser = FromUtf8::new();
for indx in 0 .. mybuffers.len() {
parser.set_is_last_buffer(indx == mybuffers.len() - 1);
let mut utf8_ref_iter = mybuffers[indx].iter();
let mut iterator = parser.utf8_ref_to_char_with_iter(& mut utf8_ref_iter);
while let Some(char_val) = iterator.next() {
println!("{}", char_val);
println!("{}", iterator.has_invalid_sequence());
}
}
}
/// Multi-buffer iterator based char parsing converting to UTF8
fn char_to_utf8_multi_buffer_iterator() {
let mybuffers = [[ '\u{7F}', '\u{80}' ] , [ '\u{81}', '\u{82}' ]];
let mut parser = FromUnicode::new();
for indx in 0 .. mybuffers.len() {
parser.set_is_last_buffer(indx == mybuffers.len() - 1);
let mut char_ref_iter = mybuffers[indx].iter();
let mut iterator = parser.char_ref_to_utf8_with_iter(& mut char_ref_iter);
while let Some(utf8_val) = iterator.next() {
println!("{:#02x}", utf8_val);
println!("{}", iterator.has_invalid_sequence());
}
}
}
use utf8conv::*;
/// Single-buffer slice reading based UTF8 parsing converting to char
fn utf8_to_char_single_buffer_slice_reading() {
let mybuffer = "Wxyz".as_bytes();
let mut parser = FromUtf8::new();
let mut cur_slice = mybuffer;
loop {
match parser.utf8_to_char(cur_slice) {
Result::Ok((slice_pos, char_val)) => {
cur_slice = slice_pos;
println!("{}", char_val);
println!("{}", parser.has_invalid_sequence());
}
Result::Err(MoreEnum::More(_amt)) => {
// _amt equals to 0 when end of data
break;
}
}
}
}
/// Single-buffer slice reading based UTF32 parsing converting to UTF8
fn utf32_to_utf8_single_buffer_slice_reading() {
let mybuffer = [0x7Fu32, 0x80u32, 0x81u32, 0x82u32];
let mut parser = FromUnicode::new();
let mut current_slice = & mybuffer[..];
loop {
match parser.utf32_to_utf8(current_slice) {
Result::Ok((slice_pos, utf8_val)) => {
current_slice = slice_pos;
println!("{:02x}", utf8_val);
println!("{}", parser.has_invalid_sequence());
}
Result::Err(MoreEnum::More(_amt)) => {
// _amt equals to 0 when end of data
break;
}
}
}
}
use utf8conv::*;
/// Multi-buffer slice reading based UTF8 parsing converting to char
fn utf8_to_char_multi_buffer_slice_reading() {
let mybuffers = ["Wx".as_bytes(), "".as_bytes(), "yz".as_bytes()];
let mut parser = FromUtf8::new();
for indx in 0 .. mybuffers.len() {
parser.set_is_last_buffer(indx == mybuffers.len() - 1);
let mut cur_slice = mybuffers[indx];
loop {
match parser.utf8_to_char(cur_slice) {
Result::Ok((slice_pos, char_val)) => {
cur_slice = slice_pos;
println!("{}", char_val);
println!("{}", parser.has_invalid_sequence());
}
Result::Err(MoreEnum::More(_amt)) => {
// _amt equals to 0 when end of data
break;
}
}
}
}
}
/// Multi-buffer slice reading based UTF32 parsing converting to UTF8
fn utf32_to_utf8_multi_buffer_slice_reading() {
let mybuffers = [[0x7Fu32, 0x80u32], [0x81u32, 0x82u32]];
let mut parser = FromUnicode::new();
for indx in 0 .. mybuffers.len() {
parser.set_is_last_buffer(indx == mybuffers.len() - 1);
let current_array = mybuffers[indx];
let mut current_slice = & current_array[..];
loop {
match parser.utf32_to_utf8(current_slice) {
Result::Ok((slice_pos, utf8_val)) => {
current_slice = slice_pos;
println!("{:02x}", utf8_val);
println!("{}", parser.has_invalid_sequence());
}
Result::Err(MoreEnum::More(_amt)) => {
// _amt equals to 0 when end of data
break;
}
}
}
}
}