use crate::ascii;
use crate::num::NonZeroUsize;
use crate::ops::Range;
const HEX_DIGITS: [ascii::Char; 16] = *b"0123456789abcdef".as_ascii().unwrap();
pub(crate) fn escape_ascii_into(output: &mut [ascii::Char; 4], byte: u8) -> Range<u8> {
#[inline]
fn backslash(a: ascii::Char) -> ([ascii::Char; 4], u8) {
([ascii::Char::ReverseSolidus, a, ascii::Char::Null, ascii::Char::Null], 2)
}
let (data, len) = match byte {
b'\t' => backslash(ascii::Char::SmallT),
b'\r' => backslash(ascii::Char::SmallR),
b'\n' => backslash(ascii::Char::SmallN),
b'\\' => backslash(ascii::Char::ReverseSolidus),
b'\'' => backslash(ascii::Char::Apostrophe),
b'\"' => backslash(ascii::Char::QuotationMark),
_ => if let Some(a) = byte.as_ascii() && !byte.is_ascii_control() {
([a, ascii::Char::Null, ascii::Char::Null, ascii::Char::Null], 1)
} else {
let hi = HEX_DIGITS[usize::from(byte >> 4)];
let lo = HEX_DIGITS[usize::from(byte & 0xf)];
([ascii::Char::ReverseSolidus, ascii::Char::SmallX, hi, lo], 4)
}
};
*output = data;
0..len
}
pub(crate) fn escape_unicode_into(output: &mut [ascii::Char; 10], ch: char) -> Range<u8> {
output[9] = ascii::Char::RightCurlyBracket;
let ch = ch as u32;
output[3] = HEX_DIGITS[((ch >> 20) & 15) as usize];
output[4] = HEX_DIGITS[((ch >> 16) & 15) as usize];
output[5] = HEX_DIGITS[((ch >> 12) & 15) as usize];
output[6] = HEX_DIGITS[((ch >> 8) & 15) as usize];
output[7] = HEX_DIGITS[((ch >> 4) & 15) as usize];
output[8] = HEX_DIGITS[((ch >> 0) & 15) as usize];
let start = (ch | 1).leading_zeros() as usize / 4 - 2;
const UNICODE_ESCAPE_PREFIX: &[ascii::Char; 3] = b"\\u{".as_ascii().unwrap();
output[start..][..3].copy_from_slice(UNICODE_ESCAPE_PREFIX);
(start as u8)..10
}
#[derive(Clone, Debug)]
pub(crate) struct EscapeIterInner<const N: usize> {
pub(crate) data: [ascii::Char; N],
pub(crate) alive: Range<u8>,
}
impl<const N: usize> EscapeIterInner<N> {
pub fn new(data: [ascii::Char; N], alive: Range<u8>) -> Self {
const { assert!(N < 256) };
debug_assert!(alive.start <= alive.end && usize::from(alive.end) <= N, "{alive:?}");
Self { data, alive }
}
pub fn from_array<const M: usize>(array: [ascii::Char; M]) -> Self {
const { assert!(M <= N) };
let mut data = [ascii::Char::Null; N];
data[..M].copy_from_slice(&array);
Self::new(data, 0..M as u8)
}
pub fn as_ascii(&self) -> &[ascii::Char] {
&self.data[usize::from(self.alive.start)..usize::from(self.alive.end)]
}
pub fn as_str(&self) -> &str {
self.as_ascii().as_str()
}
pub fn len(&self) -> usize {
usize::from(self.alive.end - self.alive.start)
}
pub fn next(&mut self) -> Option<u8> {
self.alive.next().map(|i| self.data[usize::from(i)].as_u8())
}
pub fn next_back(&mut self) -> Option<u8> {
self.alive.next_back().map(|i| self.data[usize::from(i)].as_u8())
}
pub fn advance_by(&mut self, n: usize) -> Result<(), NonZeroUsize> {
self.alive.advance_by(n)
}
pub fn advance_back_by(&mut self, n: usize) -> Result<(), NonZeroUsize> {
self.alive.advance_back_by(n)
}
}