use crate::fallback::LexError;
use std::str::{Bytes, CharIndices, Chars};
use unicode_xid::UnicodeXID;
#[derive(Copy, Clone, Eq, PartialEq)]
pub struct Cursor<'a> {
pub rest: &'a str,
#[cfg(span_locations)]
pub off: u32,
}
impl<'a> Cursor<'a> {
#[cfg(not(span_locations))]
pub fn advance(&self, amt: usize) -> Cursor<'a> {
Cursor {
rest: &self.rest[amt..],
}
}
#[cfg(span_locations)]
pub fn advance(&self, amt: usize) -> Cursor<'a> {
Cursor {
rest: &self.rest[amt..],
off: self.off + (amt as u32),
}
}
pub fn find(&self, p: char) -> Option<usize> {
self.rest.find(p)
}
pub fn starts_with(&self, s: &str) -> bool {
self.rest.starts_with(s)
}
pub fn is_empty(&self) -> bool {
self.rest.is_empty()
}
pub fn len(&self) -> usize {
self.rest.len()
}
pub fn as_bytes(&self) -> &'a [u8] {
self.rest.as_bytes()
}
pub fn bytes(&self) -> Bytes<'a> {
self.rest.bytes()
}
pub fn chars(&self) -> Chars<'a> {
self.rest.chars()
}
pub fn char_indices(&self) -> CharIndices<'a> {
self.rest.char_indices()
}
}
pub type PResult<'a, O> = Result<(Cursor<'a>, O), LexError>;
pub fn whitespace(input: Cursor) -> PResult<()> {
if input.is_empty() {
return Err(LexError);
}
let bytes = input.as_bytes();
let mut i = 0;
while i < bytes.len() {
let s = input.advance(i);
if bytes[i] == b'/' {
if s.starts_with("//")
&& (!s.starts_with("///") || s.starts_with("////"))
&& !s.starts_with("//!")
{
if let Some(len) = s.find('\n') {
i += len + 1;
continue;
}
break;
} else if s.starts_with("/**/") {
i += 4;
continue;
} else if s.starts_with("/*")
&& (!s.starts_with("/**") || s.starts_with("/***"))
&& !s.starts_with("/*!")
{
let (_, com) = block_comment(s)?;
i += com.len();
continue;
}
}
match bytes[i] {
b' ' | 0x09..=0x0d => {
i += 1;
continue;
}
b if b <= 0x7f => {}
_ => {
let ch = s.chars().next().unwrap();
if is_whitespace(ch) {
i += ch.len_utf8();
continue;
}
}
}
return if i > 0 { Ok((s, ())) } else { Err(LexError) };
}
Ok((input.advance(input.len()), ()))
}
pub fn block_comment(input: Cursor) -> PResult<&str> {
if !input.starts_with("/*") {
return Err(LexError);
}
let mut depth = 0;
let bytes = input.as_bytes();
let mut i = 0;
let upper = bytes.len() - 1;
while i < upper {
if bytes[i] == b'/' && bytes[i + 1] == b'*' {
depth += 1;
i += 1;
} else if bytes[i] == b'*' && bytes[i + 1] == b'/' {
depth -= 1;
if depth == 0 {
return Ok((input.advance(i + 2), &input.rest[..i + 2]));
}
i += 1;
}
i += 1;
}
Err(LexError)
}
pub fn skip_whitespace(input: Cursor) -> Cursor {
match whitespace(input) {
Ok((rest, _)) => rest,
Err(LexError) => input,
}
}
fn is_whitespace(ch: char) -> bool {
ch.is_whitespace() || ch == '\u{200e}' || ch == '\u{200f}'
}
pub fn word_break(input: Cursor) -> PResult<()> {
match input.chars().next() {
Some(ch) if UnicodeXID::is_xid_continue(ch) => Err(LexError),
Some(_) | None => Ok((input, ())),
}
}
macro_rules! named {
($name:ident -> $o:ty, $submac:ident!( $($args:tt)* )) => {
fn $name<'a>(i: Cursor<'a>) -> $crate::strnom::PResult<'a, $o> {
$submac!(i, $($args)*)
}
};
}
macro_rules! alt {
($i:expr, $e:ident | $($rest:tt)*) => {
alt!($i, call!($e) | $($rest)*)
};
($i:expr, $subrule:ident!( $($args:tt)*) | $($rest:tt)*) => {
match $subrule!($i, $($args)*) {
res @ Ok(_) => res,
_ => alt!($i, $($rest)*)
}
};
($i:expr, $subrule:ident!( $($args:tt)* ) => { $gen:expr } | $($rest:tt)+) => {
match $subrule!($i, $($args)*) {
Ok((i, o)) => Ok((i, $gen(o))),
Err(LexError) => alt!($i, $($rest)*)
}
};
($i:expr, $e:ident => { $gen:expr } | $($rest:tt)*) => {
alt!($i, call!($e) => { $gen } | $($rest)*)
};
($i:expr, $e:ident => { $gen:expr }) => {
alt!($i, call!($e) => { $gen })
};
($i:expr, $subrule:ident!( $($args:tt)* ) => { $gen:expr }) => {
match $subrule!($i, $($args)*) {
Ok((i, o)) => Ok((i, $gen(o))),
Err(LexError) => Err(LexError),
}
};
($i:expr, $e:ident) => {
alt!($i, call!($e))
};
($i:expr, $subrule:ident!( $($args:tt)*)) => {
$subrule!($i, $($args)*)
};
}
macro_rules! do_parse {
($i:expr, ( $($rest:expr),* )) => {
Ok(($i, ( $($rest),* )))
};
($i:expr, $e:ident >> $($rest:tt)*) => {
do_parse!($i, call!($e) >> $($rest)*)
};
($i:expr, $submac:ident!( $($args:tt)* ) >> $($rest:tt)*) => {
match $submac!($i, $($args)*) {
Err(LexError) => Err(LexError),
Ok((i, _)) => do_parse!(i, $($rest)*),
}
};
($i:expr, $field:ident : $e:ident >> $($rest:tt)*) => {
do_parse!($i, $field: call!($e) >> $($rest)*)
};
($i:expr, $field:ident : $submac:ident!( $($args:tt)* ) >> $($rest:tt)*) => {
match $submac!($i, $($args)*) {
Err(LexError) => Err(LexError),
Ok((i, o)) => {
let $field = o;
do_parse!(i, $($rest)*)
},
}
};
}
macro_rules! peek {
($i:expr, $submac:ident!( $($args:tt)* )) => {
match $submac!($i, $($args)*) {
Ok((_, o)) => Ok(($i, o)),
Err(LexError) => Err(LexError),
}
};
}
macro_rules! call {
($i:expr, $fun:expr $(, $args:expr)*) => {
$fun($i $(, $args)*)
};
}
macro_rules! option {
($i:expr, $f:expr) => {
match $f($i) {
Ok((i, o)) => Ok((i, Some(o))),
Err(LexError) => Ok(($i, None)),
}
};
}
macro_rules! take_until_newline_or_eof {
($i:expr,) => {{
if $i.len() == 0 {
Ok(($i, ""))
} else {
match $i.find('\n') {
Some(i) => Ok(($i.advance(i), &$i.rest[..i])),
None => Ok(($i.advance($i.len()), &$i.rest[..$i.len()])),
}
}
}};
}
macro_rules! tuple {
($i:expr, $($rest:tt)*) => {
tuple_parser!($i, (), $($rest)*)
};
}
macro_rules! tuple_parser {
($i:expr, ($($parsed:tt),*), $e:ident, $($rest:tt)*) => {
tuple_parser!($i, ($($parsed),*), call!($e), $($rest)*)
};
($i:expr, (), $submac:ident!( $($args:tt)* ), $($rest:tt)*) => {
match $submac!($i, $($args)*) {
Err(LexError) => Err(LexError),
Ok((i, o)) => tuple_parser!(i, (o), $($rest)*),
}
};
($i:expr, ($($parsed:tt)*), $submac:ident!( $($args:tt)* ), $($rest:tt)*) => {
match $submac!($i, $($args)*) {
Err(LexError) => Err(LexError),
Ok((i, o)) => tuple_parser!(i, ($($parsed)* , o), $($rest)*),
}
};
($i:expr, ($($parsed:tt),*), $e:ident) => {
tuple_parser!($i, ($($parsed),*), call!($e))
};
($i:expr, (), $submac:ident!( $($args:tt)* )) => {
$submac!($i, $($args)*)
};
($i:expr, ($($parsed:expr),*), $submac:ident!( $($args:tt)* )) => {
match $submac!($i, $($args)*) {
Err(LexError) => Err(LexError),
Ok((i, o)) => Ok((i, ($($parsed),*, o)))
}
};
($i:expr, ($($parsed:expr),*)) => {
Ok(($i, ($($parsed),*)))
};
}
macro_rules! not {
($i:expr, $submac:ident!( $($args:tt)* )) => {
match $submac!($i, $($args)*) {
Ok((_, _)) => Err(LexError),
Err(LexError) => Ok(($i, ())),
}
};
}
macro_rules! tag {
($i:expr, $tag:expr) => {
if $i.starts_with($tag) {
Ok(($i.advance($tag.len()), &$i.rest[..$tag.len()]))
} else {
Err(LexError)
}
};
}
macro_rules! punct {
($i:expr, $punct:expr) => {
$crate::strnom::punct($i, $punct)
};
}
pub fn punct<'a>(input: Cursor<'a>, token: &'static str) -> PResult<'a, &'a str> {
let input = skip_whitespace(input);
if input.starts_with(token) {
Ok((input.advance(token.len()), token))
} else {
Err(LexError)
}
}
macro_rules! preceded {
($i:expr, $submac:ident!( $($args:tt)* ), $submac2:ident!( $($args2:tt)* )) => {
match tuple!($i, $submac!($($args)*), $submac2!($($args2)*)) {
Ok((remaining, (_, o))) => Ok((remaining, o)),
Err(LexError) => Err(LexError),
}
};
($i:expr, $submac:ident!( $($args:tt)* ), $g:expr) => {
preceded!($i, $submac!($($args)*), call!($g))
};
}
macro_rules! delimited {
($i:expr, $submac:ident!( $($args:tt)* ), $($rest:tt)+) => {
match tuple_parser!($i, (), $submac!($($args)*), $($rest)*) {
Err(LexError) => Err(LexError),
Ok((i1, (_, o, _))) => Ok((i1, o))
}
};
}
macro_rules! map {
($i:expr, $submac:ident!( $($args:tt)* ), $g:expr) => {
match $submac!($i, $($args)*) {
Err(LexError) => Err(LexError),
Ok((i, o)) => Ok((i, call!(o, $g)))
}
};
($i:expr, $f:expr, $g:expr) => {
map!($i, call!($f), $g)
};
}