use crate::{
parsing::{lexer::Token, Token as PToken, TokenSource},
SyntaxKind::*,
TextRange, TextSize,
};
pub(crate) struct TextTokenSource<'t> {
text: &'t str,
start_offsets: Vec<TextSize>,
tokens: Vec<Token>,
curr: (PToken, usize),
}
impl<'t> TokenSource for TextTokenSource<'t> {
fn current(&self) -> PToken {
self.curr.0
}
fn lookahead_nth(&self, n: usize) -> PToken {
mk_token(self.curr.1 + n, &self.start_offsets, &self.tokens)
}
fn bump(&mut self) {
if self.curr.0.kind == EOF {
return;
}
let pos = self.curr.1 + 1;
self.curr = (mk_token(pos, &self.start_offsets, &self.tokens), pos);
}
fn is_keyword(&self, kw: &str) -> bool {
let pos = self.curr.1;
if pos >= self.tokens.len() {
return false;
}
let range = TextRange::at(self.start_offsets[pos], self.tokens[pos].len);
self.text[range] == *kw
}
}
fn mk_token(pos: usize, start_offsets: &[TextSize], tokens: &[Token]) -> PToken {
let kind = tokens.get(pos).map(|t| t.kind).unwrap_or(EOF);
let is_jointed_to_next = if pos + 1 < start_offsets.len() {
start_offsets[pos] + tokens[pos].len == start_offsets[pos + 1]
} else {
false
};
PToken {
kind,
is_jointed_to_next,
}
}
impl<'t> TextTokenSource<'t> {
pub fn new(text: &'t str, raw_tokens: &'t [Token]) -> TextTokenSource<'t> {
let mut tokens = Vec::new();
let mut start_offsets = Vec::new();
let mut len = 0.into();
for &token in raw_tokens.iter() {
if !token.kind.is_trivia() {
tokens.push(token);
start_offsets.push(len);
}
len += token.len;
}
let first = mk_token(0, &start_offsets, &tokens);
TextTokenSource {
text,
start_offsets,
tokens,
curr: (first, 0),
}
}
}