mirror of
https://github.com/rust-lang/rust-analyzer
synced 2024-12-26 13:03:31 +00:00
internal: move ws attachment logic to the parser crate
This has to re-introduce the `sink` pattern, because doing this purely with iterators is awkward :( Maaaybe the event vector was a false start? But, anyway, I like the current factoring more -- it sort-of obvious that we do want to keep ws-attachment business in the parser, and that we also don't want that to depend on the particular tree structure. I think `shortcuts` module achieves that.
This commit is contained in:
parent
c456b217d8
commit
f4cb0ff9be
6 changed files with 255 additions and 221 deletions
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@ -122,31 +122,6 @@ impl<'a> LexedStr<'a> {
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self.error.iter().map(|it| (it.token as usize, it.msg.as_str()))
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}
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pub fn to_input(&self) -> crate::Input {
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let mut res = crate::Input::default();
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let mut was_joint = false;
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for i in 0..self.len() {
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let kind = self.kind(i);
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if kind.is_trivia() {
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was_joint = false
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} else {
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if kind == SyntaxKind::IDENT {
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let token_text = self.text(i);
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let contextual_kw = SyntaxKind::from_contextual_keyword(token_text)
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.unwrap_or(SyntaxKind::IDENT);
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res.push_ident(contextual_kw);
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} else {
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if was_joint {
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res.was_joint();
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}
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res.push(kind);
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}
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was_joint = true;
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}
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}
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res
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}
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fn push(&mut self, kind: SyntaxKind, offset: usize) {
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self.kind.push(kind);
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self.start.push(offset as u32);
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@ -26,6 +26,7 @@ mod parser;
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mod grammar;
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mod input;
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mod output;
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mod shortcuts;
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#[cfg(test)]
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mod tests;
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@ -36,6 +37,7 @@ pub use crate::{
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input::Input,
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lexed_str::LexedStr,
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output::{Output, Step},
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shortcuts::StrStep,
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syntax_kind::SyntaxKind,
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};
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220
crates/parser/src/shortcuts.rs
Normal file
220
crates/parser/src/shortcuts.rs
Normal file
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@ -0,0 +1,220 @@
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//! Shortcuts that span lexer/parser abstraction.
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//!
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//! The way Rust works, parser doesn't necessary parse text, and you might
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//! tokenize text without parsing it further. So, it makes sense to keep
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//! abstract token parsing, and string tokenization as completely separate
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//! layers.
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//!
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//! However, often you do pares text into syntax trees and the glue code for
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//! that needs to live somewhere. Rather than putting it to lexer or parser, we
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//! use a separate shortcuts module for that.
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use std::mem;
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use crate::{
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LexedStr, Step,
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SyntaxKind::{self, *},
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};
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pub enum StrStep<'a> {
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Token { kind: SyntaxKind, text: &'a str },
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Enter { kind: SyntaxKind },
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Exit,
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Error { msg: &'a str, pos: usize },
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}
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impl<'a> LexedStr<'a> {
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pub fn to_input(&self) -> crate::Input {
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let mut res = crate::Input::default();
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let mut was_joint = false;
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for i in 0..self.len() {
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let kind = self.kind(i);
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if kind.is_trivia() {
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was_joint = false
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} else {
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if kind == SyntaxKind::IDENT {
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let token_text = self.text(i);
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let contextual_kw = SyntaxKind::from_contextual_keyword(token_text)
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.unwrap_or(SyntaxKind::IDENT);
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res.push_ident(contextual_kw);
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} else {
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if was_joint {
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res.was_joint();
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}
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res.push(kind);
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}
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was_joint = true;
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}
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}
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res
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}
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pub fn intersperse_trivia(
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&self,
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output: &crate::Output,
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synthetic_root: bool,
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sink: &mut dyn FnMut(StrStep),
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) -> bool {
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let mut builder = Builder { lexed: self, pos: 0, state: State::PendingEnter, sink };
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if synthetic_root {
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builder.enter(SyntaxKind::SOURCE_FILE);
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}
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for event in output.iter() {
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match event {
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Step::Token { kind, n_input_tokens: n_raw_tokens } => {
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builder.token(kind, n_raw_tokens)
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}
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Step::Enter { kind } => builder.enter(kind),
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Step::Exit => builder.exit(),
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Step::Error { msg } => {
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let text_pos = builder.lexed.text_start(builder.pos);
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(builder.sink)(StrStep::Error { msg, pos: text_pos });
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}
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}
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}
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if synthetic_root {
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builder.exit();
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}
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match mem::replace(&mut builder.state, State::Normal) {
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State::PendingExit => {
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builder.eat_trivias();
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(builder.sink)(StrStep::Exit);
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}
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State::PendingEnter | State::Normal => unreachable!(),
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}
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let is_eof = builder.pos == builder.lexed.len();
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is_eof
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}
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}
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struct Builder<'a, 'b> {
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lexed: &'a LexedStr<'a>,
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pos: usize,
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state: State,
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sink: &'b mut dyn FnMut(StrStep<'_>),
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}
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enum State {
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PendingEnter,
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Normal,
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PendingExit,
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}
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impl Builder<'_, '_> {
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fn token(&mut self, kind: SyntaxKind, n_tokens: u8) {
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match mem::replace(&mut self.state, State::Normal) {
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State::PendingEnter => unreachable!(),
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State::PendingExit => (self.sink)(StrStep::Exit),
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State::Normal => (),
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}
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self.eat_trivias();
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self.do_token(kind, n_tokens as usize);
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}
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fn enter(&mut self, kind: SyntaxKind) {
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match mem::replace(&mut self.state, State::Normal) {
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State::PendingEnter => {
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(self.sink)(StrStep::Enter { kind });
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// No need to attach trivias to previous node: there is no
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// previous node.
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return;
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}
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State::PendingExit => (self.sink)(StrStep::Exit),
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State::Normal => (),
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}
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let n_trivias =
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(self.pos..self.lexed.len()).take_while(|&it| self.lexed.kind(it).is_trivia()).count();
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let leading_trivias = self.pos..self.pos + n_trivias;
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let n_attached_trivias = n_attached_trivias(
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kind,
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leading_trivias.rev().map(|it| (self.lexed.kind(it), self.lexed.text(it))),
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);
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self.eat_n_trivias(n_trivias - n_attached_trivias);
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(self.sink)(StrStep::Enter { kind });
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self.eat_n_trivias(n_attached_trivias);
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}
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fn exit(&mut self) {
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match mem::replace(&mut self.state, State::PendingExit) {
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State::PendingEnter => unreachable!(),
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State::PendingExit => (self.sink)(StrStep::Exit),
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State::Normal => (),
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}
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}
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fn eat_trivias(&mut self) {
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while self.pos < self.lexed.len() {
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let kind = self.lexed.kind(self.pos);
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if !kind.is_trivia() {
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break;
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}
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self.do_token(kind, 1);
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}
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}
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fn eat_n_trivias(&mut self, n: usize) {
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for _ in 0..n {
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let kind = self.lexed.kind(self.pos);
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assert!(kind.is_trivia());
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self.do_token(kind, 1);
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}
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}
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fn do_token(&mut self, kind: SyntaxKind, n_tokens: usize) {
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let text = &self.lexed.range_text(self.pos..self.pos + n_tokens);
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self.pos += n_tokens;
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(self.sink)(StrStep::Token { kind, text });
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}
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}
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fn n_attached_trivias<'a>(
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kind: SyntaxKind,
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trivias: impl Iterator<Item = (SyntaxKind, &'a str)>,
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) -> usize {
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match kind {
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CONST | ENUM | FN | IMPL | MACRO_CALL | MACRO_DEF | MACRO_RULES | MODULE | RECORD_FIELD
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| STATIC | STRUCT | TRAIT | TUPLE_FIELD | TYPE_ALIAS | UNION | USE | VARIANT => {
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let mut res = 0;
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let mut trivias = trivias.enumerate().peekable();
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while let Some((i, (kind, text))) = trivias.next() {
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match kind {
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WHITESPACE if text.contains("\n\n") => {
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// we check whether the next token is a doc-comment
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// and skip the whitespace in this case
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if let Some((COMMENT, peek_text)) = trivias.peek().map(|(_, pair)| pair) {
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if is_outer(peek_text) {
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continue;
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}
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}
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break;
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}
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COMMENT => {
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if is_inner(text) {
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break;
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}
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res = i + 1;
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}
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_ => (),
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}
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}
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res
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}
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_ => 0,
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}
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}
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fn is_outer(text: &str) -> bool {
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if text.starts_with("////") || text.starts_with("/***") {
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return false;
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}
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text.starts_with("///") || text.starts_with("/**")
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}
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fn is_inner(text: &str) -> bool {
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text.starts_with("//!") || text.starts_with("/*!")
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}
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@ -1,12 +1,11 @@
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//! Lexing, bridging to parser (which does the actual parsing) and
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//! incremental reparsing.
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mod text_tree_sink;
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mod reparsing;
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use crate::{
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parsing::text_tree_sink::build_tree, syntax_node::GreenNode, AstNode, SyntaxError, SyntaxNode,
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};
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use rowan::TextRange;
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use crate::{syntax_node::GreenNode, AstNode, SyntaxError, SyntaxNode, SyntaxTreeBuilder};
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pub(crate) use crate::parsing::reparsing::incremental_reparse;
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@ -37,3 +36,32 @@ pub(crate) fn parse_text_as<T: AstNode>(
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SyntaxNode::new_root(node).first_child().and_then(T::cast).ok_or(())
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}
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pub(crate) fn build_tree(
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lexed: parser::LexedStr<'_>,
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parser_output: parser::Output,
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synthetic_root: bool,
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) -> (GreenNode, Vec<SyntaxError>, bool) {
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let mut builder = SyntaxTreeBuilder::default();
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let is_eof = lexed.intersperse_trivia(&parser_output, synthetic_root, &mut |step| match step {
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parser::StrStep::Token { kind, text } => builder.token(kind, text),
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parser::StrStep::Enter { kind } => builder.start_node(kind),
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parser::StrStep::Exit => builder.finish_node(),
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parser::StrStep::Error { msg, pos } => {
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builder.error(msg.to_string(), pos.try_into().unwrap())
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}
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});
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let (node, mut errors) = builder.finish_raw();
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for (i, err) in lexed.errors() {
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let text_range = lexed.text_range(i);
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let text_range = TextRange::new(
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text_range.start.try_into().unwrap(),
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text_range.end.try_into().unwrap(),
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);
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errors.push(SyntaxError::new(err, text_range))
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}
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(node, errors, is_eof)
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}
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@ -10,7 +10,7 @@ use parser::Reparser;
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use text_edit::Indel;
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use crate::{
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parsing::text_tree_sink::build_tree,
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parsing::build_tree,
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syntax_node::{GreenNode, GreenToken, NodeOrToken, SyntaxElement, SyntaxNode},
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SyntaxError,
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SyntaxKind::*,
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|
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@ -1,191 +0,0 @@
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//! See [`TextTreeSink`].
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use std::mem;
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use parser::LexedStr;
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use crate::{
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ast,
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syntax_node::GreenNode,
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SyntaxError,
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SyntaxKind::{self, *},
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SyntaxTreeBuilder, TextRange,
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};
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pub(crate) fn build_tree(
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lexed: LexedStr<'_>,
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parser_output: parser::Output,
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synthetic_root: bool,
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) -> (GreenNode, Vec<SyntaxError>, bool) {
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let mut builder = Builder::new(lexed);
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if synthetic_root {
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builder.enter(SyntaxKind::SOURCE_FILE);
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}
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for event in parser_output.iter() {
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match event {
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parser::Step::Token { kind, n_input_tokens: n_raw_tokens } => {
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builder.token(kind, n_raw_tokens)
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}
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parser::Step::Enter { kind } => builder.enter(kind),
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parser::Step::Exit => builder.exit(),
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parser::Step::Error { msg } => {
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let text_pos = builder.lexed.text_start(builder.pos).try_into().unwrap();
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builder.inner.error(msg.to_string(), text_pos);
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}
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}
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}
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if synthetic_root {
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builder.exit()
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}
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builder.build()
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}
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struct Builder<'a> {
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lexed: LexedStr<'a>,
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pos: usize,
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state: State,
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inner: SyntaxTreeBuilder,
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}
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enum State {
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PendingStart,
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Normal,
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PendingFinish,
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}
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|
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impl<'a> Builder<'a> {
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fn new(lexed: parser::LexedStr<'a>) -> Self {
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Self { lexed, pos: 0, state: State::PendingStart, inner: SyntaxTreeBuilder::default() }
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}
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fn build(mut self) -> (GreenNode, Vec<SyntaxError>, bool) {
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match mem::replace(&mut self.state, State::Normal) {
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State::PendingFinish => {
|
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self.eat_trivias();
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self.inner.finish_node();
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}
|
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State::PendingStart | State::Normal => unreachable!(),
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}
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|
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let (node, mut errors) = self.inner.finish_raw();
|
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for (i, err) in self.lexed.errors() {
|
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let text_range = self.lexed.text_range(i);
|
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let text_range = TextRange::new(
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text_range.start.try_into().unwrap(),
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text_range.end.try_into().unwrap(),
|
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);
|
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errors.push(SyntaxError::new(err, text_range))
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}
|
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|
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let is_eof = self.pos == self.lexed.len();
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|
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(node, errors, is_eof)
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}
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|
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fn token(&mut self, kind: SyntaxKind, n_tokens: u8) {
|
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match mem::replace(&mut self.state, State::Normal) {
|
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State::PendingStart => unreachable!(),
|
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State::PendingFinish => self.inner.finish_node(),
|
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State::Normal => (),
|
||||
}
|
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self.eat_trivias();
|
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self.do_token(kind, n_tokens as usize);
|
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}
|
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|
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fn enter(&mut self, kind: SyntaxKind) {
|
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match mem::replace(&mut self.state, State::Normal) {
|
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State::PendingStart => {
|
||||
self.inner.start_node(kind);
|
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// No need to attach trivias to previous node: there is no
|
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// previous node.
|
||||
return;
|
||||
}
|
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State::PendingFinish => self.inner.finish_node(),
|
||||
State::Normal => (),
|
||||
}
|
||||
|
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let n_trivias =
|
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(self.pos..self.lexed.len()).take_while(|&it| self.lexed.kind(it).is_trivia()).count();
|
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let leading_trivias = self.pos..self.pos + n_trivias;
|
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let n_attached_trivias = n_attached_trivias(
|
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kind,
|
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leading_trivias.rev().map(|it| (self.lexed.kind(it), self.lexed.text(it))),
|
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);
|
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self.eat_n_trivias(n_trivias - n_attached_trivias);
|
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self.inner.start_node(kind);
|
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self.eat_n_trivias(n_attached_trivias);
|
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}
|
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|
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fn exit(&mut self) {
|
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match mem::replace(&mut self.state, State::PendingFinish) {
|
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State::PendingStart => unreachable!(),
|
||||
State::PendingFinish => self.inner.finish_node(),
|
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State::Normal => (),
|
||||
}
|
||||
}
|
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|
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fn eat_trivias(&mut self) {
|
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while self.pos < self.lexed.len() {
|
||||
let kind = self.lexed.kind(self.pos);
|
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if !kind.is_trivia() {
|
||||
break;
|
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}
|
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self.do_token(kind, 1);
|
||||
}
|
||||
}
|
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|
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fn eat_n_trivias(&mut self, n: usize) {
|
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for _ in 0..n {
|
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let kind = self.lexed.kind(self.pos);
|
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assert!(kind.is_trivia());
|
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self.do_token(kind, 1);
|
||||
}
|
||||
}
|
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|
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fn do_token(&mut self, kind: SyntaxKind, n_tokens: usize) {
|
||||
let text = &self.lexed.range_text(self.pos..self.pos + n_tokens);
|
||||
self.pos += n_tokens;
|
||||
self.inner.token(kind, text);
|
||||
}
|
||||
}
|
||||
|
||||
fn n_attached_trivias<'a>(
|
||||
kind: SyntaxKind,
|
||||
trivias: impl Iterator<Item = (SyntaxKind, &'a str)>,
|
||||
) -> usize {
|
||||
match kind {
|
||||
CONST | ENUM | FN | IMPL | MACRO_CALL | MACRO_DEF | MACRO_RULES | MODULE | RECORD_FIELD
|
||||
| STATIC | STRUCT | TRAIT | TUPLE_FIELD | TYPE_ALIAS | UNION | USE | VARIANT => {
|
||||
let mut res = 0;
|
||||
let mut trivias = trivias.enumerate().peekable();
|
||||
|
||||
while let Some((i, (kind, text))) = trivias.next() {
|
||||
match kind {
|
||||
WHITESPACE if text.contains("\n\n") => {
|
||||
// we check whether the next token is a doc-comment
|
||||
// and skip the whitespace in this case
|
||||
if let Some((COMMENT, peek_text)) = trivias.peek().map(|(_, pair)| pair) {
|
||||
let comment_kind = ast::CommentKind::from_text(peek_text);
|
||||
if comment_kind.doc == Some(ast::CommentPlacement::Outer) {
|
||||
continue;
|
||||
}
|
||||
}
|
||||
break;
|
||||
}
|
||||
COMMENT => {
|
||||
let comment_kind = ast::CommentKind::from_text(text);
|
||||
if comment_kind.doc == Some(ast::CommentPlacement::Inner) {
|
||||
break;
|
||||
}
|
||||
res = i + 1;
|
||||
}
|
||||
_ => (),
|
||||
}
|
||||
}
|
||||
res
|
||||
}
|
||||
_ => 0,
|
||||
}
|
||||
}
|
Loading…
Reference in a new issue