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Merge #3664

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3664: Introduce TokenConverter Trait r=matklad a=edwin0cheng

This PR add a `TokenConverter` Trait to share the conversion logic between raw `lexer` token and Syntax Node Token.

Related #2158.

Co-authored-by: Edwin Cheng <edwin0cheng@gmail.com>
This commit is contained in:
bors[bot] 2020-03-24 16:41:56 +00:00 committed by GitHub
commit fae627174a
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2 changed files with 255 additions and 176 deletions
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365
crates/ra_mbe/src/syntax_bridge.rs
View file

@ -3,12 +3,11 @@
use ra_parser::{FragmentKind, ParseError, TreeSink};
use ra_syntax::{
ast::{self, make::tokens::doc_comment},
tokenize, AstToken, NodeOrToken, Parse, SmolStr, SyntaxKind,
tokenize, AstToken, Parse, SmolStr, SyntaxKind,
SyntaxKind::*,
SyntaxNode, SyntaxTreeBuilder, TextRange, TextUnit, Token, T,
SyntaxNode, SyntaxToken, SyntaxTreeBuilder, TextRange, TextUnit, Token as RawToken, T,
};
use rustc_hash::FxHashMap;
use std::iter::successors;
use tt::buffer::{Cursor, TokenBuffer};
use crate::subtree_source::SubtreeTokenSource;
@ -50,10 +49,8 @@ pub fn ast_to_token_tree(ast: &impl ast::AstNode) -> Option<(tt::Subtree, TokenM
/// will consume).
pub fn syntax_node_to_token_tree(node: &SyntaxNode) -> Option<(tt::Subtree, TokenMap)> {
let global_offset = node.text_range().start();
let mut c = Convertor {
id_alloc: { TokenIdAlloc { map: TokenMap::default(), global_offset, next_id: 0 } },
};
let subtree = c.go(node)?;
let mut c = Convertor::new(node, global_offset);
let subtree = c.go()?;
Some((subtree, c.id_alloc.map))
}
@ -152,6 +149,10 @@ impl TokenMap {
}
}
}
fn remove_delim(&mut self, token_id: tt::TokenId) {
self.entries.retain(|(tid, _)| *tid != token_id);
}
}
/// Returns the textual content of a doc comment block as a quoted string
@ -237,25 +238,26 @@ impl TokenIdAlloc {
token_id
}
fn delim(&mut self, open_abs_range: TextRange, close_abs_range: TextRange) -> tt::TokenId {
let open_relative_range = open_abs_range - self.global_offset;
let close_relative_range = close_abs_range - self.global_offset;
let token_id = tt::TokenId(self.next_id);
self.next_id += 1;
self.map.insert_delim(token_id, open_relative_range, close_relative_range);
token_id
}
fn open_delim(&mut self, open_abs_range: TextRange) -> tt::TokenId {
let token_id = tt::TokenId(self.next_id);
self.next_id += 1;
self.map.insert_delim(token_id, open_abs_range, open_abs_range);
self.map.insert_delim(
token_id,
open_abs_range - self.global_offset,
open_abs_range - self.global_offset,
);
token_id
}
fn close_delim(&mut self, id: tt::TokenId, close_abs_range: TextRange) {
self.map.update_close_delim(id, close_abs_range);
fn close_delim(&mut self, id: tt::TokenId, close_abs_range: Option<TextRange>) {
match close_abs_range {
None => {
self.map.remove_delim(id);
}
Some(close) => {
self.map.update_close_delim(id, close - self.global_offset);
}
}
}
}
@ -264,10 +266,20 @@ struct RawConvertor<'a> {
text: &'a str,
offset: TextUnit,
id_alloc: TokenIdAlloc,
inner: std::slice::Iter<'a, Token>,
inner: std::slice::Iter<'a, RawToken>,
}
impl RawConvertor<'_> {
trait SrcToken {
fn kind(&self) -> SyntaxKind;
fn to_char(&self) -> Option<char>;
fn to_text(&self) -> SmolStr;
}
trait TokenConvertor {
type Token: SrcToken;
fn go(&mut self) -> Option<tt::Subtree> {
let mut subtree = tt::Subtree::default();
subtree.delimiter = None;
@ -285,33 +297,22 @@ impl RawConvertor<'_> {
Some(subtree)
}
fn bump(&mut self) -> Option<(Token, TextRange)> {
let token = self.inner.next()?;
let range = TextRange::offset_len(self.offset, token.len);
self.offset += token.len;
Some((*token, range))
}
fn peek(&self) -> Option<Token> {
self.inner.as_slice().get(0).cloned()
}
fn collect_leaf(&mut self, result: &mut Vec<tt::TokenTree>) {
let (token, range) = match self.bump() {
None => return,
Some(it) => it,
};
let k: SyntaxKind = token.kind;
let k: SyntaxKind = token.kind();
if k == COMMENT {
let node = doc_comment(&self.text[range]);
if let Some(tokens) = convert_doc_comment(&node) {
if let Some(tokens) = self.convert_doc_comment(&token) {
result.extend(tokens);
}
return;
}
result.push(if k.is_punct() {
assert_eq!(range.len().to_usize(), 1);
let delim = match k {
T!['('] => Some((tt::DelimiterKind::Parenthesis, T![')'])),
T!['{'] => Some((tt::DelimiterKind::Brace, T!['}'])),
@ -321,40 +322,51 @@ impl RawConvertor<'_> {
if let Some((kind, closed)) = delim {
let mut subtree = tt::Subtree::default();
let id = self.id_alloc.open_delim(range);
let id = self.id_alloc().open_delim(range);
subtree.delimiter = Some(tt::Delimiter { kind, id });
while self.peek().map(|it| it.kind != closed).unwrap_or(false) {
while self.peek().map(|it| it.kind() != closed).unwrap_or(false) {
self.collect_leaf(&mut subtree.token_trees);
}
let last_range = match self.bump() {
None => return,
None => {
// For error resilience, we insert an char punct for the opening delim here
self.id_alloc().close_delim(id, None);
let leaf: tt::Leaf = tt::Punct {
id: self.id_alloc().alloc(range),
char: token.to_char().unwrap(),
spacing: tt::Spacing::Alone,
}
.into();
result.push(leaf.into());
result.extend(subtree.token_trees);
return;
}
Some(it) => it.1,
};
self.id_alloc.close_delim(id, last_range);
self.id_alloc().close_delim(id, Some(last_range));
subtree.into()
} else {
let spacing = match self.peek() {
Some(next)
if next.kind.is_trivia()
|| next.kind == T!['[']
|| next.kind == T!['{']
|| next.kind == T!['('] =>
if next.kind().is_trivia()
|| next.kind() == T!['[']
|| next.kind() == T!['{']
|| next.kind() == T!['('] =>
{
tt::Spacing::Alone
}
Some(next) if next.kind.is_punct() => tt::Spacing::Joint,
Some(next) if next.kind().is_punct() => tt::Spacing::Joint,
_ => tt::Spacing::Alone,
};
let char =
self.text[range].chars().next().expect("Token from lexer must be single char");
let char = token.to_char().expect("Token from lexer must be single char");
tt::Leaf::from(tt::Punct { char, spacing, id: self.id_alloc.alloc(range) }).into()
tt::Leaf::from(tt::Punct { char, spacing, id: self.id_alloc().alloc(range) }).into()
}
} else {
macro_rules! make_leaf {
($i:ident) => {
tt::$i { id: self.id_alloc.alloc(range), text: self.text[range].into() }.into()
tt::$i { id: self.id_alloc().alloc(range), text: token.to_text() }.into()
};
}
let leaf: tt::Leaf = match k {
@ -368,133 +380,168 @@ impl RawConvertor<'_> {
leaf.into()
});
}
fn convert_doc_comment(&self, token: &Self::Token) -> Option<Vec<tt::TokenTree>>;
fn bump(&mut self) -> Option<(Self::Token, TextRange)>;
fn peek(&self) -> Option<Self::Token>;
fn id_alloc(&mut self) -> &mut TokenIdAlloc;
}
impl<'a> SrcToken for (RawToken, &'a str) {
fn kind(&self) -> SyntaxKind {
self.0.kind
}
fn to_char(&self) -> Option<char> {
self.1.chars().next()
}
fn to_text(&self) -> SmolStr {
self.1.into()
}
}
impl RawConvertor<'_> {}
impl<'a> TokenConvertor for RawConvertor<'a> {
type Token = (RawToken, &'a str);
fn convert_doc_comment(&self, token: &Self::Token) -> Option<Vec<tt::TokenTree>> {
convert_doc_comment(&doc_comment(token.1))
}
fn bump(&mut self) -> Option<(Self::Token, TextRange)> {
let token = self.inner.next()?;
let range = TextRange::offset_len(self.offset, token.len);
self.offset += token.len;
Some(((*token, &self.text[range]), range))
}
fn peek(&self) -> Option<Self::Token> {
let token = self.inner.as_slice().get(0).cloned();
token.map(|it| {
let range = TextRange::offset_len(self.offset, it.len);
(it, &self.text[range])
})
}
fn id_alloc(&mut self) -> &mut TokenIdAlloc {
&mut self.id_alloc
}
}
// FIXME: There are some duplicate logic between RawConvertor and Convertor
// It would be nice to refactor to converting SyntaxNode to ra_parser::Token and thus
// use RawConvertor directly. But performance-wise it may not be a good idea ?
struct Convertor {
id_alloc: TokenIdAlloc,
current: Option<SyntaxToken>,
range: TextRange,
punct_offset: Option<(SyntaxToken, TextUnit)>,
}
impl Convertor {
fn go(&mut self, tt: &SyntaxNode) -> Option<tt::Subtree> {
// This tree is empty
if tt.first_child_or_token().is_none() {
return Some(tt::Subtree { token_trees: vec![], delimiter: None });
fn new(node: &SyntaxNode, global_offset: TextUnit) -> Convertor {
Convertor {
id_alloc: { TokenIdAlloc { map: TokenMap::default(), global_offset, next_id: 0 } },
current: node.first_token(),
range: node.text_range(),
punct_offset: None,
}
}
}
enum SynToken {
Ordiniary(SyntaxToken),
Punch(SyntaxToken, TextUnit),
}
impl SynToken {
fn token(&self) -> &SyntaxToken {
match self {
SynToken::Ordiniary(it) => it,
SynToken::Punch(it, _) => it,
}
}
}
impl SrcToken for SynToken {
fn kind(&self) -> SyntaxKind {
self.token().kind()
}
fn to_char(&self) -> Option<char> {
match self {
SynToken::Ordiniary(_) => None,
SynToken::Punch(it, i) => it.text().chars().nth(i.to_usize()),
}
}
fn to_text(&self) -> SmolStr {
self.token().text().clone()
}
}
impl TokenConvertor for Convertor {
type Token = SynToken;
fn convert_doc_comment(&self, token: &Self::Token) -> Option<Vec<tt::TokenTree>> {
convert_doc_comment(token.token())
}
fn bump(&mut self) -> Option<(Self::Token, TextRange)> {
if let Some((punct, offset)) = self.punct_offset.clone() {
if offset.to_usize() + 1 < punct.text().len() {
let offset = offset + TextUnit::from_usize(1);
let range = punct.text_range();
self.punct_offset = Some((punct.clone(), offset));
let range = TextRange::offset_len(range.start() + offset, TextUnit::from_usize(1));
return Some((SynToken::Punch(punct, offset), range));
}
}
let first_child = tt.first_child_or_token()?;
let last_child = tt.last_child_or_token()?;
// ignore trivial first_child and last_child
let first_child = successors(Some(first_child), |it| {
if it.kind().is_trivia() {
it.next_sibling_or_token()
} else {
None
}
})
.last()
.unwrap();
if first_child.kind().is_trivia() {
return Some(tt::Subtree { token_trees: vec![], delimiter: None });
let curr = self.current.clone()?;
if !curr.text_range().is_subrange(&self.range) {
return None;
}
self.current = curr.next_token();
let last_child = successors(Some(last_child), |it| {
if it.kind().is_trivia() {
it.prev_sibling_or_token()
} else {
None
}
})
.last()
.unwrap();
let (delimiter_kind, skip_first) = match (first_child.kind(), last_child.kind()) {
(T!['('], T![')']) => (Some(tt::DelimiterKind::Parenthesis), true),
(T!['{'], T!['}']) => (Some(tt::DelimiterKind::Brace), true),
(T!['['], T![']']) => (Some(tt::DelimiterKind::Bracket), true),
_ => (None, false),
let token = if curr.kind().is_punct() {
let range = curr.text_range();
let range = TextRange::offset_len(range.start(), TextUnit::from_usize(1));
self.punct_offset = Some((curr.clone(), TextUnit::from_usize(0)));
(SynToken::Punch(curr, TextUnit::from_usize(0)), range)
} else {
self.punct_offset = None;
let range = curr.text_range();
(SynToken::Ordiniary(curr), range)
};
let delimiter = delimiter_kind.map(|kind| tt::Delimiter {
kind,
id: self.id_alloc.delim(first_child.text_range(), last_child.text_range()),
});
let mut token_trees = Vec::new();
let mut child_iter = tt.children_with_tokens().skip(skip_first as usize).peekable();
Some(token)
}
while let Some(child) = child_iter.next() {
if skip_first && (child == first_child || child == last_child) {
continue;
fn peek(&self) -> Option<Self::Token> {
if let Some((punct, mut offset)) = self.punct_offset.clone() {
offset = offset + TextUnit::from_usize(1);
if offset.to_usize() < punct.text().len() {
return Some(SynToken::Punch(punct, offset));
}
match child {
NodeOrToken::Token(token) => {
if let Some(doc_tokens) = convert_doc_comment(&token) {
token_trees.extend(doc_tokens);
} else if token.kind().is_trivia() {
continue;
} else if token.kind().is_punct() {
// we need to pull apart joined punctuation tokens
let last_spacing = match child_iter.peek() {
Some(NodeOrToken::Token(token)) => {
if token.kind().is_punct() {
tt::Spacing::Joint
} else {
tt::Spacing::Alone
}
}
_ => tt::Spacing::Alone,
};
let spacing_iter = std::iter::repeat(tt::Spacing::Joint)
.take(token.text().len() - 1)
.chain(std::iter::once(last_spacing));
for (char, spacing) in token.text().chars().zip(spacing_iter) {
token_trees.push(
tt::Leaf::from(tt::Punct {
char,
spacing,
id: self.id_alloc.alloc(token.text_range()),
})
.into(),
);
}
} else {
macro_rules! make_leaf {
($i:ident) => {
tt::$i {
id: self.id_alloc.alloc(token.text_range()),
text: token.text().clone(),
}
.into()
};
}
let child: tt::Leaf = match token.kind() {
T![true] | T![false] => make_leaf!(Literal),
IDENT | LIFETIME => make_leaf!(Ident),
k if k.is_keyword() => make_leaf!(Ident),
k if k.is_literal() => make_leaf!(Literal),
_ => return None,
};
token_trees.push(child.into());
}
}
NodeOrToken::Node(node) => {
let child_subtree = self.go(&node)?;
if child_subtree.delimiter.is_none() && node.kind() != SyntaxKind::TOKEN_TREE {
token_trees.extend(child_subtree.token_trees);
} else {
token_trees.push(child_subtree.into());
}
}
};
}
let res = tt::Subtree { delimiter, token_trees };
Some(res)
let curr = self.current.clone()?;
if !curr.text_range().is_subrange(&self.range) {
return None;
}
let token = if curr.kind().is_punct() {
SynToken::Punch(curr, TextUnit::from_usize(0))
} else {
SynToken::Ordiniary(curr)
};
Some(token)
}
fn id_alloc(&mut self) -> &mut TokenIdAlloc {
&mut self.id_alloc
}
}

66
crates/ra_mbe/src/tests.rs
View file

@ -427,22 +427,28 @@ MACRO_ITEMS@[0; 40)
);
}
fn to_subtree(tt: &tt::TokenTree) -> &tt::Subtree {
if let tt::TokenTree::Subtree(subtree) = tt {
return &subtree;
}
unreachable!("It is not a subtree");
}
fn to_literal(tt: &tt::TokenTree) -> &tt::Literal {
if let tt::TokenTree::Leaf(tt::Leaf::Literal(lit)) = tt {
return lit;
}
unreachable!("It is not a literal");
}
fn to_punct(tt: &tt::TokenTree) -> &tt::Punct {
if let tt::TokenTree::Leaf(tt::Leaf::Punct(lit)) = tt {
return lit;
}
unreachable!("It is not a Punct");
}
#[test]
fn test_expand_literals_to_token_tree() {
fn to_subtree(tt: &tt::TokenTree) -> &tt::Subtree {
if let tt::TokenTree::Subtree(subtree) = tt {
return &subtree;
}
unreachable!("It is not a subtree");
}
fn to_literal(tt: &tt::TokenTree) -> &tt::Literal {
if let tt::TokenTree::Leaf(tt::Leaf::Literal(lit)) = tt {
return lit;
}
unreachable!("It is not a literal");
}
let expansion = parse_macro(
r#"
macro_rules! literals {
@ -470,6 +476,22 @@ fn test_expand_literals_to_token_tree() {
assert_eq!(to_literal(&stm_tokens[15 + 3]).text, "\"rust1\"");
}
#[test]
fn test_attr_to_token_tree() {
let expansion = parse_to_token_tree_by_syntax(
r#"
#[derive(Copy)]
struct Foo;
"#,
);
assert_eq!(to_punct(&expansion.token_trees[0]).char, '#');
assert_eq!(
to_subtree(&expansion.token_trees[1]).delimiter_kind(),
Some(tt::DelimiterKind::Bracket)
);
}
#[test]
fn test_two_idents() {
parse_macro(
@ -1427,8 +1449,8 @@ impl MacroFixture {
let macro_invocation =
source_file.syntax().descendants().find_map(ast::MacroCall::cast).unwrap();
let (invocation_tt, _) =
ast_to_token_tree(&macro_invocation.token_tree().unwrap()).unwrap();
let (invocation_tt, _) = ast_to_token_tree(&macro_invocation.token_tree().unwrap())
.ok_or_else(|| ExpandError::ConversionError)?;
self.rules.expand(&invocation_tt).result()
}
@ -1517,6 +1539,16 @@ pub(crate) fn parse_macro(ra_fixture: &str) -> MacroFixture {
MacroFixture { rules }
}
pub(crate) fn parse_to_token_tree_by_syntax(ra_fixture: &str) -> tt::Subtree {
let source_file = ast::SourceFile::parse(ra_fixture).ok().unwrap();
let tt = syntax_node_to_token_tree(source_file.syntax()).unwrap().0;
let parsed = parse_to_token_tree(ra_fixture).unwrap().0;
assert_eq!(tt, parsed);
parsed
}
fn debug_dump_ignore_spaces(node: &ra_syntax::SyntaxNode) -> String {
let mut level = 0;
let mut buf = String::new();
@ -1662,5 +1694,5 @@ fn test_expand_bad_literal() {
macro_rules! foo { ($i:literal) => {}; }
"#,
)
.assert_expand_err(r#"foo!(&k");"#, &ExpandError::BindingError("".to_string()));
.assert_expand_err(r#"foo!(&k");"#, &ExpandError::BindingError("".into()));
}